Patent Publication Number: US-2007105128-A1

Title: Detection of genetic polymorphisms

Description:
The present application is a Divisional of application Ser. No. 10/035,833 filed Dec. 27, 2001, which claims priority to Japanese Patent Application Ser. Nos. 2000-399,443 filed Dec. 27, 2000, 2001-135,256 filed May 2, 2001, 2001-256,862 filed Aug. 27, 2001, and 2001-395,196, filed Dec. 26, 2001, each of which was filed with the Commissioner of the Japanese Patent Office. Right of priority under 35 U.S.C. 119 is claimed from these Japanese patent applications under the Paris Convention for the Protection of Industrial Property. The present invention also claims priority to PCT application PCT/JP01/11592, filed Dec. 27, 2001 in the Japanese receiving office. Each of these applications are herein incorporated by reference in their entireties. 
    
    
     FIELD OF THE INVENTION  
      The present invention relates to genetic polymorphism data, compositions and methods for detecting genetic polymorphisms, methods for evaluating drugs using genetic polymorphisms and screening methods for drugs.  
     BACKGROUND  
      Human beings come in all shapes and sizes, and over three billion genetic codes are located in somewhat different sites in each human being. Individual DNA sequence variations in the human genome are known to directly cause specific diseases or conditions, to predispose certain individuals to specific diseases or conditions, and to affect responses of individuals to treatments such as drugs. Such variations also modulate the severity or progression of many diseases. Additionally, DNA sequences vary between populations. Therefore, determining DNA sequence variations in the human genome is useful for making accurate diagnoses, for finding suitable therapies, and for understanding the relationship between genome variations and environmental factors in the pathogenesis of diseases, the prevalence of conditions and the efficacy of therapies.  
      There are several types of DNA sequence variations in the human genome. These variations include insertions, deletions and copy number differences of repeated sequences. These differences in the genetic code are called genetic polymorphisms. The most common DNA sequence variations in the human genome are single base pair substitutions. These are generally referred to as single nucleotide polymorphisms (SNPs) when the variant allele has a population frequency of at least 1%. SNPs may be classified by where they appear in the genome. For example, a single nucleotide polymorphism may be classified as a coding SNP (cSNP) when it is in a region encoding a protein, or genome SNP (gSNP) when it is detected anywhere in a genome, without reference to whether it is in a coding region. Coding SNPs include silent SNPs (sSNP), and SNPs that may be in regions associated with coding sequences, such as regulatory regions or elements (e.g., regulatory SNPs, or rSNPs) and introns (e.g., intron SNPs, or iSNPs).  
      SNPs are particularly useful in studying the relationship between DNA sequence variations and human diseases, conditions and drug responses because SNPs are stable in populations, occur frequently, and have lower mutation rates than other genome variations such as repeating sequences. In addition, methods for detecting SNPs are more amenable to being automated and used for large-scale studies than methods for detecting other, less common DNA sequence variations.  
      Single nucleotide polymorphisms are useful as polymorphism markers for discovering genes that cause or exacerbate certain diseases. This is directly related in clinical medicine to diagnosing the risk for a disease and determining the proper pharmaceutical treatment. There is currently a worldwide effort going on to develop drugs based on the target genes that cause diseases. Individual patients also react differently when a drug is administered. In some patients, a drug may have a significant effect, in others a lesser effect and in still others no effect at all. In other words, there is a major difference in patient reactions to the same drug. Patients may also metabolize drugs at different rates. In addition to differences in therapeutic reactions among patients to drugs, there is also the possibility of strong and even fatal side effects due to genetically linked differences in, e.g., drug metabolism, drug transport or drug receptor function. Analysis of genetic polymorphisms such as SNPs allows for the selection of drugs and the development of treatment protocols tailored to each individual patient (so-called “personalized” medical treatments). Instead of the using trial-and-error methods of matching patients with the right drugs, doctors may, for example, be able to analyze a patient&#39;s genetic profile and prescribe the best available drug therapy from the beginning. Not only would this take the guesswork out of finding the right drug, it would reduce the likelihood of adverse reactions, thus increasing safety.  
     SUMMARY OF THE INVENTION  
      The present invention identifies genetic polymorphisms relating to genes associated with drug metabolism. In some embodiments, the present invention provides methods for determining variations in sequences and genes associated with drug-metabolizing enzymes. In preferred embodiments, the present invention provides methods for collecting genetic polymorphism data for use in evaluating the effectiveness and safety of a drug based on the data, and screening drugs using the data. In some preferred embodiments, the polymorphisms of the present invention are used to evaluate a causal relationship between the genetic make-up of a patient and a response to an administered drug.  
      The present invention relates to genes encoding enzymes associated with drug metabolism (drug metabolizing enzymes, or DMEs). In particular, the present invention relates to sequence variations associated with variations in DMEs. In some embodiments, variations occur in coding regions of DMEs, such as may alter a function of the DMEs, (e.g., by increasing or decreasing its level of activity, or shifting its activity to an alternative target or function). In other embodiments, the variations occur in non-coding regions of the genome, such as may alter expression of a DME (e.g., increasing or decreasing the amount of an enzyme produced in a cell) or processing of an RNA transcript encoding a DME (e.g., by altering splicing).  
      In some embodiments, the present invention provides methods for detecting DME-related sequence variations. In some preferred embodiments, the methods of the present invention are used to create a profile of DME-related polymorphisms in a test subject.  
      In other embodiments, the present invention provides isolated nucleic acid sequences encoding variant DMEs. For example, the present invention provides a recombinant DNA vector comprising DNA having a nucleotide sequence encoding a variant DME, the nucleotide sequence comprising a sequence including, but not limited to, SEQ ID NOS:1-7669, and substantially similar sequences. In a preferred embodiment, the invention provides a host cell transformed with a recombinant DNA vector comprising DNA having a nucleotide sequence encoding a variant DME. The invention is not limited by the nature of the host cell employed. The art is well aware of expression vectors suitable for the expression of nucleotide sequences encoding variant DMEs that can be expressed in a variety of prokaryotic and eukaryotic host cells. In some preferred embodiments, the host cell is a eukaryotic cell grown in culture, such as for use in in vitro drug screening (e.g., by monitoring the expression of genes associated with the pathways targeted by a particular test drug). In other preferred embodiments, the host cell is in vivo.  
      The present invention provides systems and methods for detection of polymorphisms associated with genes encoding enzymes associated with drug metabolism. The present invention is not limited in the nature of the detection assay used for detection or identification of such polymorphisms. Such detection assays include, but are not limited to, hybridization methods and array technologies (e.g., technologies available from Aclara BioSciences, Haywood, Calif.; Affymetrix, Santa Clara, Calif.; Agilent Technologies, Inc., Palo Alto, Calif.; Aviva Biosciences Corp., San Diego, Calif.; Caliper Technologies Corp., Palo Alto, Calif.; Celera, Rockville, Md.; CuraGen Corp., New Haven, Conn.; Hyseq Inc., Sunnyvale, Calif.; Illumina, Inc., San Diego, Calif.; Incyte Genomics, Palo Alto, Calif.; Motorola BioChip Systems; Nanogen, San Diego, Calif.; Orchid BioSciences, Inc., Princeton, N.J.; Applera Corp., Foster City, Calif.; Rosetta Inpharmatics, Kirkland, Wash.; and Sequenom, San Diego, Calif.); polymerase chain reaction-based methods (e.g., TAQMAN, Applera Corp., GENECODE system, EraGen, Middleton, Wis.); branched hybridization methods; enzyme mismatch cleavage methods; NASBA; sandwich hybridization methods; methods employing molecular beacons; ligase chain reactions, and the like.  
      Methods of the present invention find application in improving the drug discovery and approval processes. For example, the costs and risks of drug development may be reduced if only those persons capable of responding to a drug are selected for clinical trials. In addition, previously failed drug candidates may be revived as they are matched with more appropriate patient populations. Decreases in the number of adverse drug reactions, the number of failed drug trials, the time it takes to get a drug approved, the length of time patients are on medication, the number of medications patients must take to find an effective therapy, and an increase in the range of possible drug targets will promote a net decrease in the cost of health care.  
      Thus, in some embodiments, the present invention provides a method of identifying individuals having a polymorphism, comprising providing nucleic acid from a subject; and detecting the presence of at least one polymorphism in said nucleic acid, said at least one polymorphism including, but not limited to, polymorphisms found in SEQ ID Nos:1-7669. In some embodiments, the method further provides the step of providing a prognosis (e.g., a genotype relative risk or a population attributable risk) to the subject based on the presence or absence of the at least one polymorphism. In some embodiments, the detecting step is carried out using a detection assay including, but not limited to, a hybridization assay, a TAQMAN assay, an invasive cleavage assay, use of mass spectroscopy, a microarray, a polymerase chain reaction, a rolling circle extension assay, a sequencing assay, a hybridization assay employing a probe complementary to a polymorphism, a bead array assay, a primer extension assay, an enzyme mismatch cleavage assay, a branched hybridization assay, a NASBA assay, a molecular beacon assay, a cycling probe assay, a ligase chain reaction assay, and a sandwich hybridization assay.  
      The present invention also provides a nucleic acid (e.g., a gene, a probe, a primer, etc.) comprising a sequence selected from the group consisting of SEQ ID NO:1-7669 or complements thereof. In some embodiments, the nucleic acid molecule comprises a label. In some embodiments, the nucleic acid is attached to a solid support (e.g., as part of a microarray). The present invention also provides vectors comprising the nucleic acid and host cell comprising the vector, as well as polypeptide encoded by the nucleic acid. Methods of producing and purifying polypeptides are well known in the art.  
      The present invention further provides kits for detecting a polymorphism, comprising at least one reagent that specifically detects a polymorphism in a sequence including, but not limited to, SEQ ID Nos:1-7669. In some embodiments, the kit further comprising instructions for determining whether the subject is at increased risk of having a drug metabolism disorder. In some embodiments, the at least one reagent comprises a nucleic acid probe. The kits can be configured for a variety of uses including, but not limited to, use as an in vitro diagnostic detection assay, an analyte specific reagent detection assay, and a research-use-only detection assay.  
      The present invention also provides a method for screening subjects for genetic markers associated with drug metabolizing enzyme(s), comprising: a) providing a biological sample comprising a nucleic acid from a subject; b) testing the nucleic acid for a polymorphism in a genetic marker associated with a drug metabolizing enzyme, said genetic marker comprising one or more nucleotide polymorphisms designated by n, said n selected from a base substitution, an insertion, or a deletion found in a sequence selected from the group consisting of SEQ ID Nos:1-7669. The present invention is not limited by the source of the nucleic acid. In some embodiments, the biological sample comprises blood, saliva, amniotic fluid, and tissue. In some embodiments, the subject is a human. In some preferred embodiments, the nucleic acid comprises DNA and/or RNA.  
      The present invention further provides a composition comprising an array of detection assays, said array comprising a plurality of drug metabolizing enzyme nucleotide polymorphism detection assays, one or more of said detection assays being capable of detecting one or more nucleotide polymorphisms designated by n in SEQ ID Nos:1-7669, wherein n represents a base substitution, insertion, or deletion compared to a wild-type sequence.  
      The present invention also provides a composition comprising a detection probe for determining the presence or absence a single nucleotide polymorphism in a gene encoding a drug metabolizing enzyme, said gene comprising a sequence selected from the group consisting of SEQ ID Nos:1-7669.  
      The present invention further provides a method of determining the effectiveness of or side-effect of a drug or treatment protocol, comprising; a) administering a drug or treatment protocol to one or more subjects; b) obtaining nucleic acid from said one or more subjects; c) using a detection assay to detect the presence of at least one polymorphism in said nucleic acid from said one or more of subjects, said at least one polymorphism selected from the group consisting of polymorphisms found in SEQ ID Nos:1-7669; and d) assigning an effectiveness rating, side-effect rating, or score for said drug or treatment protocol based upon a result of one or more said detection assays (See e.g., Toxicology Testing Handbook: Principles, Applications, and Data Interpretation, ed. Jacobson-Kram and Keller, 2001, herein incorporated by reference in its entirety).  
      The present invention also provides a method of prescribing a drug to or treatment protocol for a subject, comprising; providing nucleic acid from said subject; using a detection assay to detect the presence of at least one polymorphism in the nucleic acid, said at least one polymorphism selected from the group consisting of polymorphisms found in SEQ ID Nos:1-7669; and, prescribing said drug or treatment protocol based upon the result of said detection assay.  
      The present invention further provides a method for generating assay data comprising: obtaining a sample from a subject containing nucleic acid; transferring said sample to a laboratory; and receiving data from said laboratory, wherein said data corresponds to the presence of at least one polymorphism in said nucleic acid, said at least one polymorphism selected from the group consisting of polymorphisms found in SEQ ID Nos:1-7669. The present further provides data sets generated by this method.  
      Definitions  
      To facilitate an understanding of the present invention, a number of terms and phrases are defined below:  
      As used herein, the terms “complementary” or “complementarity” are used in reference to polynucleotides (i.e., a sequence of nucleotides such as an oligonucleotide or a target nucleic acid) related by the base-pairing rules. For example, for the sequence “5′-A-G-T-3′,” is complementary to the sequence “3′-T-C-A-5′.” Complementarity may be “partial,” in which only some of the nucleic acids&#39; bases are matched according to the base pairing rules. Or, there may be “complete” or “total” complementarity between the nucleic acids. The degree of complementarity between nucleic acid strands has significant effects on the efficiency and strength of hybridization between nucleic acid strands. This is of particular importance in amplification reactions, as well as detection methods that depend upon binding between nucleic acids. Either term may also be used in reference to individual nucleotides, especially within the context of polynucleotides. For example, a particular nucleotide within an oligonucleotide may be noted for its complementarity, or lack thereof, to a nucleotide within another nucleic acid strand, in contrast or comparison to the complementarity between the rest of the oligonucleotide and the nucleic acid strand. Nucleotide analogs used to form non-standard base pairs, whether with another nucleotide analog (e.g., an IsoC/IsoG base pair), or with a naturally occurring nucleotide (e.g., as described in U.S. Pat. No. 5,912,340, herein incorporated by reference in its entirety) are also considered to be complementary to a base pairing partner within the meaning this definition.  
      The term “homology” and “homologous” refers to a degree of identity. There may be partial homology or complete homology. A partially homologous sequence is one that is less than 100% identical to another sequence.  
      As used herein, the term “hybridization” is used in reference to the pairing of complementary nucleic acids. Hybridization and the strength of hybridization (i.e., the strength of the association between the nucleic acids) is influenced by such factors as the degree of complementary between the nucleic acids, stringency of the conditions involved, and the T m  of the formed hybrid. “Hybridization” methods involve the annealing of one nucleic acid to another, complementary nucleic acid, i.e., a nucleic acid having a complementary nucleotide sequence. The ability of two polymers of nucleic acid containing complementary sequences to find each other and anneal through base pairing interaction is a well-recognized phenomenon. The initial observations of the “hybridization” process by Marmur and Lane, Proc. Natl. Acad. Sci. USA 46:453 (1960) and Doty et al., Proc. Natl. Acad. Sci. USA 46:461 (1960) have been followed by the refinement of this process into an essential tool of modern biology.  
      With regard to complementarity, it is important for some diagnostic applications to determine whether the hybridization represents complete or partial complementarity. For example, where it is desired to detect simply the presence or absence of a foreign DNA sequence, it is only important that the hybridization method ensures hybridization when the relevant sequence is present; conditions can be selected where both partially complementary probes and completely complementary probes will hybridize. Other diagnostic applications, however, may require that the hybridization method distinguish between partial and complete complementarity. It may be of interest to detect genetic polymorphisms. For example, human hemoglobin is composed, in part, of four polypeptide chains. Two of these chains are identical chains of 141 amino acids (alpha chains) and two of these chains are identical chains of 146 amino acids (beta chains). The gene encoding the beta chain is known to exhibit polymorphism. The normal allele encodes a beta chain having glutamic acid at the sixth position. The mutant allele encodes a beta chain having valine at the sixth position. This difference in amino acids has a profound (most profound when the individual is homozygous for the mutant allele) physiological impact known clinically as sickle cell anemia. It is well known that the genetic basis of the amino acid change involves a single base difference between the normal allele DNA sequence and the mutant allele DNA sequence.  
      The complement of a nucleic acid sequence as used herein refers to an oligonucleotide which, when aligned with the nucleic acid sequence such that the 5′ end of one sequence is paired with the 3′ end of the other, is in “antiparallel association.” Certain bases not commonly found in natural nucleic acids may be included in the nucleic acids of the present invention and include, for example, inosine and 7-deazaguanine. Complementarity need not be perfect; stable duplexes may contain mismatched base pairs or unmatched bases. Those skilled in the art of nucleic acid technology can determine duplex stability empirically considering a number of variables including, for example, the length of the oligonucleotide, base composition and sequence of the oligonucleotide, ionic strength and incidence of mismatched base pairs.  
      As used herein, the term “T m ” is used in reference to the “melting temperature.” The melting temperature is the temperature at which a population of double-stranded nucleic acid molecules becomes half dissociated into single strands. Several equations for calculating the T m  of nucleic acids are well known in the art. As indicated by standard references, a simple estimate of the T m  value may be calculated by the equation: T m =81.5+0.41(% G+C), when a nucleic acid is in aqueous solution at 1 M NaCl (see e.g., Anderson and Young, Quantitative Filter Hybridization, in Nucleic Acid Hybridization (1985). Other references (e.g., Allawi, H. T. &amp; SantaLucia, J., Jr. Thermodynamics and NMR of internal G.T mismatches in DNA. Biochemistry 36, 10581-94 (1997) include more sophisticated computations which take structural and environmental, as well as sequence characteristics into account for the calculation of T m .  
      As used herein the term “stringency” is used in reference to the conditions of temperature, ionic strength, and the presence of other compounds, under which nucleic acid hybridizations are conducted. With “high stringency” conditions, nucleic acid base pairing will occur only between nucleic acid fragments that have a high frequency of complementary base sequences. Thus, conditions of “weak” or “low” stringency are often required when it is desired that nucleic acids that are not completely complementary to one another be hybridized or annealed together.  
      “High stringency conditions” when used in reference to nucleic acid hybridization comprise conditions equivalent to binding or hybridization at 42 C in a solution consisting of 5×SSPE (43.8 g/l NaCl, 6.9 g/l NaH 2 PO 4 H 2 O and 1.85 g/l EDTA, pH adjusted to 7.4 with NaOH), 0.5% SDS, 5× Denhardt&#39;s reagent and 100 μg/ml denatured salmon sperm DNA followed by washing in a solution comprising 0.1×SSPE, 1.0% SDS at 42 C when a probe of about 500 nucleotides in length is employed.  
      “Medium stringency conditions” when used in reference to nucleic acid hybridization comprise conditions equivalent to binding or hybridization at 42 C in a solution consisting of 5×SSPE (43.8 g/l NaCl, 6.9 g/l NaH 2 PO 4 H 2 O and 1.85 g/l EDTA, pH adjusted to 7.4 with NaOH), 0.5% SDS, 5× Denhardt&#39;s reagent and 100 μg/ml denatured salmon sperm DNA followed by washing in a solution comprising 1.0×SSPE, 1.0% SDS at 42 C when a probe of about 500 nucleotides in length is employed.  
      “Low stringency conditions” comprise conditions equivalent to binding or hybridization at 42 C in a solution consisting of 5×SSPE (43.8 g/l NaCl, 6.9 g/l NaH 2 PO 4 H 2 O and 1.85 g/l EDTA, pH adjusted to 7.4 with NaOH), 0.1% SDS, 5× Denhardt&#39;s reagent [50× Denhardt&#39;s contains per 500 ml: 5 g Ficoll (Type 400, Pharamcia), 5 g BSA (Fraction V; Sigma)] and 100 g/ml denatured salmon sperm DNA followed by washing in a solution comprising 5×SSPE, 0.1% SDS at 42 C when a probe of about 500 nucleotides in length is employed.  
      The term “gene” refers to a DNA sequence that comprises control and coding sequences necessary for the production of an RNA having a non-coding function (e.g., a ribosomal or transfer RNA), a polypeptide or a precursor. The RNA or polypeptide can be encoded by a full-length coding sequence or by any portion of the coding sequence so long as the desired activity or function is retained.  
      The term “wild-type” refers to a gene or a gene product that has the characteristics of that gene or gene product when isolated from a naturally occurring source. A wild-type gene is that which is most frequently observed in a population and is thus arbitrarily designated the “normal” or “wild-type” form of the gene. In contrast, the term “modified,” “mutant,” or “polymorphic” refers to a gene or gene product that displays modifications in sequence and or functional properties (i.e., altered characteristics) when compared to the wild-type gene or gene product. It is noted that naturally-occurring mutants can be isolated; these are identified by the fact that they have altered characteristics when compared to the wild-type gene or gene product.  
      The term “oligonucleotide” as used herein is defined as a molecule comprising two or more deoxyribonucleotides or ribonucleotides, preferably at least 5 nucleotides, more preferably at least about 10-15 nucleotides and more preferably at least about 15 to 30 nucleotides. The exact size will depend on many factors, which in turn depend on the ultimate function or use of the oligonucleotide. The oligonucleotide may be generated in any manner, including chemical synthesis, DNA replication, reverse transcription, PCR, or a combination thereof.  
      Because mononucleotides are reacted to make oligonucleotides in a manner such that the 5′ phosphate of one mononucleotide pentose ring is attached to the 3′ oxygen of its neighbor in one direction via a phosphodiester linkage, an end of an oligonucleotide is referred to as the “5′ end” if its 5′ phosphate is not linked to the 3′ oxygen of a mononucleotide pentose ring and as the “3′ end” if its 3′ oxygen is not linked to a 5′ phosphate of a subsequent mononucleotide pentose ring. As used herein, a nucleic acid sequence, even if internal to a larger oligonucleotide, also may be said to have 5′ and 3′ ends. A first region along a nucleic acid strand is said to be upstream of another region if the 3′ end of the first region is before the 5′ end of the second region when moving along a strand of nucleic acid in a 5′ to 3′ direction.  
      When two different, non-overlapping oligonucleotides anneal to different regions of the same linear complementary nucleic acid sequence, and the 3′ end of one oligonucleotide points towards the 5′ end of the other, the former may be called the “upstream” oligonucleotide and the latter the “downstream” oligonucleotide. Similarly, when two overlapping oligonucleotides are hybridized to the same linear complementary nucleic acid sequence, with the first oligonucleotide positioned such that its 5′ end is upstream of the 5′ end of the second oligonucleotide, and the 3′ end of the first oligonucleotide is upstream of the 3′ end of the second oligonucleotide, the first oligonucleotide may be called the “upstream” oligonucleotide and the second oligonucleotide may be called the “downstream” oligonucleotide.  
      The term “primer” refers to an oligonucleotide that is capable of acting as a point of initiation of synthesis when placed under conditions in which primer extension is initiated. An oligonucleotide “primer” may occur naturally, as in a purified restriction digest or may be produced synthetically.  
      A primer is selected to be “substantially” complementary to a strand of specific sequence of the template. A primer must be sufficiently complementary to hybridize with a template strand for primer elongation to occur. A primer sequence need not reflect the exact sequence of the template. For example, a non-complementary nucleotide fragment may be attached to the 5′ end of the primer, with the remainder of the primer sequence being substantially complementary to the strand. Non-complementary bases or longer sequences can be interspersed into the primer, provided that the primer sequence has sufficient complementarity with the sequence of the template to hybridize and thereby form a template primer complex for synthesis of the extension product of the primer.  
      The term “label” as used herein refers to any atom or molecule that can be used to provide a detectable (preferably quantifiable) effect, and that can be attached to a nucleic acid or protein. Labels include but are not limited to dyes; radiolabels such as  32 P; binding moieties such as biotin; haptens such as digoxgenin; luminogenic, phosphorescent or fluorogenic moieties; and fluorescent dyes alone or in combination with moieties that can suppress or shift emission spectra by fluorescence resonance energy transfer (FRET). Labels may provide signals detectable by fluorescence, radioactivity, colorimetry, gravimetry, X-ray diffraction or absorption, magnetism, enzymatic activity, and the like. A label may be a charged moiety (positive or negative charge) or alternatively, may be charge neutral. Labels can include or consist of nucleic acid or protein sequence, so long as the sequence comprising the label is detectable.  
      The term “signal” as used herein refers to any detectable effect, such as would be caused or provided by a label or an assay reaction.  
      As used herein, the term “detector” refers to a system or component of a system, e.g., an instrument (e.g. a camera, fluorimeter, charge-coupled device, scintillation counter, etc.) or a reactive medium (X-ray or camera film, pH indicator, etc.), that can convey to a user or to another component of a system (e.g., a computer or controller) the presence of a signal or effect. A detector can be a photometric or spectrophotometric system, which can detect ultraviolet, visible or infrared light, including fluorescence or chemiluminescence; a radiation detection system; a spectroscopic system such as nuclear magnetic resonance spectroscopy, mass spectrometry or surface enhanced Raman spectrometry; a system such as gel or capillary electrophoresis or gel exclusion chromatography; or other detection systems known in the art, or combinations thereof.  
      The term “sequence variation” as used herein refers to differences in nucleic acid sequence between two nucleic acids. For example, a wild-type structural gene and a mutant form of this wild-type structural gene may vary in sequence by the presence of single base substitutions and/or deletions or insertions of one or more nucleotides. These two forms of the structural gene are said to vary in sequence from one another. A second mutant form of the structural gene may exist. This second mutant form is said to vary in sequence from both the wild-type gene and the first mutant form of the gene.  
      The term “nucleotide analog” as used herein refers to modified or non-naturally occurring nucleotides such as 7-deaza purines (i.e., 7-deaza-dATP and 7-deaza-dGTP). Nucleotide analogs include base analogs and comprise modified forms of deoxyribonucleotides as well as ribonucleotides.  
      The term “polymorphism” refers to the coexistence of more than one form of a gene or portion thereof. A portion of a gene of which there are at least two different forms, i.e., two different nucleotide sequences, is referred to as a “polymorphic region of a gene”. A polymorphic region can be a single nucleotide, the identity of which differs in different alleles. A polymorphic region can also be several nucleotides long.  
      A “polymorphic gene” refers to a gene having at least one polymorphic region.  
      The term “polymorphic locus” is a locus present in a population that shows variation between members of the population (e.g., the most common allele has a frequency of less than 0.95). In contrast, a “monomorphic locus” is a genetic locus at little or no variations seen between members of the population (generally taken to be a locus at which the most common allele exceeds a frequency of 0.95 in the gene pool of the population).  
      A “non-human animal” of the invention can include mammals such as rodents, non-human primates, sheep, goats, horses, dogs, cows, chickens, amphibians, reptiles, etc. Preferred non-human animals are selected from the rodent family including rat and mouse, most preferably mouse, though transgenic amphibians, such as members of the  Xenopus  genus, and transgenic chickens can also provide important tools for understanding and identifying drugs that can affect processes, e.g., embryogenesis and tissue formation.  
      The term “operably linked” is intended to mean that the promoter is associated with the nucleic acid in such a manner as to facilitate transcription of the nucleic acid from the promoter.  
      The terms “protein”, “polypeptide” and “peptide” are used interchangeably herein when referring to a gene product.  
      The term “recombinant protein” refers to a polypeptide which is produced by recombinant DNA techniques, wherein generally, DNA encoding the polypeptide is inserted into a suitable expression vector which is in turn used to transform a host cell to produce the heterologous protein.  
      A “regulatory element”, also termed herein “regulatory sequence” is intended to include elements which are capable of modulating transcription from a basic promoter and include elements such as enhancers and silencers. The term “enhancer”, also referred to herein as “enhancer element”, is intended to include regulatory elements capable of increasing, stimulating, or enhancing transcription from a basic promoter. The term “silencer”, also referred to herein as “silencer element” is intended to include regulatory elements capable of decreasing, inhibiting, or repressing transcription from a basic promoter. Regulatory elements are typically present in 5′ flanking regions of genes. However, regulatory elements have also been shown to be present in other regions of a gene, in particular in introns. Regulatory elements may also be present downstream of coding regions. Thus, it is possible that DME genes have regulatory elements located in introns, exons, coding regions, and 3′ flanking sequences. Such regulatory elements are also intended to be encompassed by the present invention and polymorphisms in such elements can be identified by any of the assays that can be used to identify polymorphisms in regulatory elements in 5′ flanking regions of genes.  
      The term “regulatory element” further encompasses “tissue specific” regulatory elements, i.e., regulatory elements that affect expression of a DME gene preferentially in specific cells (e.g., cells of a specific tissue). Gene expression occurs preferentially in a specific cell if expression in this cell type is significantly higher than expression in other cell types. The term “regulatory element” also encompasses non-tissue specific regulatory elements, i.e., regulatory elements that are active in most cell types. Furthermore, a regulatory element can be a constitutive regulatory element, i.e., a regulatory element that constitutively regulates transcription, as opposed to a regulatory element that is inducible, i.e., a regulatory element which is active primarily in response to a stimulus. A stimulus can be, e.g., a molecule, such as a hormone, cytokine, heavy metal, phorbol ester, cyclic AMP (cAMP), or retinoic acid.  
      As used herein, the term “transfection” means the introduction of a nucleic acid, e.g., an expression vector, into a recipient cell by nucleic acid-mediated gene transfer. The term “transduction” is generally used herein when the transfection with a nucleic acid is by viral delivery of the nucleic acid. “Transformation”, as used herein, refers to a process in which a cell&#39;s genotype is changed as a result of the cellular uptake of exogenous DNA or RNA, and, for example, the transformed cell expresses a recombinant form of a polypeptide or, in the case of anti-sense expression from the transferred gene, the expression of a naturally-occurring form of the recombinant protein is disrupted.  
      As used herein, the term “transgene” refers to a nucleic acid sequence that has been introduced into a cell. Daughter cells deriving from a cell in which a transgene has been introduced are also said to contain the transgene (unless it has been deleted). A transgene can encode, e.g., a polypeptide, or an antisense transcript, partly or entirely heterologous, i.e., foreign, to the transgenic animal or cell into which it is introduced, or, is homologous to an endogenous gene of the transgenic animal or cell into which it is introduced, but which is designed to be inserted, or is inserted, into the animal&#39;s genome in such a way as to alter the genome of the cell into which it is inserted (e.g., it is inserted at a location which differs from that of the natural gene or its insertion results in a knockout). Alternatively, a transgene can also be present in an episome. A transgene can include one or more transcriptional regulatory sequence and any other nucleic acid, (e.g. intron), that may be necessary for optimal expression of a selected nucleic acid.  
      A “transgenic animal” refers to any animal, preferably a non-human animal, e.g. a mammal, bird or an amphibian, in which one or more of the cells of the animal contain heterologous nucleic acid introduced by way of human intervention, such as by transgenic techniques well known in the art. The nucleic acid is introduced into the cell, directly or indirectly by introduction into a precursor of the cell, by way of deliberate genetic manipulation, such as by microinjection or by infection with a recombinant virus. The term genetic manipulation does not include classical cross-breeding, or in vitro fertilization, but rather is directed to the introduction of a recombinant DNA molecule. This molecule may be integrated within a chromosome, or it may be extrachromosomally replicating DNA. In the typical transgenic animals described herein, the transgene causes cells to express a recombinant form of one of a protein, e.g. either agonistic or antagonistic forms. However, transgenic animals in which the recombinant gene is silent are also contemplated. Moreover, “transgenic animal” also includes those recombinant animals in which gene disruption of one or more genes is caused by human intervention, including both recombination and antisense techniques.  
      The term “treating” as used herein is intended to encompass curing as well as ameliorating at least one symptom of the condition or disease.  
      The term “sample” in the present specification and claims is used in its broadest sense. On the one hand it is meant to include a biological (e.g., human) specimen. On the other hand, a sample may include a specimen of synthetic origin.  
      Biological samples may be animal, including human, fluid, solid (e.g., stool) or tissue, as well as liquid and solid food and feed products and ingredients such as dairy items, vegetables, meat and meat by-products, and waste. Biological samples may be obtained from all of the various families of domestic animals, as well as feral or wild animals, including, but not limited to, such animals as ungulates, bear, fish, lagamorphs, rodents, etc.  
      The term “source of target nucleic acid” refers to any sample that contains or is suspected to contain nucleic acids (RNA or DNA). Particularly preferred sources of target nucleic acids are biological samples including, but not limited to blood, saliva, cerebral spinal fluid, pleural fluid, milk, lymph, sputum and semen.  
      The term “polymerization means” or “polymerization agent” refers to any agent capable of facilitating the addition of nucleoside triphosphates to an oligonucleotide. Preferred polymerization means comprise DNA and RNA polymerases.  
      The term “ligation means” or “ligation agent” refers to any agent capable of facilitating the ligation (i.e., the formation of a phosphodiester bond between a 3′-OH and a 5′ P located at the termini of two strands of nucleic acid). Preferred ligation means comprise DNA ligases and RNA ligases.  
      The term “reactant” is used herein in its broadest sense. The reactant can comprise, for example, an enzymatic reactant, a chemical reactant or light (e.g., ultraviolet light, particularly short wavelength ultraviolet light is known to break oligonucleotide chains). Any agent capable of reacting with an oligonucleotide to either shorten (i.e., cleave) or elongate the oligonucleotide is encompassed within the term “reactant.” 
      The term “nucleic acid sequence” as used herein refers to an oligonucleotide, nucleotide or polynucleotide, and fragments or portions thereof, and to DNA or RNA of genomic or synthetic origin that may be single or double stranded, and represent the sense or antisense strand. Similarly, “amino acid sequence” as used herein refers to peptide or protein sequence.  
      The term “peptide nucleic acid” (“PNA”) as used herein refers to a molecule comprising bases or base analogs such as would be found in natural nucleic acid, but attached to a peptide backbone rather than the sugar-phosphate backbone typical of nucleic acids. The attachment of the bases to the peptide is such as to allow the bases to base pair with complementary bases of nucleic acid in a manner similar to that of an oligonucleotide. These small molecules, also designated anti gene agents, stop transcript elongation by binding to their complementary strand of nucleic acid (Nielsen, et al. Anticancer Drug Des. 8:53 63 [1993]).  
      As used herein, the terms “purified” or “substantially purified” refer to molecules, either nucleic or amino acid sequences, that are removed from their natural environment, isolated or separated, and are at least 60% free, preferably 75% free, and most preferably 90% free from other components with which they are naturally associated. An “isolated polynucleotide” or “isolated oligonucleotide” is therefore a substantially purified polynucleotide.  
      As used herein, the term “kit” refers to any delivery system for delivering materials. In the context of reaction assays, such delivery systems include systems that allow for the storage, transport, or delivery of reaction reagents (e.g., oligonucleotides, enzymes, etc. in the appropriate containers) and/or supporting materials (e.g., buffers, written instructions for performing the assay etc.) from one location to another. For example, kits include one or more enclosures (e.g., boxes) containing the relevant reaction reagents and/or supporting materials. As used herein, the term “fragmented kit” refers to a delivery systems comprising two or more separate containers that each contain a subportion of the total kit components. The containers may be delivered to the intended recipient together or separately. For example, a first container may contain an enzyme for use in an assay, while a second container contains oligonucleotides. The term “fragmented kit” is intended to encompass kits containing Analyte specific reagents (ASR&#39;s) regulated under section 520(e) of the Federal Food, Drug, and Cosmetic Act, but are not limited thereto. Indeed, any delivery system comprising two or more separate containers that each contains a subportion of the total kit components are included in the term “fragmented kit.” In contrast, a “combined kit” refers to a delivery system containing all of the components of a reaction assay in a single container (e.g., in a single box housing each of the desired components). The term “kit” includes both fragmented and combined kits.  
      As used herein, the term “information” refers to any collection of facts or data. In reference to information stored or processed using a computer system(s), including but not limited to internets, the term refers to any data stored in any format (e.g., analog, digital, optical, etc.). As used herein, the term “information related to a subject” refers to facts or data pertaining to a subject (e.g., a human, plant, or animal). The term “genomic information” refers to information pertaining to a genome including, but not limited to, nucleic acid sequences, genes, allele frequencies, RNA expression levels, protein expression, phenotypes correlating to genotypes, etc. “Allele frequency information” refers to facts or data pertaining allele frequencies, including, but not limited to, allele identities, statistical correlations between the presence of an allele and a characteristic of a subject (e.g., a human subject), the presence or absence of an allele in a individual or population, the percentage likelihood of an allele being present in an individual having one or more particular characteristics, etc.  
      The term “cleavage structure” as used herein, refers to a structure that is formed by the interaction of at least one probe oligonucleotide and a target nucleic acid, forming a structure comprising a duplex, the resulting structure being cleavable by a cleavage agent, including but not limited to an enzyme. The cleavage structure is a substrate for specific cleavage by the cleavage means in contrast to a nucleic acid molecule that is a substrate for non-specific cleavage by agents such as phosphodiesterases that cleave nucleic acid molecules without regard to secondary structure (i.e., no formation of a duplexed structure is required). 
    
    
     DESCRIPTION OF THE DRAWINGS  
       FIG. 1  shows sample embodiments of TAQMAN probes.  
       FIG. 2  represents one embodiment of the TAQMAN PCR method.  
       FIG. 3  shows examples of probes labeled with fluorescent dyes.  
       FIG. 4  shows a sample embodiment of an invasive cleavage structure, e.g., for an INVADER assay.  
       FIG. 5  shows one embodiment of a FRET probe, e.g., for an INVADER assay.  
       FIG. 6  shows one embodiment of an INVADER assay.  
       FIG. 7  shows a diagram of an INVADER assay probe in which the allele does not match the probe.  
       FIG. 8  shows one embodiment of allele identification using a ligation reaction.  
       FIG. 9  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily B member 2 (ABCB2) gene.  
       FIG. 10  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily B member 4 (ABCB4) gene.  
       FIG. 11  shows a drawing of the structure of and SNP position in the microsomal epoxide hydrogenase 1 (EPHX1) gene.  
       FIG. 12  shows a drawing of the structure of and SNP position in the cytoplasmic epoxide hydrogenase 2 (EPHX2) gene.  
       FIG. 13  shows a drawing of the structure of and SNP position in the guanidinoacetate-N-methyltransferase (GAMT) gene.  
       FIG. 14  shows a drawing of the structure of and SNP position in the nicotinamide-N-methyltransferase (NNMT) gene.  
       FIG. 15  shows a drawing of the structure of and SNP position in the phenylethanolamine-N-methyltransferase (PNMT) gene.  
       FIG. 16  shows a drawing of the structure of and SNP position in the phosphatidylethanolamine-N-methyltransferase (PEMT) gene.  
       FIG. 17  shows a drawing of the structure of and SNP position in the glutathione-5-methyltransferase 3 (GSTM3) gene.  
       FIG. 18  shows a drawing of the structure of and SNP position in the aldehyde dehydrogenase 5 (ALDH5) gene.  
       FIG. 19  shows a drawing of the structure of and SNP position in the transglutaminase (TGM1) gene.  
       FIG. 20  shows a drawing of the structure of and SNP position in the gamma glutamyltransferase (GGT1) gene.  
       FIG. 21  shows a drawing of the structure of and SNP position in the NAD(P)H: quinone oxidetransferase (NQ01) gene.  
       FIG. 22  shows a drawing of the structure of and SNP position in the p53-induced gene 3 (PIG3) of a quinone oxide transferase homologue.  
       FIG. 23  shows a drawing of the structure of and SNP position in the NRH: quinone oxide transferase 2 (NQ02) gene.  
       FIG. 24  shows a drawing of the structure of and SNP position in the sulfotransferase 1A1 (SULT1A1/STP1) gene.  
       FIG. 25  shows a drawing of the structure of and SNP position in the sulfotransferase 1A2 (SULT1A2/STP2) gene.  
       FIG. 26  shows a drawing of the structure of and SNP position in the sulfotransferase-related protein 3 (SULTX3) gene.  
       FIG. 27  shows a drawing of the structure of and SNP position in the tyrosyl protein sulfotransferase (TPST1) gene.  
       FIG. 28  shows a drawing of the structure of and SNP position in the tyrosyl protein sulfotransferase (TPST2) gene.  
       FIG. 29  shows a drawing of the structure of and SNP position in the sulfotransferase 1A3 (SULT1A3/STM/HAST) gene.  
       FIG. 30  shows a drawing of the structure of and SNP position in the cerebroside transferase (CST) gene.  
       FIG. 31  shows a drawing of the structure of and SNP position in the sulfotransferase 1C1 (SULT1C1) gene.  
       FIG. 32  shows a drawing of the structure of and SNP position in the sulfotransferase 1C2 (SULT1C2) gene.  
       FIG. 33  shows a drawing of the structure of and SNP position in the thyroid hormone sulfotransferase (ST1B2) gene.  
       FIG. 34  shows a drawing of the structure of and SNP position in the hydrocarbon sulfotransferase 2 (CHST2) gene.  
       FIG. 35  shows a drawing of the structure of and SNP position in the sulfotransferase 2A1 (SULT2A1) gene.  
       FIG. 36  shows a drawing of the structure of and SNP position in the sulfotransferase 2B1 (SULT2B1) gene.  
       FIG. 37  shows a drawing of the structure of and SNP position in the hydrocarbon sulfotransferase 4 (CHST4) gene.  
       FIG. 38  shows a drawing of the structure of and SNP position in the hydrocarbon sulfotransferase 5 (CHST5) gene.  
       FIG. 39  shows a drawing of the structure of and SNP position in the HNK-sulfotransferase (NHK-1ST) gene.  
       FIG. 40  shows a drawing of the structure of and SNP position in the estrogen sulfotransferase (STE) gene.  
       FIG. 41  shows a drawing of the structure of and SNP position in the alcohol dehydrogenase 1 (ADH1) gene.  
       FIG. 42  shows a drawing of the structure of and SNP position in the alcohol dehydrogenase 2 (ADH2) gene.  
       FIG. 43  shows a drawing of the structure of and SNP position in the alcohol dehydrogenase 3 (ADH3) gene.  
       FIG. 44  shows a drawing of the structure of and SNP position in the alcohol dehydrogenase 6 (ADH6) gene.  
       FIG. 45  shows a drawing of the structure of and SNP position in the alcohol dehydrogenase 7 (ADH7) gene.  
       FIG. 46  shows a drawing of the structure of and SNP position in the short-chained alcohol dehydrogenase family (HEP27) gene.  
       FIG. 47  shows a drawing of the structure of and SNP position in the L1 intracellular adhesion molecule (L1 CAM) gene.  
       FIG. 48  shows a drawing of the structure of and SNP position in the arylalkylamine-N-acetyltransferase (AANAT) gene.  
       FIG. 49  shows a drawing of the structure of and SNP position in the N-actyltransferase homologue (ARD1) gene of  Saccharomyces cerevisiae.    
       FIG. 50  shows a drawing of the structure of and SNP position in the N-actyltransferase 1 (NAT1) gene.  
       FIG. 51  shows a drawing of the structure of and SNP position in the N-actyltransferase 2 (NAT2) gene.  
       FIG. 52  shows a drawing of the structure of and SNP position in the granzyme A (GZMA) gene.  
       FIG. 53  shows a drawing of the structure of and SNP position in the granzyme B (GZMB) gene.  
       FIG. 54  shows a drawing of the structure of and SNP position in the esterase D-formylglutathione hydrolase (ESD) gene.  
       FIG. 55  shows a drawing of the structure of and SNP position in the dolichyl-diphosphooligosaccharide-protein glycosyltransferase (DDOST) gene.  
       FIG. 56  shows a drawing of the structure of and SNP position in the microsomal glutathione-5-transferase (MGST1) gene.  
       FIG. 57  shows a drawing of the structure of and SNP position, in the alcohol dehydrogenase 5 (ADH5) gene.  
       FIG. 58  shows a drawing of the structure of and SNP position in the glutathione-5-transferase M1 (GSTM1) gene.  
       FIG. 59  shows a drawing of the structure of and SNP position in the glutathione-5-transferase M2 (GSTM2) gene.  
       FIG. 60  shows a drawing of the structure of and SNP position in the glutathione-5-transferase M4 (GSTM4) gene.  
       FIG. 61  shows a drawing of the structure of and SNP position in the glutathione-5-transferase Z1 (GSTZ1) gene.  
       FIG. 62  shows a drawing of the structure of and SNP position in the glutathione-5-transferase P (GSTZPi) gene.  
       FIG. 63  shows a drawing of the structure of and SNP position in the glutathione-5-transferase q1 (GSTT1) gene.  
       FIG. 64  shows a drawing of the structure of and SNP position in the microsomal glutathione-5-transferase IL1 (MGST1L1) gene.  
       FIG. 65  shows a drawing of the structure of and SNP position in the microsomal glutathione-5-transferase 2 (MGST2) gene.  
       FIG. 66  shows a drawing of the structure of and SNP position in the microsomal glutathione-5-transferase 3 (MGST3) gene.  
       FIG. 67  shows a drawing of the structure of and SNP position in the glutathione-5-transferase A1 (GSTA1) gene.  
       FIG. 68  shows a drawing of the structure of and SNP position in the glutathione-5-transferase A4 (GSTA4) gene.  
       FIG. 69  shows a drawing of the structure of and SNP position in the NADH-ubiquinone oxide reductase 1a subcomplex 1 (NDUFA1) gene.  
       FIG. 70  shows a drawing of the structure of and SNP position in the NADH-ubiquinone oxide reductase 1a subcomplex 2 (NDUFA2) gene.  
       FIG. 71  shows a drawing of the structure of and SNP position in the NADH-ubiquinone oxide reductase 1a subcomplex 3 (NDUFA3) gene.  
       FIG. 72  shows a drawing of the structure of and SNP position in the NADH-ubiquinone oxide reductase 1a subcomplex 5 (NDUFA5) gene.  
       FIG. 73  shows a drawing of the structure of and SNP position in the NADH-ubiquinone oxide reductase 1a subcomplex 6 (NDUFA6) gene.  
       FIG. 74  shows a drawing of the structure of and SNP position in the NADH-ubiquinone oxide reductase 1a subcomplex 7 (NDUFA7) gene.  
       FIG. 75  shows a drawing of the structure of and SNP position in the NADH-ubiquinone oxide reductase 1a subcomplex 8 (NDUFA8) gene.  
       FIG. 76  shows a drawing of the structure of and SNP position in the NADH-ubiquinone oxide reductase 1a/b subcomplex 1 (NDUFAB1) gene.  
       FIG. 77  shows a drawing of the structure of and SNP position in the NADH-ubiquinone oxide reductase 1a subcomplex 9 (NDUFA9) gene.  
       FIG. 78  shows a drawing of the structure of and SNP position in the NADH-ubiquinone oxide reductase Fe—S protein 1 (NDUFS1) gene.  
       FIG. 79  shows a drawing of the structure of and SNP position in the NADH-ubiquinone oxide reductase Fe—S protein 3 (NDUFS3) gene.  
       FIG. 80  shows a drawing of the structure of and SNP position in the NADH-ubiquinone oxide reductase Fe—S protein 4 (NDUFS4) gene.  
       FIG. 81  shows a drawing of the structure of and SNP position in the NADH-ubiquinone oxide reductase Fe—S protein 5 (NDUFS5) gene.  
       FIG. 82  shows a drawing of the structure of and SNP position in the NADH-ubiquinone oxide reductase Fe—S protein 6 (NDUFS6) gene.  
       FIG. 83  shows a drawing of the structure of and SNP position in the NADH-ubiquinone oxide reductase Fe—S protein 8 (NDUFS8) gene.  
       FIG. 84  shows a drawing of the structure of and SNP position in the NADH-ubiquinone oxide reductase 1b subcomplex 3 (NDUFB3) gene.  
       FIG. 85  shows a drawing of the structure of and SNP position in the NADH-ubiquinone oxide reductase 1b subcomplex 5 (NDUFB5) gene.  
       FIG. 86  shows a drawing of the structure of and SNP position in the NADH-ubiquinone oxide reductase 1b subcomplex 7 (NDUFB7) gene.  
       FIG. 87  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily A member 1 (ABCA1) gene.  
       FIG. 88  shows a drawing of the structure of and SNP position in the catechol-0-methyltransferase (COMT) gene.  
       FIG. 89  shows a drawing of the structure of and SNP position in the vitamin-N-transferase (HNMT) gene.  
       FIG. 90  shows a drawing of the structure of and SNP position in the cytochrome P450 subfamily 1 (aromatic compound-induced) polypeptide 1 (CYP1A1) gene.  
       FIG. 91  shows a drawing of the structure of and SNP position in the cytochrome P450 subfamily 1 (aromatic compound-induced) polypeptide 2 (CYP1A2) gene.  
       FIG. 92  shows a drawing of the structure of and SNP position in the cytochrome P450 subfamily 1 (dioxin-induced) polypeptide 1 (CYP1B1) gene.  
       FIG. 93  shows a drawing of the structure of and SNP position in the arylacetamide deactylase (AADAC) gene.  
       FIG. 94  shows a drawing of the structure of and SNP position in the neuropathy target esterase (NTE) gene.  
       FIG. 95  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily C(CFTR/MRP) member 2 (MRP2) gene.  
       FIG. 96  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily B member 1 (ABCB1) gene.  
       FIG. 97  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily B member 3 (ABCB3) gene.  
       FIG. 98  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily B member 7 (ABCB7) gene.  
       FIG. 99  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily B member 8 (ABCB8) gene.  
       FIG. 100  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily B member 9 (ABCB9) gene.  
       FIG. 101  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily B member 10 (ABCB10) gene.  
       FIG. 102  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily B member 11 (ABCB11) gene.  
       FIG. 103  shows a drawing of the structure of and SNP position in the cytochrome P450 subfamily IVB polypeptide 1 (CYP4B1) gene.  
       FIG. 104  shows a drawing of the structure of and SNP position in the cytochrome P450 subfamily XXVIIA polypeptide 1 (CYP27A1) gene.  
       FIG. 105  shows a drawing of the structure of and SNP position in the cytochrome P450 subfamily IVF polypeptide 1 (CYP4F2) gene.  
       FIG. 106  shows a drawing of the structure of and SNP position in the cytochrome P450 subfamily 4F polypeptide 3 (CYP4F3) gene.  
       FIG. 107  shows a drawing of the structure of and SNP position in the cytochrome P450 subfamily 4F polypeptide 8 (CYP4F8) gene.  
       FIG. 108  shows a drawing of the structure of and SNP position in the aldehyde dehydrogenase 1 (ALDH1) gene.  
       FIG. 109  shows a drawing of the structure of and SNP position in the aldehyde dehydrogenase 2 (ALDH2) gene.  
       FIG. 110  shows a drawing of the structure of and SNP position in the aldehyde dehydrogenase 7 (ALDH7) gene.  
       FIG. 111  shows a drawing of the structure of and SNP position in the aldehyde dehydrogenase 8 (ALDH8) gene.  
       FIG. 112  shows a drawing of the structure of and SNP position in the aldehyde dehydrogenase 9 (ALDH9) gene.  
       FIG. 113  shows a drawing of the structure of and SNP position in the aldehyde dehydrogenase 10 (ALDH10) gene.  
       FIG. 114  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily C member 7 (ABCC7) gene.  
       FIG. 115  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily C member 8 (ABCC8) gene.  
       FIG. 116  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily C member 9 (ABCC9) gene.  
       FIG. 117  shows a drawing of the structure of and SNP position in the carboxylesterase 1 (CES1) gene.  
       FIG. 118  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily A member 4 (ABCC4) gene.  
       FIG. 119  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily A member 7 (ABCC7) gene.  
       FIG. 120  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily G member 1 (ABCG1) gene.  
       FIG. 121  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily G member 2 (ABCG2) gene.  
       FIG. 122  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily G member 4 (ABCG4) gene.  
       FIG. 123  shows a drawing of the structure of and SNP position in the ATP-binding cassette subfamily E member 1 (ABCE1) gene.  
       FIG. 124  shows a drawing of the structure of and SNP position in the carbohydrate sulfotransferase 1 (CHST1) gene.  
       FIG. 125  shows a drawing of the structure of and SNP position in the carbohydrate sulfotransferase 3 (CHST3) gene.  
       FIG. 126  shows a drawing of the structure of and SNP position in the NADH: ubiquinone dehydrogenase flavoprotein 1 (NDUFV1) gene.  
       FIG. 127  shows a drawing of the structure of and SNP position in the NADH: ubiquinone dehydrogenase flavoprotein 2 (NDUFV2) gene.  
       FIG. 128  shows a drawing of the structure of and SNP position in the NADH: ubiquinone dehydrogenase flavoprotein 3 (NDUFV3) gene.  
       FIG. 129  shows a drawing of the structure of and SNP position in the NADH: ubiquinone oxide reductase A10 (NDUFA10) gene.  
       FIG. 130  shows a drawing of the structure of and SNP position in the high-mobility group protein 17-like 1 (HMG17L1) gene.  
       FIG. 131  shows a drawing of the structure of and SNP position in the UDP glycoxyl transferase 2 family polypeptide A1 (UGT2A1) gene.  
       FIG. 132  shows a drawing of the structure of and SNP position in the human organic anion transporter polypeptide 1 (hOATP1) gene.  
       FIG. 133  shows a drawing of the structure of and SNP position in the human organic anion transporter polypeptide 2 (hOATP2) gene.  
       FIG. 134  shows a drawing of the structure of and SNP position in the human organic anion transporter polypeptide 8 (hOATP8) gene.  
       FIG. 135  shows a drawing of the structure of and SNP position in the human organic anion transporter 1 (hOAT1) gene.  
       FIG. 136  shows a drawing of the structure of and SNP position in the human organic anion transporter 2 (hOAT2) gene.  
       FIG. 137  shows a drawing of the structure of and SNP position in the human organic anion transporter 3 (hOAT3) gene.  
       FIG. 138  shows a drawing of the structure of and SNP position in the aldehyde dehydrogenase 1 family member A2 (ALDH1A2) gene.  
       FIG. 139  shows a drawing of the structure of and SNP position in the aldehyde dehydrogenase 1 family member A3 (ALDH1A3) gene.  
       FIG. 140  shows a drawing of the structure of and SNP position in the formyltetrahydroforate dehydrogenase (FTHFD/ALDH1L1) gene.  
       FIG. 141  shows a drawing of the structure of and SNP position in the cytochrome P450 subfamily IIIA (aromatic compound-induced) polypeptide 4 (CYP3A4) gene.  
       FIG. 142  shows graph of the results of typing performed on two different groups of subjects using the INVADER assay method.  
       FIG. 143  shows a summary of genetic information.  
       FIG. 144A  shows a structure of ATP-binding cassette subfamily A member 1 (ABCA1) gene and the SNP location therein.  
      Accession No.: AF275948.1 and AL359846.11  
       FIG. 144B  shows a structure of ATP-binding cassette subfamily A member 1 (ABCA1) gene and the SNP location therein. (continuation of  FIG. 144A )  
      Accession No.: AF275948.1 and AL359846.11  
       FIG. 145  shows a structure of ATP-binding cassette subfamily A member 4 (ABCA4) gene and the SNP location therein.  
      Accession No.: NT — 019258.1  
       FIG. 146  shows a structure of ATP-binding cassette subfamily A member 7 (ABCA7) gene and the SNP location therein.  
      Accession No.: NT — 025194.1  
       FIG. 147  shows a structure of ATP-binding cassette subfamily A member 8 (ABCA8) gene and the SNP location therein.  
      Accession No.: AC005922.1 and AC015844.5  
       FIG. 148  shows a structure of ATP-binding cassette subfamily B member 1 (ABCB1) gene and the SNP location therein.  
      Accession No.: AC002457.1 and AC005068.1  
       FIG. 149  shows a structure of ATP-binding cassette subfamily B member 4 (ABCB4) gene and the SNP location therein.  
      Accession No.: AC079591.1, AC079303.3 and AC005045.2  
       FIG. 150  shows a structure of ATP-binding cassette subfamily B member 7 (ABCB7) gene and the SNP location therein.  
      Accession No.: AL360179.3 and AC002417.1  
       FIG. 151  shows a structure of ATP-binding cassette subfamily B member 8 (ABCB8) gene and the SNP location therein.  
      Accession No.: AC010973.4  
       FIG. 152  shows a structure of ATP-binding cassette subfamily B member 9 (ABCB9) gene and the SNP location therein.  
      Accession No.: AC026362.9 and AC073857.10  
       FIG. 153  shows a structure of ATP-binding cassette subfamily B member 10 (ABCB10) gene and the SNP location therein.  
      Accession No.: AL121990.9  
       FIG. 154  shows a structure of ATP-binding cassette subfamily B member 11 (ABCB11) gene and the SNP location therein.  
      Accession No.: AC008177.3 and AC069137.3  
       FIG. 155  shows a structure of ATP-binding cassette subfamily C member 1 (ABCC1) gene and the SNP location therein.  
      Accession No.: AC026452.5 and AC025778.4  
       FIG. 156  shows a structure of ATP-binding cassette subfamily C member 2 (ABCC2) gene and the SNP location therein.  
      Accession No.: AL392107.4  
       FIG. 157  shows a structure of ATP-binding cassette subfamily C member 3 (ABCC3) gene and the SNP location therein.  
      Accession No.: AC004590.1 and AC005921.3  
       FIG. 158A  shows a structure of ATP-binding cassette subfamily C member 4 (ABCC4) gene and the SNP location therein.  
      Accession No.: AL356257.11, AL157818.12 and AL139381.12  
       FIG. 158B  shows a structure of ATP-binding cassette subfamily C member 4 (ABCC4) gene and the SNP location therein. (continuation of  FIG. 158A )  
      Accession No.: AL356257.11, AL157818.12, and AL139381.12  
       FIG. 159  shows a structure of ATP-binding cassette subfamily C member 5 (ABCC5) gene and the SNP location therein.  
      Accession No.: AC068644.5  
       FIG. 160  shows a structure of ATP-binding cassette subfamily C member 7 (ABCC7) gene and the SNP location therein.  
      Accession No.: AC000111.1 and AC000061.1  
       FIG. 161  shows a structure of ATP-binding cassette subfamily C member 8 (ABCC8) gene and the SNP location therein.  
      Accession No.: AC000406.1  
       FIG. 162  shows a structure of ATP-binding cassette subfamily C member 9 (ABCC9) gene and the SNP location therein.  
      Accession No.: AC084806.9 and AC008250.23  
       FIG. 163  shows a structure of ATP-binding cassette subfamily D member 1 (ABCD1) gene and the SNP location therein.  
      Accession No.: U52111.2  
       FIG. 164  shows a structure of ATP-binding cassette subfamily D member 3 (ABCD3) gene and the SNP location therein.  
      Accession No.: NT 019284.3  
       FIG. 165  shows a structure of ATP-binding cassette subfamily D member 4 (ABCD4) gene and the SNP location therein.  
      Accession No.: AC005519.3  
       FIG. 166  shows a structure of ATP-binding cassette subfamily G member 1 (ABCG1) gene and the SNP location therein.  
      Accession No.: AP001746.1  
       FIG. 167  shows a structure of ATP-binding cassette subfamily G member 2 (ABCG2) gene and the SNP location therein.  
      Accession No.: NT — 022959.2  
       FIG. 168  shows a structure of ATP-binding cassette subfamily G member 4 (ABCG4) gene and the SNP location therein.  
      Accession No.: AP001315.3  
       FIG. 169  shows a structure of ATP-binding cassette subfamily G member 5 (ABCG5) gene and the SNP location therein.  
      Accession No.: AC084265.2 and AC011242.8  
       FIG. 170  shows a structure of ATP-binding cassette subfamily G member 8 (ABCG8) gene and the SNP location therein.  
      Accession No.: AC084265.2  
       FIG. 171  shows a structure of ATP-binding cassette subfamily E member 1 (ABCE1) gene and the SNP location therein.  
      Accession No.: NT — 006296.2  
       FIG. 172  shows a structure of ATP-binding cassette subfamily F member 1 (ABCF1) gene and the SNP location therein.  
      Accession No.: NT — 007592.3  
       FIG. 173  shows a structure of organic anion transporter 1 (OAT1) gene and the SNP location therein.  
      Accession No.: AP001858.3, AJ249369.1, and AP000438.4  
       FIG. 174  shows a structure of organic anion transporter 2 (OAT2) gene and the SNP location therein.  
      Accession No.: AC26532.3  
       FIG. 175  shows a structure of organic anion transporter 3 (OAT3) gene and the SNP location therein.  
      Accession No.: AP001858.3  
       FIG. 176  shows a structure of organic anion transporter polypeptide 1 (OATP1) gene and the SNP location therein.  
      Accession No.: AC022224.22  
       FIG. 177  shows a structure of organic anion transporter polypeptide 2 (OATP2) gene and the SNP location therein.  
      Accession No.: NT — 024399.2  
       FIG. 178  shows a structure of organic anion transporter polypeptide 8 (OATP8) gene and the SNP location therein.  
      Accession No.: NT — 024399.2  
       FIG. 179  shows a structure of transporter 1 ATP-binding cassette subfamily B (TAP1) gene and the SNP location therein.  
      Accession No.: X66401.1  
       FIG. 180  shows a structure of transporter 2 ATP-binding cassette subfamily B (TAP2) gene and the SNP location therein.  
      Accession No.: X66401.1  
       FIG. 181  shows a structure of SLC22A4 solute carrier family 22 (organic cation transporter) member 4 (OCTN1) gene and the SNP location therein.  
      Accession No.: AC008599.6  
       FIG. 182  shows a structure of SLC22A5 solute carrier family 22 (organic cation transporter) member 5 (OCTN2) gene and the SNP location therein.  
      Accession No.: AC023861.3  
       FIG. 183  shows a structure of SLC22A1 solute carrier family 22 (organic cation transporter) member 1 (OCT1) gene and the SNP location therein.  
      Accession No.: AL35625.5  
       FIG. 184  shows a structure of SLC22A2 solute carrier family 22 (organic cation transporter) member 2 (OCT2) gene and the SNP location therein.  
      Accession No.: AL162582.18  
       FIG. 185  shows a structure of SLC10A2 solute carrier family 10 (sodium/bile acid cotransporter family) member 2 (NTCP) gene and the SNP location therein.  
      Accession No.: AL157789.6  
       FIG. 186  shows a structure of SLC15A1 solute carrier family 15 (oligopeptide transporter) member 1 (PEPT1) gene and the SNP location therein.  
      Accession No.: AL353574.8 and AL391670.6  
       FIG. 187  shows a structure of microsomal epoxide hydrolase 1 (EPHX1) gene and the SNP location therein.  
      Accession No.: AC058782.8  
       FIG. 188  shows a structure of cytoplasmic epoxide hydrolase (EPHX2) gene and the SNP location therein.  
      Accession No.: AC010856.3  
       FIG. 189  shows a structure of catechol-O-methyl transferase (COMT) gene and the SNP location therein.  
      Accession No.: AC000080.2  
       FIG. 190  shows a structure of guanidinoacetate N-methyl transferase (GAMT) gene and the SNP location therein.  
      Accession No.: NT 000879.1  
       FIG. 191  shows a structure of phenyl ethanolamine N-methyl transferase (PNMT) gene and the SNP location therein.  
      Accession No.: AC040933.3  
       FIG. 192  shows a structure of histamine N-methyl transferase (HNMT) gene and the SNP location therein.  
      Accession No.: AC019304.3  
       FIG. 193  shows a structure of nicotinamide N-methyl transferase (NNMT) gene and the SNP location therein.  
      Accession No.: AC019290.3  
       FIG. 194  shows a structure of phosphatidylethanolamine N-methyl transferase (PEMT) gene and the SNP location therein.  
      Accession No.: AC020558.3  
       FIG. 195  shows a structure of aldehyde dehydrogenase 1 family member A1 (ALDH1A1) gene and the SNP location therein.  
      Accession No.: AC009284.2 and AL162416.3  
       FIG. 196  shows a structure of aldehyde dehydrogenase 1 family member A2 (ALDH1A2) gene and the SNP location therein.  
      Accession No.: AC025431.7 and AC012653.8  
       FIG. 197  shows a structure of aldehyde dehydrogenase 1 family member A3 (ALDH1A3) gene and the SNP location therein.  
      Accession No.: AC015712.7  
       FIG. 198  shows a structure of aldehyde dehydrogenase 1 family member B1 (ALDH1B1) gene and the SNP location therein.  
      Accession No.: AL135785.9  
       FIG. 199A  shows a structure of formyl tetrahydrofolate dehydrogenase (ALDH1L1) gene and the SNP location therein.  
      Accession No.: AC079848.6  
       FIG. 199B  shows a structure of formyl tetrahydrofolate dehydrogenase (ALDH1L1) gene and the SNP location therein. (continuation of  FIG. 199A )  
      Accession No.: AC079848.6  
       FIG. 200  shows a structure of aldehyde dehydrogenase 2 (ALDH2) gene and the SNP location therein.  
      Accession No.: AC002996.1 and AC003029.2  
       FIG. 201  shows a structure of aldehyde dehydrogenase 3 family member A1 (ALDH3A1) gene and the SNP location therein.  
      Accession No.: AC005722.1  
       FIG. 202  shows a structure of aldehyde dehydrogenase 3 family member A2 (ALDH3A2) gene and the SNP location therein.  
      Accession No.: AC005722.1  
       FIG. 203  shows a structure of aldehyde dehydrogenase 3 family member B1 (ALDH3B1) gene and the SNP location therein.  
      Accession No.: AC004923.2  
       FIG. 204  shows a structure of aldehyde dehydrogenase 3 family member B2 (ALDH3B2) gene and the SNP location therein.  
      Accession No.: AC021987.3  
       FIG. 205  shows a structure of aldehyde dehydrogenase 5 family member A1 (ALDH5A1) gene and the SNP location therein.  
      Accession No.: AL031230.1  
       FIG. 206  shows a structure of aldehyde dehydrogenase 6 family member A1 (ALDH6A1) gene and the SNP location therein.  
      Accession No.: AC005484.2  
       FIG. 207  shows a structure of aldehyde dehydrogenase 8 family member A1 (ALDH8A1) gene and the SNP location therein.  
      Accession No.: AL445190.9 and AL021939.1  
       FIG. 208  shows a structure of aldehyde dehydrogenase 9 family member A1 (ALDH9A1) gene and the SNP location therein.  
      Accession No.: AL451074.4  
       FIG. 209  shows a structure of alcohol dehydrogenase 1 (ADH1) gene and the SNP location therein.  
      Accession No.: AP002027.1  
       FIG. 210  shows a structure of alcohol dehydrogenase 2 (ADH2) gene and the SNP location therein.  
      Accession No.: AP002027.1  
       FIG. 211  shows a structure of alcohol dehydrogenase 3 (ADH3) gene and the SNP location therein.  
      Accession No.: AP002027.1  
       FIG. 212  shows a structure of alcohol dehydrogenase 4 (ADH4) gene and the SNP location therein.  
      Accession No.: AP002026.1  
       FIG. 213  shows a structure of alcohol dehydrogenase 5 (ADH5) gene and the SNP location therein.  
      Accession No.: AC019131.4  
       FIG. 214  shows a structure of alcohol dehydrogenase 6 (ADH6) gene and the SNP location therein.  
      Accession No.: AP002026.1  
       FIG. 215  shows a structure of alcohol dehydrogenase 7 (ADH7) gene and the SNP location therein.  
      Accession No.: AC027065.3  
       FIG. 216  shows a structure of short-chain alcohol dehydrogenase family gene (HEP27) and the SNP location therein.  
      Accession No.: AL135999.3  
       FIG. 217  shows a structure of UDP glycosyltransferase 1 family polypeptide A1 (UGT1A1) and the SNP location therein.  
      Accession No.: AC006985.2  
       FIG. 218  shows a structure of UDP glycosyltransferase 2 family polypeptide A1 (UGT2A1) and the SNP location therein.  
      Accession No.: AC011254.3  
       FIG. 219  shows a structure of UDP glycosyltransferase 2 family polypeptide B15 (UGT2B15) and the SNP location therein.  
      Accession No.: AC019173.4  
       FIG. 220  shows a structure of UDP glycosyltransferase 8 (UGT8) and the SNP location therein.  
      Accession No.: U31353.1  
       FIG. 221  shows a structure of glutathione S transferase A1 (GSTA1) gene and the SNP location therein.  
      Accession No.: AC021133.4  
       FIG. 222  shows a structure of glutathione S transferase A4 (GSTA4) gene and the SNP location therein.  
      Accession No.: AC025085.4  
       FIG. 223  shows a structure of glutathione S transferase M1 (GSTM1) gene and the SNP location therein.  
      Accession No.: AC000032.7  
       FIG. 224  shows a structure of glutathione S transferase M2 (GSTM2) gene and the SNP location therein.  
      Accession No.: AC000031.5  
       FIG. 225  shows a structure of glutathione S transferase Z1 (GSTZ1) gene and the SNP location therein.  
      Accession No.: AC007954.7  
       FIG. 226  shows a structure of glutathione S transferase Pi (GSTPi) gene and the SNP location therein.  
      Accession No.: X08058.1 and M24485.1  
       FIG. 227  shows a structure of glutathione S transferase T1 (GSTT1) gene and the SNP location therein.  
      Accession No.: AF240786.1 and AP000351.3  
       FIG. 228  shows a structure of microsomal glutathione S transferase 1 (MGST1) gene and the SNP location therein.  
      Accession No.: AC007528.5  
       FIG. 229  shows a structure of microsomal glutathione S transferase 1-like 1 (MGST1L1) gene and the SNP location therein.  
      Accession No.: AC007936.2  
       FIG. 230  shows a structure of microsomal glutathione S transferase T2 (MGST2) gene and the SNP location therein.  
      Accession No.: AC019049.4  
       FIG. 231  shows a structure of microsomal glutathione S transferase T3 (MGST3) gene and the SNP location therein.  
      Accession No.: AC064827.2  
       FIG. 232  shows a structure of sulfotransferase 1A1 (SULT1A1/STP1) gene and the SNP location therein.  
      Accession No.: U52852.2  
       FIG. 233  shows a structure of sulfotransferase 1A2 (SULT1A2/STP2) gene and the SNP location therein.  
      Accession No.: U33886.1, U34804.1 and AC020765.5  
       FIG. 234  shows a structure of sulfotransferase 1A3 (SULT1A3/STM/HAST) gene and the SNP location therein  
      Accession No.: L34160.1 and AC012645.4  
       FIG. 235  shows a structure of sulfotransferase 1C1 (SULT1C1) gene and the SNP location therein.  
      Accession No.: AC019100.4  
       FIG. 236  shows a structure of sulfotransferase 1C2 (SULT1C2) gene and the SNP location therein.  
      Accession No.: AF186263.1  
       FIG. 237  shows a structure of sulfotransferase 2A1 (SULT2A1) gene and the SNP location therein.  
      Accession No.: AC024582.4, AC008745.5, NT — 011190.1, and AC024582.4  
       FIG. 238  shows a structure of sulfotransferase 2B1 (SULT2B1) gene and the SNP location therein.  
      Accession No.: AC040922.2 and AC008403.6  
       FIG. 239  shows a structure of sulfotransferase-associated protein 3 (SULTX3) gene and the SNP location therein.  
      Accession No.: Z97055.1  
       FIG. 240  shows a structure of tyrosyl protein sulfotransferase 1 (TPST1) gene and the SNP location therein.  
      Accession No.: AC026281.5  
       FIG. 241  shows a structure of tyrosyl protein sulfotransferase 2 (TPST2) gene and the SNP location therein.  
      Accession No.: Z95115.1  
       FIG. 242  shows a structure of cerebroside sulfotransferase (CST) gene and the SNP location therein.  
      Accession No.: AC005006.2  
       FIG. 243  shows a structure of thyroid hormone sulfotransferase (ST1B2) gene and the SNP location therein.  
      Accession No.: AC027059.2  
       FIG. 244  shows a structure of carbohydorate sulfotransferase 1 (CHST1) gene and the SNP location therein.  
      Accession No.: NT 008982.1  
       FIG. 245  shows a structure of carbohydorate sulfotransferase 2 (CHST2) gene and the SNP location therein.  
      Accession No.: AC055737.10  
       FIG. 246  shows a structure of carbohydorate sulfotransferase 3 (CHST3) gene and the SNP location therein.  
      Accession No.: AC073370.3  
       FIG. 247  shows a structure of carbohydorate sulfotransferase 4 (CHST4) gene and the SNP location therein.  
      Accession No.: AC010547.5  
       FIG. 248  shows a structure of carbohydorate sulfotransferase 5 (CHST5) gene and the SNP location therein.  
      Accession No.: AC025287.3  
       FIG. 249  shows a structure of HNK-sulfotransferase (HNK-1ST) gene and the SNP location therein.  
      Accession No.: AC012493.4  
       FIG. 250  shows a structure of estrogen sulfotransferase (STE) gene and the SNP location therein.  
      Accession No.: AC074273.1  
       FIG. 251  shows a structure of NAD (P)H: quinone oxidoreductase 1 (NQO1) gene and the SNP location therein.  
      Accession No.: M81596.1  
       FIG. 252  shows a structure of NRH: quinone oxidoreductase 2 (NQO2) gene and the SNP location therein.  
      Accession No.: AB050248.1  
       FIG. 253  shows a structure of p53-inducible gene 3 (PIG3) in a quinone oxidoreductase homolog and the SNP location therein.  
      Accession No.: AC008073.3  
       FIG. 254  shows a structure of NADH-dehydrogenase(ubiquinone)1α-subcomplex 1 (NDUFA1) gene and the SNP location therein.  
      Accession No.: AC002477.1  
       FIG. 255  shows a structure of NADH-dehydrogenase(ubiquinone)1α-subcomplex 2 (NDUFA2) gene and the SNP location therein.  
      Accession No.: AB054976.1  
       FIG. 256  shows a structure of NADH-dehydrogenase(ubiquinone)1α-subcomplex 3 (NDUFA3) gene and the SNP location therein.  
      Accession No.: AC009968.6  
       FIG. 257  shows a structure of NADH-dehydrogenase(ubiquinone)1α-subcomplex 5 (NDUFA5) gene and the SNP location therein.  
      Accession No.: AC073323.5  
       FIG. 258  shows a structure of NADH-dehydrogenase(ubiquinone)1α-subcomplex 6 (NDUFA6) gene and the SNP location therein.  
      Accession No.: AL021878.1  
       FIG. 259  shows a structure of NADH-dehydrogenase(ubiquinone)1α-subcomplex 7 (NDUFA7) gene and the SNP location therein.  
      Accession No.: AC010323.6  
       FIG. 260  shows a structure of NADH-dehydrogenase(ubiquinone)1α-subcomplex 8 (NDUFA8) gene and the SNP location therein.  
      Accession No.: AL162423.10  
       FIG. 261  shows a structure of NADH-dehydrogenase(ubiquinone)1α-subcomplex 9 (NDUFA9) gene and the SNP location therein.  
      Accession No.: AC005832.1  
       FIG. 262  shows a structure of NADH-dehydrogenase(ubiquinone)1α-subcomplex 10 (NDUFA10) gene and the SNP location therein.  
      Accession No.: AC013469.8  
       FIG. 263  shows a structure of NADH-dehydrogenase(ubiquinone)1α/β-subcomplex 1 (NDUFAB1) gene and the SNP location therein.  
      Accession No.: AC008870.6  
       FIG. 264  shows a structure of NADH-dehydrogenase(ubiquinone)1β-subcomplex 3 (NDLFB3) gene and the SNP location therein.  
      Accession No.: AC007272.3  
       FIG. 265  shows a structure of NADH-dehydrogenase(ubiquinone)1β-subcomplex 5 (NDUFB5) gene and the SNP location therein.  
      Accession No.: AC068361.2  
       FIG. 266  shows a structure of NADH-dehydrogenase(ubiquinone)1β-subcomplex 7 (NDUFB7) gene and the SNP location therein.  
      Accession No.: AC010527.4  
       FIG. 267  shows a structure of NADH-dehydrogenase(ubiquinone)Fe—S protein 1 (NDUFS1) gene and the SNP location therein.  
      Accession No.: AC007383.4  
       FIG. 268  shows a structure of NADH-dehydrogenase(ubiquinone)Fe—S protein 3 (NDUFS3) gene and the SNP location therein.  
      Accession No.: AC067943.4  
       FIG. 269  shows a structure of NADH-dehydrogenase(ubiquinone)Fe—S protein 4 (NDUFS4) gene and the SNP location therein.  
      Accession No.: AC024569.3  
       FIG. 270  shows a structure of NADH-dehydrogenase(ubiquinone)Fe—S protein (NDUFS5) gene and the SNP location therein.  
      Accession No.: AL139015.5  
       FIG. 271  shows a structure of NADH-dehydrogenase(ubiquinone)Fe—S protein 6 (NDUFS6) gene and the SNP location therein.  
      Accession No.: AC026443.2  
       FIG. 272  shows a structure of NADH-dehydrogenase(ubiquinone)Fe—S protein 8 (NDUFS8) gene and the SNP location therein.  
      Accession No.: AC034259.2  
       FIG. 273  shows a structure of NADH-dehydrogenase(ubiquinone)flavoprotein 1 (NDUFV1) gene and the SNP location therein.  
      Accession No.: NT 009304.2  
       FIG. 274  shows a structure of NADH-dehydrogenase(ubiquinone)flavoprotein 2 (NDUFV2) gene and the SNP location therein.  
      Accession No.: NT — 011024.2  
       FIG. 275  shows a structure of NADH-dehydrogenase(ubiquinone)flavoprotein 3 (NDUFV3) gene and the SNP location therein.  
      Accession No.: AP001748.1  
       FIG. 276  shows a structure of gamma-glutamyl transferase 1 (GGT1) gene and the SNP location therein.  
      Accession No.: D87002.1  
       FIG. 277  shows a structure of transglutaminase 1 (TGM1) gene and the SNP location therein.  
      Accession No.: M98447.1  
       FIG. 278  shows a structure of cytochrome P450 subfamily 1 (aromatic compound-inducible) polypeptide 1 (CYP1A1) gene and the SNP location therein.  
      Accession No.: X04300.1 and AC020705.4  
       FIG. 279  shows a structure of cytochrome P450 subfamily 1 (aromatic compound-inducible) polypeptide 2 (CYP1A2) gene and the SNP location therein.  
      Accession No.: AC020705.4  
       FIG. 280  shows a structure of cytochrome P450 subfamily 1 (dioxin-inducible) polypeptide 1 (CYP1B1) gene and the SNP location therein.  
      Accession No.: AC009229.4  
       FIG. 281  shows a structure of cytochrome P450 subfamily 3A (aromatic compound-inducible) polypeptide 4 (CYP3A4) gene and the SNP location therein.  
      Accession No.: AF280107.1  
       FIG. 282  shows a structure of cytochrome P450 subfamily 3A (aromatic compound-inducible) polypeptide 5 (CYP3A5) gene and the SNP location therein.  
      Accession No.: AC005020.5  
       FIG. 283  shows a structure of cytochrome P450 subfamily 3A polypeptide 7 (CYP3A7) gene and the SNP location therein.  
      Accession No.: AF280107.1  
       FIG. 284  shows a structure of cytochrome P450 polypeptide 43 (CYP3A43) gene and the SNP location therein.  
      Accession No.: AC011904.3  
       FIG. 285  shows a structure of cytochrome P450 subfamily IVB polypeptide 1 (CYP4B1) gene and the SNP location therein.  
      Accession No.: AL356793.10  
       FIG. 286  shows a structure of cytochrome P450 subfamily IVF polypeptide 2 (CYP4F2) gene and the SNP location therein.  
      Accession No.: AC005336.1  
       FIG. 287  shows a structure of cytochrome P450 subfamily IVF polypeptide 3 (CYP4F3) gene and the SNP location therein.  
      Accession No.: AD000685.1  
       FIG. 288  shows a structure of cytochrome P450 subfamily IVF polypeptide 8 (CYP4F8) gene and the SNP location therein.  
      Accession No.: AC068845.3  
       FIG. 289  shows a structure of cytochrome P450 subfamily XXVIIA polypeptide 1 (CYP27A1) gene and the SNP location therein.  
      Accession No.: AC009974.7  
       FIG. 290  shows a structure of cytochrome P450 subfamily XXVIIB polypeptide 1 (CYP27B1) gene and the SNP location therein.  
      Accession No.: AC025165.27  
       FIG. 291  shows a structure of allylacetamide deacetylase (AADAC) gene and the SNP location therein.  
      Accession No.: AC068647.4  
       FIG. 292  shows a structure of carboxyl esterase 1 (CES1) gene and the SNP location therein Accession No.: AC007602.4  
       FIG. 293  shows a structure of carboxyl esterase 2 (CES2) gene and the SNP location therein Accession No.: AC027131.4  
       FIG. 294  shows a structure of granzyme A (GZMA) gene and the SNP location therein.  
      Accession No.: AC091977.1  
       FIG. 295  shows a structure of granzyme B (GZMB) gene and the SNP location therein.  
      Accession No.: AL136018.3  
       FIG. 296  shows a structure of esterase D/formylglutathione hydrolase (ESD) gene and the SNP location therein.  
      Accession No.: AL136958.9  
       FIG. 297A  shows a structure of carboxyl ester lipase (bile salt-stimulated lipase) (CEL) gene and the SNP location therein.  
      Accession No.: AL138750.8, AL162417.20 and AF072711.1  
       FIG. 297B  shows a structure of carboxyl ester lipase (bile salt-stimulated lipase) (CEL) gene and the SNP location therein. (continuation of  FIG. 297A ) Accession No.: AL138750, AL162417.20 and AF072711.1  
       FIG. 298  shows a structure of interleukin 17 (cytotoxic T lymphocyte-associated serine esterase 8) (IL17) gene and the SNP location therein.  
      Accession No.: AL355513.11  
       FIG. 299  shows a structure of ubiquitin carboxyl terminal esterase L3 (ubiquitin thiol esterase) (UCHL3) gene and the SNP location therein.  
      Accession No.: AL137244.28  
       FIG. 300  shows a structure of dolichyl-diphosphooligosaccharide-protein glycosyltransferase (DDOST) gene and the SNP location therein.  
      Accession No.: D89060  
       FIG. 301  shows a structure of neuropathy target esterase (NTE) gene and the SNP location therein.  
      Accession No.: AC021153  
       FIG. 302  shows a structure of L1 cell adhesion molecule (L1 CAM) gene and the SNP location therein.  
      Accession No.: U52112  
       FIG. 303  shows a structure of arylalkylamine N-acetyltransferase (AANAT) gene and the SNP location therein.  
      Accession No.: U40391  
       FIG. 304  shows a structure of N-acetyltransferase homolog (ARD1) gene of  Saccharomyces cerevisiae  and the SNP location therein.  
      Accession No.: U52112  
       FIG. 305  shows a structure of N-acetyltransferase (NAT1) gene and the SNP location therein.  
      Accession No.: X17059  
       FIG. 306  shows a structure of N-acetyltransferase 2 (NAT2) gene and the SNP location therein.  
      Accession No.: D10870  
       FIG. 307  shows a structure of ATP-binding cassette subfamily B member 2 (ABCB2) gene and the SNP location therein.  
      Accession No.: X66401  
       FIG. 308  shows a structure of ATP-binding cassette subfamily B member 3 (ABCB3) gene and the SNP location therein.  
      Accession No.: X66401  
       FIG. 309  shows a structure of glutathione S transferase M3 (GSTM3) gene and the SNP location therein.  
      Accession No.: AF043105.1  
       FIG. 310  shows a structure of glutathione S transferase M4 (GSTM4) gene and the SNP location therein.  
      Accession No.: M96233.1  
       FIG. 311  shows a structure of aldehyde dehydrogenase 7 (ALDH7) gene and the SNP location therein.  
      Accession No.: AC004923  
       FIG. 312  shows a structure of high-mobility group protein 17-like 1 (HMG17L1) gene and the SNP location therein.  
      Accession No.: Z97055.1 
    
    
     GENERAL DESCRIPTION OF THE INVENTION  
      The present invention provides a method of analysis of drug metabolizing enzymes by analysis of SNPs associated with their encoding genes. In some embodiments, the method of the present invention can be used in the selection of drugs based on, e.g., particular characteristics of an individual patient or on characteristics of a target disease.  
      In some embodiments, the present invention provides a method for detecting a genetic polymorphism associated with a DME, wherein an oligonucleotide probe and/or oligonucleotide primer is created so as to include the genetic polymorphism site from genetic polymorphism data in a gene for encoding a drug metabolizing enzyme or so as to include the genetic polymorphism site in an amplified fragment when the gene encoding the drug metabolizing enzyme has been amplified, and wherein at least one genetic polymorphism in a gene for encoding the target drug metabolizing enzyme is detected using the oligonucleotide probe and/or oligonucleotide primer thus obtained.  
      The present invention further provides methods for evaluating a drug, wherein the effectiveness and safety of a drug metabolized by the drug metabolizing enzyme are evaluated based on the results obtained by the detection method.  
      In some embodiments, the present invention provides a method for screening a drug, wherein the drug to be used is selected based on the results obtained in the evaluation method. In other embodiments, the present invention provides a method for screening a drug, wherein the genetic polymorphism data associated with the gene encoding a DME in a control subject is compared to the genetic polymorphism data associated with the same gene in a test subject, and wherein a drug to be used is selected from the results of an analysis of the effectiveness and/or safety of the drugs metabolized by the drug metabolizing enzyme.  
      The invention further features predictive medicines, which are based, at least in part, on determination of the identity of DME polymorphic regions that are associated with particular drug responses. For example, information obtained using the diagnostic assays described herein (alone or in conjunction with information on another genetic defect, which contributes to the same disease) is useful for determining if a test subject has an allele of a polymorphic region that is associated with a particular drug response. Knowledge of the DME profile in an individual (the DME genetic profile), alone or in conjunction with information on other genetic defects contributing to the same disease (the genetic profile of the particular disease) allows customization of therapy for a particular disease to the individual&#39;s genetic profile, the goal of “pharmacogenomics.” For example, an individual&#39;s DME genetic profile can enable a doctor: 1) to more effectively prescribe a drug that will address the molecular basis of the disease or condition; and 2) to better determine the appropriate dosage of a particular drug.  
      The ability to target populations expected to show the highest clinical benefit, based on the DME genetic profile, allows: 1) the repositioning of marketed drugs with disappointing market results; 2) the rescue of drug candidates whose clinical development has been discontinued as a result of safety or efficacy limitations, which are patient subgroup-specific; and 3) an accelerated and less costly development for drug candidates and more optimal drug labeling (e.g. since the use of DMEs as markers is useful for optimizing effective dose).  
     DETAILED DESCRIPTION OF THE INVENTION  
      Examples of genetic polymorphism data related to a DME, and useful in the detection, evaluation method and screening methods of the present invention are shown in Table 1.  
                                   TABLE 1                                       SEQ               num-           ID.       GENE   ber   position   SEQ.   No                                                        ABCB2   1   5′flanking − 673   agctaagagtcaaagcaccc G/C ctttttccaccagcctcgcg   1                   ABCB2   2   5′flanking − 646   ccaccagcctcgcgtgcctg T/G tcccttcacggacactctag   2               ABCB2   3   5′flanking − 563   ttgcaagcgctggctgctac A/C ggcgacctccctgcgctccc   3               ABCB2   4   5′flanking − 236   gctttgcgcgcggcgctaac G/T tgtgtagggcagatctgccc   4               ABCB2   5   intron 3 + 408   aaggaaactgaggccaagac C/T ctaaatgctgaaactgcaca   5               ABCB2   6   exon 4 + 153   ccctcaccatggtcaccctg A/G tcaccctgcctctgcttttc   6               ABCB2   7   intron 4 + 289   gtatttctttagcatccaag G/T ggcatagctgtgtctctttc   7               ABCB2   8   intron 4 + 291   atttctttagcatccaaggg C/G catagctgtgtctctttctc   8               ABCB2   9   intron 5 − 63   ttccttcaggttaatgactg C/T ggttctttgtgtcccctcca   9               ABCB2   10   intron 7 − 185   gtctctgcccttgtctttgc C/T gcttcttctatctctactcc   10               ABCB2   11   3′flanking + 71   agcgcacttttcagctgcgg G/A tgtctcctcttttatcatcc   11               ABCB2   12   3′flanking + 129   aactgcatcaccttttccct T/C aagctttttaattcctatga   12               ABCB2   13   3′flanking + 459   cattcagggaggcccaggtc G/A tgtgacgtcgacagttgctg   13               ABCB4   1   exon 3 + 3   aacacccttattttatagat C/T caatgactgagtcaagaatt   14               ABCB4   2   intron 3 + 45   cagcatctctacttatacca T/C gctctgctttaaggttctct   15               ABCB4   3   intron 3 + 498   actcaaataggtggtaggag C/T agagacaattcaatacagac   16               ABCB4   4   intron 3 + 515   gagcagagacaattcaatac A/G gacagaagtcttagatgaga   17               ABCB4   5   intron 6 + 1030   tagttttgccatgtagaatt G/C aaaaagtgatagatggtgtt   18               ABCB4   6   intron 6 + 1437   gttaagcctgcttcaatcaa G/A ttagttatattcttgttcta   19               ABCB4   7   intorn 6 + 2449   ttgacttagcgacactgtta G/A catacttatctttcctgtgt   20               ABCB4   8   intron 7 + 451   ccttgctgcacctgtgctgt A/C taagtttggcttattatagt   21               ABCB4   9   intron 7 + 530   agtagagacaggctggcgat C/G acaccggacagagctaactg   22               ABCB4   10   intron 7 − 152   aacagaatcatgaaattaag T/C tgttaatgatttgaaggcct   23               ABCB4   11   exon 8 + 40   aggataaattgtttatgtcg C/T ctgggtaccatcatggccat   24               ABCB4   12   intron 8 + 130   ctggttgactccagatatca T/C agaaggagttgtaaaattct   25               ABCB4   13   intron 8 + 248   aatacacaggaagcttctaa A/G taaagtaaggaagtcactct   26               ABCB4   14   intron8 + 531   ctaaagagtgaatggattca A/G tacgtcccttggaactcacc   27               ABCB4   15   intron 8 + 4240   ctgaggttccagcttatctc T/A tagagatgtttacttagtct   28               ABCB4   16   intron 8 + 4343   tgttagaagaaaaaaaggtt C/T atattacaagagggtctgac   29               ABCB4   17   intron 8 + 4677   cccaagatatcttcataact G/C tccatagtgcctagggtgcc   30               ABCB4   18   intron 9 + 113   tttacccagattcacctatt A/G ttatcatttttgctcccaaa   31               ABCB4   19   intron 9 + 982   tgtcctatacagtttttgtt T/A taagtttagtaaattgatta   32               ABCB4   20   intron 11 + 457   tccagcttgggtgacagagt A/G agacttcatctcaaaaaaaa   33               ABCB4   21   intron 11 + 1337   tactcttggggagcctatca C/G cagggtgggtcagatatagc   34               ABCB4   22   axon 12 + 3   tgtttcttttctgtccagat A/T ctctcggcatttagtgacaa   35               ABCB4   23   intron 12 + 1288   cagaccacactaaccctcag T/C tggacctcaggatgtcagtg   36               ABCB4   24   intron 13 + 206   tgtggataagaaaatagcat G/A tggttagaccatttgtgaaa   37               ABCB4   25   intron 13 + 988   cagtcggtttggaagcttgc T/C accctttcttcacttcctca   38               ABCB4   28   intron 13 + (1413-1414)   tttatcttcacttatgtttt (T) ctcagttaagttatgctaat   39               ABCB4   26   intron 13 + (1413-1414)   tttatcttcacttatgtttt     ctcagttaagttatgctaat   40               ABCB4   27   intron 13 + 1931   cttgcaaatgttgctcttcc A/G caaaaaaaaaaggaaaggat   41               ABCB4   28   intron 23 + 784   agtatctcctaaactcttgc T/C atgcaggaaaaattatttta   42               ABCB4   29   intron 25 + 158   qaaatattttactgtattaa T/C gtctagaacttaaatataag   43               ABCB4   30   intron 25 + 2920   ctgagtcttcctatacatct T/A ttccattcctcggatgctgt   44               ABCB4   31   intron 29 + 411   cttctcttaccttgaattct A/C ggctctcgaactttgacttt   45               ABCB4   32   intron 32 + 458   agaaaatgaaattgccctac T/C gagctaactctgaaagcaca   46               EPHX1   1   intron 1 + 110   tgcaaaatgtgtcttactag C/T ttctagtgcataaaatattg   47               EPHX1   2   intron 1 + 143   aaatattggtggagctcttc G/A ctgtgctgggccagtcacca   48               EPHX1   3   intron 1 + 1097   aatccagagagggagataga T/G tggaagttcaagggtggaca   49               EPHX1   4   intron 1 + 1717   ttccaagacagagcgagggg T/C gctgctggggcgtggtttgc   50               EPHX1   5   intron 1 + 1772   aactcgatgctttctcctcc G/T tctgggtcctaactgcagtg   51               EPHX1   6   intron 1 + 2054   gaaatgtaacaggcaacact A/G tggacacagaaagtagatta   52               EPHX1   7   intron2 + 1414   atttccaaaatctgtttggg G/T gtaactgaaacacttgggaa   53               EPHX1   8   exon 3 + 174   taccctcacttcaagactaa G/A attgaaggtatgtttgcaaa   54               EPHX1   9   intron 3 + 6583   ctgtcaataccatgaagggg G/C ggcgggggcactaagggtgg   55               EPHX1   10   intron 4 + 34   agaggttccataactgcccc G/A tcctcgccaagggtgggccc   56               EPHX1   11   intron 4 + 63   aagggtgggcccggtgttcc C/T accaggctctccttccggcg   57               EPHX1   12   intron 5 + 154   gcagtgcctgaggcacgttg G/A cttggatcctcctgtctgta   58               EPHX1   13   intron 5 + 276   tgctggaccaagctctggga T/C agccctgagcagaactcccc   59               EPHX1   14   exon 6 + 130   gatgtggagctgctgtaccc C/T gtcaaggagaaggtattcta   60               EPHX1   15   intron 8 + 206   ggtgcctggctcccgggcgg C/A cctcagtaccgctccccagt   61               EPHX1   16   intron 8 + 353   tggccctcccagaaaagaga A/G ggccctcagtgaggggagag   62               EPHX1   17   3′flanking + 708   aggtgcagactcatgcactc A/G gccctgaagaggtgagagag   63               EPHX2   1   5′flanking − (523-522)   aaagtcactggatatgcccc (C) tcccccgccccccaacacgg   64               EPHX2   1   5′flanking − (523-522)   aaagtcactggatatgcccc     tcccccgccccccaacacgg   65               EPHX2   2   5′flanking − 522   aaagtcactggatatgcccc T/C cccccgccccccaacacggt   66               EPHX2   3   5′flanking − 521   aagtcactggatatgcccct C/T ccccgccccccaacacggtc   67               EPHX2   4   5′flanking − 516   actggatatgcccctccccc G/C ccccccaacacggtcttatg   68               EPHX2   5   5′flanking − 515   ctggatatgcccctcccccg C/G cccccaacacggtcttatgt   69               EPHX2   6   intron 1 − 74   tggctgcttctcaatgaata T/C gaacagtgtctgtttccatg   70               EPHX2   7   intron 3 + 72   gagcattaggtcagaatcca T/C tgaagtgagctttgagatca   71               EPHX2   8   intron 4 + 473   gtgtgtctctactttaatct A/G caaaaggtgattgaatggag   72               EPHX2   9   intron 5 + 276   caagagtgggatgttcaagg C/T catcctgacctcacttttga   73               EPHX2   10   intron 8 + 8   tctgctcctcccggtgggtg T/C gctgtcttgcagctgtctta   74               EPHX2   11   intron 9 + 1573   atgtcgtgaagactgatgaa C/T gatggacggctgcactgctc   75               EPHX2   12   intron 10 + 207   gaacaggatggagatgagct T/C gtttatttgtcttttaatga   76               EPHX2   13   intron 12 + 911   tgaagagacctcgacatgtc G/T catcccacatactacaggga   77               EPHX2   14   intron 12 + 2425   atcttctcagctgagcaaac C/T gaggctcagagggcttaacc   78               EPHX2   15   intron 12 + 2460   ttaaccccaactggcccaag G/A ccaggtacatgattgggtca   79               EPHX2   16   intron 12 − 281   aagtcctttcaagagattat T/C ataagtagtaccttctcatt   80               EPHX2   17   intron 12 − 268   agattattataagtagtacc T/G tctcattataggaatattga   81               EPHX2   18   exon 13 + 50   cctgagtcggactttcaaaa G/T cctcttcagagcaagcgatg   82               EPHX2   19   intron 13 + 1739   ttgtcgtaacagggttttca G/T atgagcatatttcctttgta   83               EPNX2   20   exon 14 + 33   atgcataaagtctgtgaagc G/A ggtaagagacatgcttggga   84               EPHX2   21   intron 14 + 314   ggattgagagcttacctcta T/C gggggtcacctcgtgtatgc   85               EPHX2   22   intron 14 + 878   attcccttattccttcacac C/T gtctgtcactcattcattca   86               EPHX2   23   intron 14 + 948   gcacaggctgggtatgaagc T/C ggggctgcatgctcagctac   87               EPHX2   24   intron 15 + 259   agagggttttcactactttt C/T agtcatggctcctcagagaa   88               EPHX2   25   intron 16 + 459   tcctcatttgtcaagcagaa G/C atgagtttccaatctctggg   89               EPHX2   26   intron 16 + 645   gtaagtgaacacactgctac G/A tgccagacttcctgccagac   90               EPHX2   27   intron 16 + 985   gtcattatcatcatatgacc G/A atgaaaatgaccaaactgca   91               EPHX2   28   3′flanking + 12   aggtggccttacacacatct T/C gcatggatggcagcattgtt   92               EPHX2   29   3′flanking + 374   tgttcacggagaatgcacgg C/T atggygatgaaccctttccc   93               EPHX2   30   3′flanking + 544   tayccacctgcctttctccc G/A gcttccctagcagagtttgc   94               GAMT   1   intron 1 + 429   ctcggaaagctgagctcagg G/A agacagctgtccccggggtg   95               GAMT   2   3′flanking + 626   cactgacctccttgccctga G/A agaaggccggctcctgtgct   96               NNMT   1   5′flanking − 228   ataattttcctgacgagctc A/T agtgctccctctggtctaca   97               NNMT   2   intron 1 + 44   ccccactaatgtgagtcata T/C agatggagtctcagggcacg   98               NNMT   3   intron 1 + 149   ggataaaaacgaatattggt A/G tagcgattccacagtttaca   99               NNMT   4   intron 2 + 158   agataggcccatgtgtgtgc G/A tgttagtaaatttgtgtatg   100               NNMT   5   intron 2 + 433   gctgtagccatccaagccta T/C agaacttggctgtgagtgtg   101               NNMT   6   intron 2 − 3064   atcatctgactggtaagttc C/T agttctgtggtaactcaagt   102               NNMT   7   intron 2 − 260   atttcatggagggaagtcca T/C ggtagaagcaggctgctagg   103               NNMT   8   3′flanking + 71   ggctcagtggttggggccca A/G tggttcatctaggacgggac   104               PNMT   1   5′flanking − 390   aagaggtgaatggctgcggg G/A ggctggagaagagagatggg   105               PEMT   1   exon 2 − 4   agctcagcagacctcctggc C/T gtggtgggtagctcctttcc   106               PEMT   2   intron 4 + 39   actgtccagacgggagtatc C/T cactgcttggtgagccccac   107               PEMT   3   intron 4 + 1317   accgtccccagctggcccca G/A cctcctgacatgggcctctg   108               PEMT   4   intron 4 + 1355   ctggagccaggctgcagccg A/C agtgcctggccatcctggcg   109               PEMT   5   intron 4 + 5925   gtccaggcactgtggcccta C/T gtgggagtctccagtctcca   110               PEMT   6   intron 4 + 6028   ggcagtggtccaaggaccag G/C atggactccctcttctcacc   111               PEMT   7   intron 4 + 6078   atctgtaccctcgcggactc C/T acctggcttcgtgccatcac   112               PEMT   8   intron 4 + 6089   cgcggactctacctggcttc A/G tgccatcacccccgccagat   113               PEMT   9   intron 4 + 6379   tcaggtgtcccctccctcat G/A cctcctcaccctgccctctc   114               PEMT   10   intron 4 + 7339   tgtaaggaatcctgccaaga C/T ggcagatgcacacggggtca   115               PEMT   11   intron 4 + 7619   ctcctgcacatgtgctccag A/G gaggaaaggcatttgacagg   116               PEMT   12   intron 4 + 8858   ggcatgtgtgtgtgtgtgta T/G gtgtgtgagtgtgtgcatgt   117               PEMT   13   intron 4 + 9029   tttctggaccagaaagcgtc G/A tcctctgccagggcctcttg   118               PEMT   14   intron 4 + 9056   gccagggcctcttgcacttg C/T gggaaagctgagctgagctg   119               PEMT   15   intron 4 + 9512   ctgagctgggcagcagcatt A/G ctctgtgtgctgctggcact   120               PEMT   16   intron 4 + 9523   agcagcattactctgtgtgc T/C gctggcactggcctggtggg   121               PEMT   17   intron 4 + 9622   gacaaagtgtacaacaaggt G/A tctcgaactgggtcagctca   122               PEMT   18   intron 4 + 10776   ccattcctgggtcttctttg G/A aggctgaatgaaattccatg   123               PEMT   19   intron 4 + 10912   tctgccccactttgctcaga G/C gtgcaacaaggccttcagga   124               PEMT   20   intron 4 + 11590   ggacactggcctgatgcaga G/C gtgtggtctctctcctgcag   125               PEMT   21   intron 4 + 12090   ggccagggcacccctaccag G/C ctgagtcccacctgtccagc   126               PEMT   22   intron 4 + 12263   tacccgccttcccagatgga G/A cgggctgctcatgggactta   127               PEMT   23   intron 4 + 12448   tctggtcccctctcctgctt G/A tagtttcctgggctaaaatc   128               PEMT   24   intron 4 + 12730   tgggaccagtgccgccacca C/T ggcccaaggacctggtgttc   129               PEMT   25   intron 4 + 13240   gggctccaggcacacagcgg T/C cccagtacacctgtcgcttt   130               PEMT   26   intron 4 + 13494   tccgtggaactcagagatgg T/C acctccctgcgaggtggggc   131               PEMT   27   intron 4 + 13817   aactctcccctgctgctgag A/G cagatcttggagcctcggcc   132               PEMT   28   intron 4 + 14773   ccgccctgtgcttcatgccc C/T ctatgcctctcactgcctgg   133               PEMT   29   intron 4 + 14951   gtcctgaggcccctcccacc G/A gagcctggggtgccctcaca   134               PEMT   30   intron 4 + 16896   gctgtgactgtcttggagac T/C gggtcttggcgggcctggtg   135               PEMT   31   intron 4 + 19439   ccaggagcctctgaggcagc G/A ggggcttctcaaccacacac   136               PEMT   32   intron 4 + 19559   attttgtcagcatgtcacgt C/T cctttcataatgaagcaagg   137               PEMT   33   intron 4 + 20051   acagcactgcgggagccacg A/G catctgcagacgcatttgat   138               PEMT   34   intron 4 + 20816   tggactctctggcgtccatc C/T agccacttcagtgcgacgtg   139               PEMT   35   intron 4 + 21196   ggctggctgggccctgggat C/G atcgtgacaggctttagtgg   140               PEMT   36   intron 4 + 21528   acaggtgggagccgaggctc G/T ggaggtgggccgggctgagc   141               PEMT   37   intron 4 + 21596   ccgcttccccgtgctctggc C/T gtagcagaaagtgtcccact   142               PEMT   38   intron 4 + 22672   agcctcccactgccttgtgg C/T tgaggggagggggccgggtc   143               PEMT   39   intron 4 + 22713   tctaacgctgtcttctttgt A/T ctgaaaaccaaacaccttct   144               PEMT   40   intron 4 + 23010   tgccgggcagcggggaggga G/A ggcgagtggttcccccaagt   145               PEMT   41   intron 4 + 23588   gtgcaggcgccctgcatccc C/T gcagccaagttctgggcgga   146               PEMT   42   intron 4 + 23627   gacactgccctgagccagga C/T ggtyaggtgggacgccttcc   147               PEMT   43   intron 4 + 23941   tgaggggttgggactctaca G/A aggagagtggactcacgggg   148               PEMT   44   intron 4 + 24091   gacacctcttcactgtcagc G/T ctgagacacgcccctgccct   149               PEMT   45   intron 4 + 25348   caggccagttggaatcctac G/A tagagtgaaagcatctcagc   150               PEMT   46   intron 4 + 25603   taagcagttaacactgatgc G/A tgatgaaaattccaacagca   151               PEMT   47   intron 4 + 31540   cctccaggtggcaggaacac T/C gtgaggagcatgcaacgtgc   152               PEMT   48   intron 4 + 31637   gtgggctgggacgccaggac G/A gtgaggggcttcaaggtgtg   153               PEMT   49   intron 4 + 31642   ctgggacgccaggacggtga G/A gggcttcaaggtgtgtttgt   154               PEMT   50   intron 4 + 35593   ggaggagctgaaagagctgg G/A gctcgggatcaggtggttca   155               PEMT   51   intron 4 + 35647   actttgaggcaccaccgcac C/A tgtccgtgcgtgagggagac   156               PEMT   52   intron 4 + 35862   tcccagtggtggctctgtcc C/T cgtctcagccgagcactcag   157               PEMT   53   intron 4 + 35882   ccgtctcagccgagcactca T/G cggccagggtggctggactc   158               PEMT   54   intron 4 + 37141   ccacaggccggatgccttga T/C acttctcagctgcagggctg   159               PEMT   55   intron 4 + 38862   tggagagaccacctcagaca C/G caaggacgggcatgccatgg   160               PEMT   56   intron 4 + 38872   acctcagacagcaaggacgg G/T catgccatgggtcccggcag   161               PEMT   57   intron 4 + 39140   atgtctcaaatctccctccc C/T gggaaatctaggcacaggtc   162               PEMT   58   intron 4 + 39635   caggcccaggagcaggtggg G/T cctcctcacaggagcagggc   163               PEMT   59   intron 4 + 39713   actctgagcatgctggctcc C/T tccttctttccagggcagca   164               PEMT   60   intron 4 + 40436   cctggttgtgcttcggaccc G/A gaggcagacagaggaggcct   165               PEMT   61   intron 4 + 47485   acaatgactgttggagccct C/T gagcaggctgtgtcacgtgg   166               PEMT   62   intron 4 + 48131   actgggggatcctgaatccc G/A cctcctgatgccagtggagc   167               PEMT   63   intron 4 + 48558   cacagtgtgaactgttaggc C/G acagccacatcttgccggag   168               PEMT   64   intron 4 + 48702   gagatgggggcggttcggga G/A gcaaaagcaggaaggcagaa   169               PEMT   65   intron 4 + 50302   gcatgtgcatgggcagaggc T/C gttcccatctgagtgggacc   170               PEMT   66   intron 4 + 54102   ggccgcgtgctcctgcagcc A/T tgggctcctctggcagttct   171               PEMT   67   intron 4 + 54220   cccagggacagatcttctcc G/A ccagacgtctctttctgcct   172               PEMT   68   intron 4 + 54371   gcagataatgtgcagctggg G/A tgcatgtggttgttgctccc   173               PEMT   69   exon 5 + 79   tggcctgctactctctaagc G/C tcaccatcctgctcctgaac   174               PEMT   70   intron 5 − 6796   ggaggaagtcagcttcttac A/C gatggtggctcccagctttc   175               PEMT   71   intron 5 − 6636   ttttctcctctcaccttttg T/C gttcagaggcagaggtgtgc   176               PEMT   72   intron 5 − 6448   gttgggccaggctctgacag G/A accctcgggaccagctcctg   177               PEMT   73   intron 5 − 5218   ggagccctggctgaagaagc C/G ttacgaccaaggcctggagg   178               PEMT   74   intron 5 − 4824   ggacaggccgggggttgagc G/A gctgcatgaaggagggaggg   179               PEMT   75   intron 5 − 4249   tcaccagagtgatttcctcg C/A ggcaggtgcctggggtagcc   180               PEMT   76   intron 5 − 4230   gaggcaggtgcctggggtag C/T cactgggcggggtccatgag   181               PEMT   77   intron 5 − 4182   ggagagtaaggggtgggggg G/A cacttaggacagggaagctg   182               PEMT   78   intron 5 − 3369   ccaggtggggccgtgtgcct G/C tggcctggtgtgtggcccag   183               PEMT   79   intron 5 − 2625   cagggaagctgggccctgaa C/T gagctgggcttttgggccac   184               PEMT   80   intron 5 − 1200   attattgtgagcatgggaag A/T gcacatttggtcacacatgt   185               PEMT   81   intron 6 + 606   qcctggctagacgcccacca A/G tgaccctgatgatggcagca   186               PEMT   82   intron 6 + 1229   tttggtccaggaagggggac G/A gcagccaggagcgtctggat   187               PEMT   83   intron 7 + 716   atggagatgtgctcccccgg C/G gggtcagaggacctgcggtc   188               PEMT   84   intron 7 + 1537   ctctgggggacgcataagcc G/A cctccagaggacatcagcca   189               PEMT   85   intron 7 + 1718   gggcttccaggtgtctgagc T/C ccccggcatgtaggacccca   190               PEMT   86   intron 7 + 2695   ggctttgggggaccctggac C/T catttctagaaaaoagcctt   191               PEMT   87   intron 8 + 140   ccagggctcccaggtcagag C/T ggccatggtagcttacaatg   192               PEMT   88   3′flanking + 179   tacttaggaggcgtcagggg C/T tcacctggccatggccatgg   193               PEMT   89   3′flanking + 394   gatgacactgtcattcctaa A/G tgaatggccttgtgctgacc   194               GSTM3   1   5′flanking − 144   ccaacgccggcattagtcgc G/T cctgcgcacggccctgtgga   195               ALDH5   1   5′flanking − 2808   cgttgcactgtaggactctc C/T ccacgtcccctaatcccatc   196               ALDH5   2   5′flanking − 2575   gcagttcccgcggatagaga A/G ggtccggtccttcccgctgt   197               ALDH5   3   5′flanking − 2537   tgtgggtgaactgtaaaaaa C/T tgcctgtattcaggaggata   198               ALDH5   4   5′flanking − 940   cttcaactaatctgggaaca C/T tacactctgtttaattttca   199               ALDH5   5   5′flanking − 785   tgggaaagctgaaaagggat G/T ctgagacctgtggttggggg   200               ALDH5   6   exon 1 + 183   ccgacggtcaaccotaccac T/C ggggaggtcattgggcacgt   201               ALDH5   7   exon 1 + 257   cgtgaaagcagcccgggaag C/T cttccgcctggggtccccat   202               ALDH5   8   exon 1 + 320   gcggggccggctgctgaacc G/T cctggcagacctagtggagc   203               ALDH5   9   exon 1 + 605   acttgccccggcactcgcca C/T aggcaacactgtggttatga   204               ALDH5   10   3′flanking + 1527   aaagtgcaactgtaagaccc G/A tagagaaaactctggttcc   205               TGM1   1   exon 2 + 179   tgccgaaatgcggcagatga C/T gactggggacctgaacc   206               TGM1   2   intron 9 − 611   acttaccactzctgtcctctc C/T tgccaggcctcttcctgtca   207               TGM1   3   intron 9 − 272   ccgcacatctgtaccctgcc C/G ccatcctccagcagagcagc   208               TGM1   4   intron 10 + 54   tcagtcatgggttctctggt C/T ccaacttcaccgctgactga   209               TGM1   5   intron 10 − 51   aggaggccgggagtcaggcc A/G ccctcagaccctctggctca   210               TGM1   6   intron 12 − 47   gggagtccctgggggaagcc T/G caggataaggacatcagaggtg   211               TGM1   7   intron 13 + 72   ggataaggacatcagaggtt G/A gcgctaagccagcagcaggc   212               TGM1   8   intron 14 + 1671   atctcttacccacaccccca C/G catggtggggaggttcctca   213               TGM1   9   intron 14 + 1691   ccatggtggggaggttcctc G/A tcctaagggatccgcagagc   214               TGM1   10   intron 14 − 1634   tccctgcctccctccttcag G/A gagctcagaaacaccttcaa   215               TGM1   11   intron 14 − 1459   ggaaacccctcagaaccagg T/C tccaagccaaatgctttgcc   216               TGM1   12   intron 14 − 801   cagaatacaaaagtgggatg G/C gaggcaaggagtcccgttag   217               TGM1   13   exon 15 + 233   ctcgaggtggagcttagccc T/C gtgccaggagcaatgggact   218               TGM1   14   exon 15 + 369   ggagtcagtcttcacttgca C/A tgggggaacagatgctaata   219               GGT1   1   intron 1 + 85   ttatccagtaaggtggctcc G/A tcacctcitttcctggtggg   220               GGT1   2   exon 3 + 68   gacggccaggtccggatggt G/T gtgggagctgctgggggcac   221               NQO1   1   1 intron 1 80   aggaggttgtaggggcttgg C/A ctgaattttgttccttgact   222               PIG3   1   5′flanking region − 47   gggaaggaggaaaggaaaga G/A ggggagggtggttctgctta   223               PIG3   2   intron 2 243   taacaccggacgcccagcag A/C agtcccagcttcttagaatc   224               PIG3   3   3′flanking region 282   agcaggccccagccctgccc G/A ctactcacctgggccccacc   225               NQO2   1   5′flanking region − 434   tttctgttgcaccacggacc C/G tcattctgtaaccgggatac   226               NQO2   2   5′flanking region − 406   gtaaccgggataccagccag A/G gatggggagcgggaggcgca   227               NQO2   3   5′untranslated region − 102   tcctgcggctcctactgggg A/C gtgcgctggtcggaaggtga   228               NQO2   4   intron 1 1919   tcactcaaatagagctgagt T/C agtcactcagctcttggacc   229               NQO2   5   intron 1 2004   acaaactcacatgccaccag C/G catctgatgtaeacatgtca   230               NQO2   6   intron 1 3391   aaagcagagggctgtgcagg C/T gcccctgcccctaggctagg   231               NQO2   7   intron 1 3456   caaaggcctcatcctcaggg C/A ggccaactcttctgttttag   232               NQO2   8   intron 1 3595   actgcccagctttaggttca T/C tcttgtaagtgttgctggtg   233               NQO2   9   intron 1 3596   ctgcccagctttcggttcat T/C cttgtaagtgttgctggtgt   234               NQO2   10   intron 1 3598   gcccagctttaggttcattc T/C tgtaagtgttgctggtgtca   235               NQO2   11   intron 1 3651   ccctgcgctttgaagggatg A/G atgtgacctctcccacattc   236               NQO2   12   intron 1 6036   tggtgtggcggttcactgat C/T ccccagccttctgctcgatc   237               NQO2   13   intron 2 14   atggcaggtaatgattcact A/G ttgtggagtaagactttttt   238               NQO2   14   intron 2 192   gccacgtggacgtgtataaa C/T tatctggaattatcttgttt   239               NQO2   15   intron 2 635   caccctgtttagcacctagc A/C ccatccctggcctctgccca   240               NQO2   16   intron 2 685   agtagcacccctcccccacc G/A gctgtgacaaaccaaaatgt   241               NQO2   17   exon 3 139   ctgatttgtatgccatgaac T/C ttgagccgagggccacagac   242               NQO2   18   intron 3 36   aatgctctatttataaaaac T/C atctttatgtttrttacttt   243               NQO2   19   intron 3 728   aacgtgggcataaaccacca T/C ctagtgccaaaaagcaggtg   244               NQO2   20   intron 4 1577   tgcctctgcacaccccttcc C/T gacaccagccctttctttac   245               NQO2   21   intron 4 1832   tcggccggccacgtggagcc C/T gctttcctcctcgcacccac   246               NQO2   22   intron 4 2583   tggtgttacgcacagctcct C/T gtcccctccctgcctgccca   247               NQO2   23   exon 5 330   ctgtactggttcagcgtgcc A/G gccatcctgaagggctggat   248               NQO2   24   exon 5 405   atcccaggattctacgattc C/T ggtttgctccaggtatgtgc   249               NQO2   25   intron 5 21   gtatgtgctcttggateagg A/T tcactatggatagttggagg   250               NQO2   26   intron 5 253   atggcaaacaagggagtggg T/C caggtgtcaggtgacggggg   251               NQO2   27   intron 6 2435   ccccccttaaatcetttaac T/C gaatggtatgtaacaggtgt   252               SULT1A1   1   5′flanking region − 1597   gcagagtaaagggactcact C/G aagaagaggaacgtgggggt   253               SULT1A1   2   5′flanking region − 1491   gaggggtatattcatgaaga G/T tccaggaaaaggtaaagatt   254               SULT1A1   3   5′flanking region − 1376   cggtttcatatgttactgat C/T atacaatgagatcctaggtg   255               SULT1A1   4   5′flanking region − 1375   ggtttcatatgttactgatc A/G tacaatgagatcctaggtga   256               SULT1A1   5   5′flanking region − 1370   catatgttactgatcataca A/G tgagatcctaggtgaeacct   257               SULT1A1   6   exon 1B − 65   aaccctgcattccccacaca C/A cacccacaatcagccactgc   258               SULT1A1   7   intron 1B 442   gagccaccctgcctaggcct C/A tgcttttgctgagtcatcag   259               SULT1A1   8   axon 1A − 197   gctgggggtcccagcaggaa A/G tggtgagacaaagggcgctg   260               SULT1A1   9   axon 1A − 159   ctggctggcagggagacagc A/C caggaaggtcctagagcttc   261               SULT1A1   10   axon 1A − 95   gageccttcacacaccctga T/C atctgggccttgcccgacga   262               SULT1A1   11   intron 1A 60   ctggttttcagccccagccc C/T gccactgactggctttgtga   263               SULT1A1   12   intron 1A 69   agccccagccccgccactga C/G tggctttgtgagtgcgggca   264               SULT1A1   13   intron 1A 174   tgtgatggtggtaagggaac G/A ggcctggctctggcccctga   265               SULT1A1   14   intron 6 11   catgaaggaggtgagaccac C/G tgtgaagcttccctccatgt   266               SULT1A1   15   intron 6 17   ggaggtgagaccacctgtga A/T gcttccctccatgtgacacc   267               SULT1A1   16   intron 6 35   gaagcttccctccatgtgac A/T cctgggggccggcacctcac   268               SULT1A1   17   intron 6 71   ctcacagggacccaccaggg T/C cacccagccccctcccttgg   269               SULT1A1   18   intron 6 108   ttggcagcccccacagcagg C/A ccggattccccatcctgcct   270               SULT1A1   19   intron 6 111   gcagcccccacagcaggccc C/A gattccccatcetgccttct   271               SULT1A1   20   intron 6 270   ctccctgccaaagggtgtgc C/T acccagggccacagtcatgg   272               SULT1A1   21   intron 6 488   ttttacttttcctgaatcag C/T aatccgagcctccactgagg   273               SULT1A1   22   intron 6 509   aatccgagcctccactgagg A/C gccctctgctgctcagaacc   274               SULT1A1   23   axon 7 600   ccctctgctgctcagaaccc C/G aaaagggagattcaaaagat   275               SULT1A1   24   axon 7 645   gagtttgtggggcactccct C/A ccagaggagaccgtggactt   276               SULT1A1   25   axon 8 902   gctgtgagaggggctcctgg C/A gtcactgcagagggagtgtg   277               SULT1A2   1   5′flanking region − 547   tgttctttcttggttctatg G/C atccatgctctgctccaccc   278               SULT1A2   2   5′flanking region − 425   tgtgggttgcactgggccag G/A acccctggcaccttcaagac   279               SULT1A2   3   5′flanking region − 358   ctttccagggcctgcctatc C/T cagctttctccttcttgcct   280               SULT1A2   4   5′flanking region − 355   tccagggcctgcctatccca G/T ctttctccttcttgcctggg   281               SULT1A2   5   5′untranslated region − 28   actgcgggcgaggagggcac A/C aggccaggttcccaagagct   282               SULT1A2   6   intron 1A 85   ctgactggccttgtgagtgc G/A ggcaagtcactcagcctccc   283               SULT1A2   7   exon 2 24   gagctgatccaggacatctc T/C cgcccgccacrggagtacgt   284               SULT1A2   8   intron 2 34   gccacccaccctctcccagg T/C ggcagtccccaccttggcca   285               SULT1A2   9   intron 5 77   cagcaaccctgtgcggcac T/C ccctgcccgcttctccagtg   286               SULT1A2   10   intron 8 684   actggggtcccaggggtcga C/C gagctggctctatgggtttt   287               SULT1A2   11   3′untranslated region 895   gctctgagctgtgagagggg T/C tcctggagtcactgcagagg   288               SULT1A2   12   3′flanking region 98   cctccccgctccagctcctc A/T acttgccctgtttggagagg   289               SULT1A2   13   3′flanking region 817   ccactgactcggggcttgcc A/C aggctgccagggctggcaaa   290               SULT1A2   14   3′flanking region 1006   cctctcccctggaggctgct T/C tacccgctgtgggggcgcat   291               SULT1A2   15   3′flanking region 1464   tcccgtagcccaggcaagtt C/T ggtgaccagagagcagcccc   292               SULTX3   1   intron 1 332   cctgcttctccctttacctg G/T ctggctgtgtgaccttggac   293               SULTX3   2   intron 1 1167   taggaatggctaagcgtgtc C/A ttggcttctgtggccactca   294               SULTX3   3   intron 1 2872   cattctcactgatgcagacg G/A aagcttctgggcctgggcgt   295               SULTX3   4   intron 1 6242   cacccttggcttttaccagc A/G tggaaacattttacctgaat   296               SULTX3   5   intron 1 6601   gcgtgggcttctggagggag C/T gagaggagagtggagggccc   297               SULTX3   6   intron 1 6768   agcttgaaatgagccagact C/T tcctgggacctgttgacccc   298               SULTX3   7   intron 1 6905   agtactttgttttatcctcc C/T catcctcacaactttgccat   299               SULTX3   8   intron 1 7464   accaggatcccttgagagac C/A acatgaacacagccaggagc   300               SULTX3   9   intron 1 7833   tgcttcgggctgggcttggc C/A ggggcagctgtgctccaggc   301               SULTX3   10   intron 1 8189   caaactggggcccttaatgc C/T gcacaccagagcctcctttc   302               SULTX3   11   intron 1 8316   ctctcacacaagggcggagc C/C tcttccccttgaggcagagc   303               SULTX3   12   intron 1 8617   agacagaggctggggccaag C/T cagggttgccggagcttcct   304               SULTX3   13   intron 1 8631   gccaagccagggttgccgga C/T cttcctggactggtcaggcc   305               SULTX3   14   intron 1 9493   ttttcctcttagagcttccc C/A tcgtgctctgtgtcgagggc   306               SULTX3   15   intron 1 10306   caggcggggagcctgaatgc C/T gcagtcgtgagggtggccag   307               SULTX3   16   intron 1 11987   tcataaaataatgatatcag T/C acactttttggaaatttgag   308               SULTX3   17   intron 1 13085   ctctgtgcccggtgttgaga C/A aggccatgccctagagtcct   309               SULTX3   18   intron 1 13108   gccatgccctagagtcctgg C/A gagttccaccccagaacagc   310               SULTX3   19   intron 2 700   gaaccatctgggagtcgttc C/T gtactgccgtgccgagggcc   311               SULTX3   20   intron 2 818   agccatagtagctagccagc C/A atcagcgcrgggaggggagc   312               SULTX3   21   intron 2 1677   actccacttcccctgaaccc C/T accccttccttcctcctctg   313               SULTX3   22   intron 4 4954   gcgtgccgaaggcgggaggg C/T tgggatggctcaagacgtga   314               SULTX3   23   intron 5 3632   ccagctgactcccacaccag C/T ggtcagagaacattgtcttt   315               SULTX3   24   intron 5 3662   acattgtcttttaaggtttc C/T gaagtgctgcaataaagaaa   316               SULTX3   25   intron 6 1874   tctgatctcagagagctgac A/C atggaaagaattctaaacga   317               SULTX3   26   intron 6 2133   agaccggtgcctgcagttta T/C cccacagctcagccctccct   318               SULTX3   27   intron 6 2524   ggaagggccagggctgcctg T/C gatgcccagagcagtgcact   319               SULTX3   28   intron 6 2573   agatcatactcgctcctggg A/C tgtttattaaacacctgcca   320               SULTX3   29   3′flanking region 12   gttcccggcgttgcgtcgag C/C gtttctgcttgtgggggtag   321               SULTX3   30   3′flanking region 445   tccaaagcctgtcttcctga T/C ttcctgtggaaggagagtcc   322               TPST1   1   5′flanking region − 298   acccgccaccatgcccagct A/C attttttttgtatttttttt   323               TPST1   2   intron 1 3520   agaaaagcagattaatgtaa C/C agtgacgcttagacaacaag   324               TPST1   3   intron 1 3610   ggcagaaagagaatatagca A/C ctattaaacacaaataaatt   325               TPST1   4   intron 1 20828   tattgctgtccacctggtca A/C tgtgtcctgctgataagtgc   326               TPST1   5   intron 1 − 6761   aatacaatacttattctgta T/C aattctagagggcccagaga   327               TPST1   6   intron 1 − 544   tagaacaagtgaatatttta c/T gttcttagtggtttatggtt   328               TPST1   7   intron 1 − 526   tacgttcttagtggtttatg C/T ttggcagttttcccccaaca   329               TPST1   8   intron 1 − 234   tcaagacatttaataatgca C/T atgtttcagctaaccctttt   330               TPST1   9   intron 1 − 48   ttatagtgggtttaagcatg A/G tttctaaaaaatttaaataa   331               TPST1   10   intron 2 − 18944   aaaacattagaactgggaag C/A ttaaaaaatctttagtcttt   332               TPST1   11   intron 2 − 18687   tatgtgcaccctaataacat A/C tttccttaaaactagtacta   333               TPST1   12   intron 2 − 18501   ttggaaggtaacttaatgta A/C gtgcctgaaaaacagggata   334               TPST1   13   intron 2 − 159   gaatggggatttccctcagt C/C ctgcccactggctgctcttg   335               TPST1   14   intron 2 − 19   acctgttgccttaaactcac C/A cctgctttgtttttccaggt   336               TPST1   15   intron 3 158   tgctggggaagaaagatcag C/C gtctgggacttgttgatttt   337               TPST1   16   intron 3 3779   agcagggcacgtcaccctcc C/T ggcacacccatgtgttcacc   338               TPST1   17   intron 4 292   ttgttattttcattatgaac C/T atgaaatatttcagctgaaa   339               TPST1   18   3′untranslated region 1518   gttgtctgtacatgttctaa T/C gttttgtagaacacgtgtgc   340               TPST1   19   3′flanking region 264   acggtgcttggcctgcatta C/T cattttgtagtgaagtttct   341               TPST2   1   intron 2 578   tcacctatcatcctcactgc C/A aggatgccaggatacctccc   342               TPST2   2   intron 2 789   cttaagccatcgtgcaggtc A/C ttgctgtcttctgctcactt   343               TPST2   3   intron 3 2009   cccaggctggagtgtagtgg T/C gtgatctcggctcactgcaa   344               TPST2   4   intron 3 2017   ggagtgtagtggtgtgatct C/T ggctcactgcaacctccgcc   345               TPST2   5   intron 3 2035   ctcggctcactgcaacctcc C/A cctcccgggttcaagcagtt   346               TPST2   6   intron 4 104   aatgttcagtctctcaattc C/T tggtcatctgatttgttcct   347               TPST2   7   intron 4 379   taaataaataaactattggt C/T cctttcttgtcttataaggt   348               TPST2   8   intron 4 588   tactgcagcctgatacttct C/T ggcttaagccatcctctcac   349               TPST2   9   intron 4 626   caccccaggctcctgagtag c/T taggactgcaggtgcacgcc   350               TPST2   10   intron 4 718   cccaggctggtctagaactc C/C tggccgtaagggatgcccct   351               TPST2   11   intron 4 873   gttgatggccttatttatac C/A tttccattacagcttctagt   352               TPST2   12   intron 4 949   caaatatttgaaaatgggac C/C caggcctgaggaagagcttt   353               TPST2   13   intron 4 1033   taagctcagcatttctgagc C/A tgtgctgattttaggaaata   354               TPST2   14   intron 4 1051   gcgtgtgctgattttaggaa A/C taaacagttatcgtattgaa   355               TPST2   15   intron 4 1356   gattcaacgtacataccagc C/T gacattgacaggtgaatggc   356               TPST2   16   intron 4 1707   gtctccttaaaaggtggctc G/T ctgcccctggcttgccccag   357               TPST2   17   intron 5 215   aagaccagcctgaccaaaac G/A gtgaaaccccgtctctacta   358               TPST2   18   intron 5 341   tgggaggcagaggtcgcagt G/A agctgagatcacgccgttgc   359               TPST2   19   intron 6 31   ggacttcactgggggttccc G/A CtgCttctgggtggccccgg   360               TPST2   20   intron 6 273   gtttgtctgacactggggac A/G gggcaggaagcaccactatg   361               TPST2   21   intron 6 693   aaagggatttttttgaactt G/C gtaattcaaagatttaagat   362               TPST2   22   intron 6 1635   tcctgggtacagagttggcc T/G tgaacaaacatgagtccttc   363               TPST2   23   3′untranslated region 1147   cttccccactttcagatctc C/T gcaaatgacttcattgccaa   364               SULT1A3   1   exon 8 843   cgcttcgatgcggactatgc G/A gagaagatggcaggctgcag   365               CST   1   intron 1b 6302   agagctccccagagaggact A/G tgaggctgcatgatgcatga   366               CST   2   intron 2a 1004   gagtgagacccccatctcta C/T aaaattttttttaaaaagta   367               CST   3   intron 2a 1395   atgcctaagtttacagtagc T/C aggcaggaaaggcacaacca   368               CST   4   intron 1d 473   ccagagcctgaggttggtgc T/A ggggcccctccatggctgcc   369               CST   5   intron 2b 726   ctatctctccagtgcctctc T/C gtccctgtctggaccctgct   370               CST   6   intron 2b 745   ctgtccctgtctggaccctg C/A tggggggccacagagcaggc   371               CST   7   exon 3 85   tcactagtttcctgctgctg G/A tgtactcctatgccgtgccc   372               CST   8   intron 3 308   tcgtctgaggtcaggagttc G/A agaccagcctggccaacatg   373               CST   9   intron 3 853   ttttgtcctataaaatggca G/A tttcatgtggcccaagctga   374               CST   10   exon 4 198   gaggcagtgatccgggccaa C/T ggctcggcgggggagtgcca   375               SULT1C1   1   intron 3 2280   qcaaatttttggtattttta G/T tacagtcagggttttaccat   376               SULT1C1   2   intron 3 3742   gcagatctcactttctggca G/A attccctgaatttgctcccc   377               SULT1C1   3   intron 3 4453   ttcatagggcttttccctca C/T ttgttttgtaattttgtata   378               SULT1C1   4   intron 3 5234   gacaagagactagaggcagg A/G gagctttgcagttcttctaa   379               SULT1C1   5   intron 3 6175   tggctggcaggaaggtgagg G/C agtcctctcttctctggtcc   380               SULT1C1   6   intron 4 205   acatgaaggcaggatccaga T/C tgaatgtttggagggaacta   381               SULT1C1   7   intron 4 408   ggctcacgcctgtaatccca G/C cactttgggaggccgaggcg   382               SULT1C1   8   intron 4 429   cactttgggaggccgaggcg G/C gtggatcacaaagtcaggag   383               SULT1C2   1   5′flanking region − 110   tcctgttaactcacagagaa C/T ggaagggctggaacgggacc   384               SULT1C2   2   exon 1 15   acactaatggccttacacga C/G atggaggattttacatttga   385               SULT1C2   3   intron 1 297   gtagacttgtttatttattc A/C ttcccaatctaggcccttat   386               SULT1C2   4   intron 1 363   gagtgtgtgagctagaaagg T/G gatcctgagtctgatttggg   387               SULT1C2   5   intron 1 2300   gggctactatcagcagccac C/T acctcaggaaggatgacttc   388               SULT1C2   6   intron 2 455   aagacttggaagcaaataga T/G aaaaaaaaaatcgtagaaat   389               SULTlC2   7   intron 4 55   caaaatctccaaacacccta G/A aaggaaagaatcttttcttt   390               SULT1C2   8   intron 4 111   ctgccttctttaatggaaca T/C tctcacttctcttcaggaat   391               SULT1C2   9   intron 5 1657   ctttgtgtttactttgtttt T/C acttggtacaaaagtgttgt   392               SULT1C2   10   intron 5 2082   tctgctcctagagatggagg C/A gtcccacagccacagtgatg   393               SULT1C2   11   intron 6 933   agctactgaacctctcccac A/G taactgtatttcaggggcag   394               ST1B2   1   intron 1 80   acttgtccataaaatoatta C/T cattctaaataaagttaata   395               ST1B2   2   intron 2 − 352   aacatttaaatagtcattta T/C agcaatgcacaggtataata   396               ST1B2   3   intron 2 − 85   attacataatgctcaaaaat G/A tcttgaaaaactggttggca   397               ST1B2   4   intron 4 460   gtacttgacattaaaaaata T/C ctgatgtttatatatccata   398               ST1B2   5   intron 4 470   ttaaaaaatatctgatgttt A/G tatatccataaatagctaat   399               ST1B2   6   intron 4 518   tttaagattgtcctcatatt C/G ttacttcctttggttactaa   400               ST1B2   7   intron 4 616   aatgtttatgaaaatagact T/C ttetctggttttagtggcct   401               ST1B2   8   intron 5 58   ctgcatcatgctgtaaaagg G/A ttgatatttgctttccaact   402               ST1B2   9   exon 6 612   taatagaatccaaaggagga A/C atcaagaagatcattagatt   403               ST1B2   10   intron 6 582   aatacattacttccatttaa G/A tagtctgtttattgtggctt   404               ST1B2   11   intron 6 3130   agatgtaaaaaattattcaa A/T ttttaaaagcctgaaaaatt   405               ST1B2   12   3′untranslated region 907   tttaaagtgtctaaatcaca C/A atctgaagaaataagagatt   406               ST1B2   13   3′flanking region 50   tcagatcccagttttgttcc T/G ttgattctgagtttccaaat   407               ST1B2   14   3′flanking region 328   tttgacccaggacactgtgt T/G ccactgctgtctaccgagtt   408               ST1B2   15   3′flanking region 446   gtagttcagattttggaaat C/A ttttttctatatcataccta   409               CHST2   1   5′flanking region − 260   agccggacagtccgccgggc G/A gtgatccgggggccgctccc   410               CHST2   2   5′flanking region − 56   gcgctggggaccagccgccg C/T gcccgcctcggagtcgcggc   411               CHST2   3   3′flanking region 218   aggagtgaaacacatctttg T/A attctaaaggcagaaaccaa   412               CHST2   4   3′flanking region 383   gcagagaccaatgttttggt G/C ctgaggctggttcagaaaaa   413               CHST2   5   3′flanking region 952   tactgaaacattctgcagaa T/C gttatactatgagaagaaat   414               SULT2A1   1   intron 2 478   ggactgggctctgtacacac T/C tcgtcttactgtgtgtaaat   415               SULT2A1   2   intron 3 382   caaaaccctcttaatattct G/A tttctatctgtctcagaact   416               SULT2A1   3   intron 3 409   tctgtctcagaactgattgc A/G tgactctaggatcgctatat   417               SULT2A1   4   intron 5 249   agctggaaattacaggcaca C/T gccaccacacccagctaatt   418               SULT2A1   5   intron 5 395   aggcatgagccacggcgccc G/A gccaatttatcagctttaat   419               SULT2A1   6   3′flanking region 33   ttccttgttaaaagttacca G/C ggttggccaggcacggtggt   420               SULT2A1   7   3′flanking region 46   gttaccagggttggccaggc A/G cggtggttcatgcctgtaat   421               SULT2A1   8   3′flanking region 199   ttcgccaggcgcattggctc A/G tgtctgtaatccagcactt   422               SULT2B1   1   intron 2 4162   ttctcccctctcctcaccat C/T cgcacacaggtgatctacat   423               SULT2B1   2   intron 3 879   gagggcatccagctctgggg G/A ctggacctgggggtttgtgg   424               SULT2B1   3   intron 4 3882   ttccacgctccttccttggc C/T gagtgccctccctccgctga   425               SULT2B1   4   intron 5 1780   cctgcagaagggggrccctt C/T catgtccaagcagtaatggc   426               SULT2B1   5   intron 5 1814   taatggctgcagcatggagc G/A ttgtgggggcattgagacag   427               SULT2B1   6   exon 6 789   ccctcttctccaggggtctg C/T ggcgactggaagaaccactt   428               CHST4   1   5′flanking region − 1092   atgaagccttgtgccatctc G/A ctgtgtcgtgccagcacctg   429               CHST4   2   5′flanking region − 941   ctgccagagagaaacaggaa G/A ggaggaagagccacacaatt   430               CHST4   3   intron 1 − 150   caggaaatgatttggagaag G/T actggtgccattgttggcac   431               CHST5   1   intron 1 − 144   ggcctCttaggtttcagcca A/C gacaggtgactcttagcacc   432               CHST5   2   intron 2 17   caacgtaagagcgcttctca T/A tgtccagctcctttgtttct   433               CHST5   3   intron 2 139   aatcccagcactttgggagg C/A ggagatgtgcggatggatca   434               CHST5   4   intron 3 1829   gactgtatgtctgctattca T/C ataggaacaaataattcatg   435               CHST5   5   intron 3 2037   aaatgaaaccaacaccaaca C/G tgcagagaagcaaacaaaag   436               CHST5   6   intron 3 2134   aagcagctaaattgtgttcc G/A tacaggtgcaattaggcagg   437               CHST5   7   intron 3 2528   atggtaaagttcgcctgggt G/A cagtatgtcagcatcctgct   438               CHST5   8   intron 3 2674   gcacttatcctagaaaggcc A/G tttctgaagactcagcagga   439               CHST5   9   intron 3 7039   ctggctcccgccggccaccc T/C gggaccgcagccacgtctga   440               CHST5   10   intron 3 7211   gtagccccaggacaccccca T/G cctcaacatcccattctggg   441               CHST5   11   intron 3 7294   ggagcttccagtggcttggt T/C acccccgactcttcgtccat   442               CHST5   12   intron 4 108   gcagggtcctgcactctgca G/A ggggcaatcacaggtgggag   443               CHST5   13   intron 4 402   ageactggaaaaagtacagt T/C gcacttgtagcggaggtggg   444               CHST5   14   intron 4 547   ctcctgtccccgcattgagg C/G gaaggagcagaggtgagatc   445               CHST5   15   intron 4 1142   gccccaggtctcatagctcc C/G cattggcagtgctgggattt   446               CHST5   16   intron 5 1187   cactgggcagtaattggggc A/G tgggatgggcatgagggccc   447               HNK − 1st   1   intron 1 139   gtgttttggcgacttgaaga C/T ctccctagttcgcgggagta   448               HNK − 1st   2   intron 1 1020   acctgagcagaaaattctct T/C cttcgctgaaatgaaaattg   449               HNK − 1st   3   intron 1 1091   aagaatttgtaaacatcaca G/A gcaacttgcagttatattcg   450               HNK − 1st   4   intron 1 1971   ctataactatttcaaacata C/T gaaacaggcataattggatt   451               HNK − 1st   5   intron 1 2096   atttagaatattcatttacc A/C agaaatccaaatataacctg   452               HNK − 1st   6   5′untranslated region − 91   ctatccagtgacaagaggaa C/A caagaacctcagttcagggg   453               HNK − 1st   7   intron 2 − 530   agtgggcggaggcgagaagc G/A tcagtgttcattcctttgct   454               HNK − 1st   8   intron 2 − 466   gctacatcttgtcagccagt C/T agaattttaaacacagccag   455               HNK − 1st   9   intron 2 − 92   acggaaatatttgtgctgat A/T cttactgactgaaatcacct   456               HNK − 1st   10   intron 3 152   catggcctccgttccttcat G/A ttacagaggtgtgaggggag   457               HNK − 1st   11   intron 3 312   cacagtggccttatgccttg C/T agcagggcgcctctcaggct   458               HNK − 1st   12   intron 3 1948   tcctttgatgtatcaagttt T/C gtgctgaatgttttcagtgt   459               HNK − 1st   13   intron 3 2140   ttacacctggagaggagcac C/T gcagcggtccttaatactgc   460               HNK − 1st   14   exon 4 187   agaagcacattcctgaggaa C/T tgaaggtgggcacagccagg   461               HNK − 1st   15   intron 4 581   cctgatcattccctagctgg G/A atgaggggtgcactctggaa   462               HNK − 1st   16   intron 4 615   tctggaaggcctctcacttc G/C taaccccccttctggatcta   463               HNK − 1st   17   intron 5 7   gattgttctaaatggtgtgt G/A tgggtctactgaatgtccac   464               HNK − 1st   18   intron 5 123   acctgaagggactggtggcc G/T tccagacaggcctgtttttg   465               HNK − 1st   19   intron 5 721   ataattatgggctctgctta T/C gaaatttagcttcagacagg   466               HNK − 1st   20   intron 5 867   tgctgcccacagagtcggtg G/A tcactcctggccactgtttg   467               HNK − 1st   21   exon 6 444   ccaggagcattttcttccat T/C gaggagatccccgaaaacgt   468               HNK − 1st   22   intron 6 94   ctgagttctgtacttggcag A/G ttgatcggaggaccacagag   469               HNK − 1st   23   intron 6 247   catgaaggtgacatcatttt G/A ttaatagaaattagcaggca   470               HNK − 1st   24   exon 7 696   aggaggaaccggacagagac C/G cgggggatccagtttgaaga   471               HNK − 1st   25   exon 7 870   gagaccctggaggacgatgc C/T ccatacatcttaaaagaggc   472               HNK − 1st   26   3′untranslated region 1110   tcaaatatctttattagacc T/C ggggctaaccaggtgaagat   473               HNK − 1st   27   3′untranslated region 1178   ccacacccctcctttgagga C/T gcccggggtctcccacaggc   474               HNK − 1st   28   3′untranslated region 1393   ggaagcatcacacagcgtta G/A gagccgtttccttcaggtgt   475               HNK − 1st   29   3′untranslated region 1452   tgaggttctcctggctagtc A/G gggtggcttcacccatcact   476               HNK − 1st   30   3′untranslated region 1540   gcaagggggctgctgaaatc G/C cagagacttttgcagcatca   477               HNK − 1st   31   3′untranslated region 1696   aggtggtgtggtgtccaggg G/A tccatctttccagaatccat   478               HNK − 1st   32   3′untranslated region 1829   aggggaggctttttctacct G/A agaaggggagtgtctttgag   479               HNK − 1st   33   3′untranslated region 2211   tccagcagtgcggcttcctg G/T caacaaggtaggccctggtg   480               HNK − 1st   34   3′untranslated region 2212   ccagcagtgcggcttcctgg C/T aacaaggtaggccctggtgc   481               HNK − 1st   35   3′flanking region 1016   cacacgaaggtgtgcactca C/T ggcctgcagggcacccaggt   482               HNK − 1st   36   3′flanking region 1152   gcatgctttgctcatctgga A/C tctccagaagcagggaacag   483               HNK − 1st   37   3′flanking region 1291   gccgagaccctcagcaggat A/G gtgcagttacagggctgagc   484               STE   1   5′flanking region − 605   caggtttctaaaataataat C/T gaaaggtgagtgatgtttac   485               STE   2   5′flanking region − 536   taaaattttcaggtctgctt A/G agagttaaaggcaaagagtt   486               STE   3   5′flanking region − 231   ccttcttccccaacccctga C/T ggcagacttgggaatttgaa   487               STE   4   5′untranslated region − 64   tgcagcttaagatctgcctt G/A gtatttgaagagatataaac   488               STE   5   intron 1 69   aaatatagaatgaaaattat G/A tattacaaagctcttaaaaa   489               STE   6   intron 1 311   caatgagaaaataaagcaag c/G agggtagaaggaggtagaat   490               STE   7   intron 1 655   tctaagaaagtagggactat G/A agaacccctatgtatctata   491               STE   8   intron 1 671   ctatgagaacccctatgtat C/T tatatccaccatagtattct   492               STE   9   intron 1 772   aaaaggcaggttggaagatg C/A aggaggggagtatgcagaaa   493               STE   10   intron 1 1715   taaccatcttgcttaacctt A/G tcatttttagccaagtcatt   494               STE   11   intron 1 1928   aaatgatacatattcaggaa A/G tcaaaaatctctgacttaga   495               STE   12   intron 1 1953   aaatctctgacttagetacc C/T ggcaataataatcaaatgta   496               STE   13   intron 1 2087   aattttgaaagaaattgaag T/G tctgtggtttttatttatca   497               STE   14   intron 1 2323   taggtatgtaggagggtccc G/C ttatatacatagttgttaat   498               STE   15   intron 2 165   tctattccatgaccacaatt T/G ttacctgtaacttgaatagt   499               STE   16   intron 2 1707   cctaggacccaacatgagac A/G taatataccatcagtaaaat   500               STE   17   intron 3 850   ggtgtccattccctcaagaa T/G ttatactttgtgttacacac   501               STE   18   intron 4 1653   agtaacaggctagtagataa T/C ataaataactgaggccaacg   502               STE   19   intron 4 1899   tacatgaacttagagaatca A/G gtagatcacacacaccaaca   503               STE   20   intron 4 1930   cacaccaacaataaaattac A/G cagaatgataaaagaatttg   504               STE   21   intron 5 666   ttctgatcatgtagtaacaa T/C tataaagaaaataataatgt   505               STE   22   intron 5 982   aggcaaagcagaaccttttg A/C ctcacacaacattatattat   506               STE   23   intron 7 369   agattttattcctctctctt T/C ttgagttgaagaaataagtt   507               STE   24   intron 7 447   cacctttcaagggtaagtgg C/A aaaaaatagaaattcaaata   508               STE   25   intron 7 672   aatcttgctctttgaaccat A/T ctgtcagtgagagtcaggga   509               STE   26   intron 7 856   tgttacagaggacttaaaac A/G gttgtcttgcttgcaaacgg   510               STE   27   3′flanking region 218   cagcctcccaagtagctagg A/G ctacagacatgtgcaaccat   511               ADH1   1   5′flanking region − 55   atcatgtgtggaactggaat C/T gggtgttattcaagcaaaaa   512               ADH1   2   intron 1 268   acatttgcggtaaagcgata A/G tttattccaagctaatcatg   513               ADH1   3   intron 3 442   aaatggaggctacatggcta C/A ggctgaatgagcatgacctt   514               ADH1   4   intron 6 56   tacaacttggaggatgcatt T/G aggctgcagaatatatgttt   515               ADH1   5   intron 8 74   gtctagcagaaaatgaaaag G/A tggaaggatgagaaaaatta   516               ADH2   1   intron 2 340   ctattttttaaagcgtgcat T/C cttacataagacttaaatat   517               ADH2   2   intron 3 91   aaggcaatgagagacgaaag T/G gcttgcacaaggtcaccgcg   518               ADH2   3   intron 3 205   atgtattgtacccttcaacc A/G ttatgtaccgagtatctact   519               ADH2   4   intron 7 108   acaattgacaaggcaagatt T/C tgaaaacaaatcaaaaataa   520               ADH3   1   5′flanking region − 254   tgagagaagagaagcaggaa C/A ttgagagaggaggaagagag   521               ADH3   2   intron 2 355   tatgcattcttctatattat A/G caagacaaaaattttaggat   522               ADH3   3   intron 3 32   acactcagggaacatgcctt G/A gttcaccatcacaagattag   523               ADH3   4   intron 4 6   ctgcttgaaaaatgagtaag C/T ttctgatgctttctttgcac   524               ADH3   5   exon 5 453   agcaccttctcccagtacac A/A gtggtggatgagaatgcagt   525               ADH3   6   exon 6 815   ttcgtttgaagtcatcggtc A/G gcttgacaccatggtatgat   526               ADH6   1   intron 3 249   tgaaactggacttgaaagta C/A aaatgagacaaaaatttatg   527               ADH6   2   intron 6 1072   taacccctatactgtattgc A/A tcactttctaacaggcagct   528               ADH6   3   exon 7 885   gtctgtgtggttgttggggt A/A ttgcctgccagtgttcaact   529               ADH6   4   intron 7 1292   gttgagaaacactgcctagt C/A ccgtctgtggtcctagaatt   530               ADH6   5   intron 7 1616   ctatcacagaataatccgca T/C agaacactaagcagattacg   531               ADH7   1   5′flanking region − 528   tgtgcagacacagaaagttt T/C acttaactttctacacctaa   532               ADH7   2   intron 1 361   tcagtagcatgtgctgcact C/T gctgcagtagttcaatggga   533               ADH7   3   intron 3 183   aacctcaacctttagaaggc A/G aaccttacggtgtttataaa   534               ADH7   4   intron 4 76   tgaattgaattaattaatac G/A tgtatttgatgtatcaaaca   535               ADH7   5   intron 6 615   tggcatagcgtaaagagact T/A ggaaaaatggaataaagcca   536               ADH7   6   intron 8 532   aagtctaaccatatcaccaa T/C ttagtatgccattgtactat   537               ADH7   7   intron 8 651   gctgctatttatttcaagta G/A gccacaaaatttccttattt   538               ADH7   8   intron 8 760   catttttagatgaagaccaa T/G gttgtgaaagcaaataaata   539               ADH7   9   intron 8 1207   tctccacatttggtctagcc T/C acaggatcatcatattatga   540               ADH7   10   intron 8 1691   tccctcatctcattgcccac A/A ctcattgctttaattcagtc   541               ADH7   11   3′untranslated region 1364   atttacattttgtaaggcta T/C aattgtatcttttaagaaaa   542               ADH7   12   3′untranslated region 1498   gatatagtaaatgcatctcc T/C agagtaatattcacttaaca   543               ADH7   13   3′untranslated region 1584   aaacacttgttctgagttaa C/G ttggattacattttgaaatc   544               ADH7   14   3′untranslated region 1818   aatataaacatagagctaga A/G tcatattatcatecttatca   545               ADH7   15   3′flanking region 865   tacatcaaaagaaataaatc C/T aagaaggaataaacacattt   546               HEP27   1   5′flanking region − 191   tcagcactctgtgtctagct A/T aaggtttgtaaatgcaccaa   547               HEP27   2   5′untranslated region − 163   gaacccatcaattccgtaca C/A attttggtgactttgaagag   548               HEP27   3   intron 1 1941   aaatttaccctaaccagcct A/C actctctgccactttctgtt   549               HEP27   4   exon 3 289   ttgtgtgccacgtggggaag A/A ctgaggaccgggagcagctg   550               HEP27   5   intron 4 1070   tgtctcagttcacaggatca T/C gactctttttctcgaaactg   55l               HEP27   6   3′flanking region 362   ggctttgtgtgtgctccatt A/A tctgaactgggcctgctggg   552               L1CAM   1   intron 1 + 767   tttgacttccttacctgggt A/A actgtgtgagtcactctgtt   553               L1CAM   2   intron 1 + 862   gcattgggtcatgtgtatgt A/C tgagtggggctgaatgtaag   554               L1CAM   3   intron 1 + 1332   cagggatgaaggagcagagc C/T gctgagaggccacacaggtg   555               L1CAM   4   intron 4 + 502   tttccctggggttttccctt T/C gcattccstcctccctgagc   556               L1CAM   5   intron 18 + 147   agcgacgttatgaaattccc C/A acacttcacatttctatast   557               L1CAM   6   intron 24 + 221   ctccttagccccccagaggg C/T cccaactttaagagcatact   558               AANAT   1   5′flanking − 542   aggggtgcaggatggggtgt A/T agctggagggcagggggtag   559               AANAT   2   5′flanking − 263   ccccccacataagaggtggg C/A ttgtccaagactccgaggga   560               AANAT   3   intron 3 39   cgcccagctccagggaggcc T/A ctgaagacagaggtcagcca   561               AANAT   4   exon 4 150   cagccggccgtgcgccgggc C/T gcgctcatgtgcgaggacgc   562               ARD1   1   intron 1 + 317   ccgtcggtctgctcggcccc C/A ctccctcggggctgggcagg   563               ARD1   2   intron 6 + 322   gctcctcagcatctgctcac A/A cccgggacccacacctctct   564               ARD1   3   intron 6 + 1055   aaggctccatcctgagacea A/C aagtccagtgtgacctgccc   565               ARD1   4   intron 6 + 1179   aggaggaagacctgtatccc A/A gggacaccctcctccactcc   566               ARD1   5   intron 7 + 159   cctccaggctgctaggcaga C/T ggcctcctctaaagcccagc   567               ARD1   6   intron 7 + 295   tgaccagccctgccacccgc A/T gagccttgggcagaaccctg   568               ARD1   7   intron 7 + 416   actaccatggaggcccccac G/A acagagcgctgccccttgac   569               NAT1   1   3′UTR 215   aataataataataataataa A/T aaatgtattttaaagatggc   570               NAT2   1   exon 2 867   cgtgcccaaacctggtgatg G/A atcccttactatttagaata   571               NAT2   2   3′flank 521   ccatccatactttgccacaa G/A agaaggaacatgagctttat   572               NAT2   3   3′flank 573   gatttgaaatcctgtggaca C/T ggggtgaattacttttaaaa   573               NAT2   4   3′flank 918   attttctgtttgtaaattcc A/G gtatcagggctatagtttaa   574               NAT2   5   3′flank 979   actattctccctcttcgact C/T gtgatgactataataatctt   575               NAT2   6   3′flank 1958   tacctattgaagtaagccta CIT gtcatatccacctatttgtt   576               NAT2   7   3′flank 2034   ccactgattcccagagctag T/G tcattaagaagacagtgcct   577               NAT2   8   3′flank 2201   cagattactggagggctact G/A tttgctcaccaatgcaaatg   578               NAT2   9   3′flank 2818   gggatatttgtctcctttct C/G cccagtgcatgttggaaacc   579               NAT2   10   3′flank 3237   atatatattccaattaaaaa A/Δ caaaataaatttccgaaact   580               NAT2   11   3′flank 3386   caacaaagagattttttaaa G/A ctttttaaaacaccagacag   581               NAT2   12   3′flank 3660   cagcactattcgcaatagca A/G agatgtggaatcaatctaaa   582               NAT2   13   3′flank 3973   agcagaaaaaataaataatg C/T gtactaggcttactacctgc   583               NAT2   14   3′flank 4029   caaaacaaacccccatgaca T/c gagtttatctatataacaaa   584               NAT2   15   3′flank 4118   ataagattaatatctgcata C/A aaatctttgttiacagcttg   585               NAT2   16   3′flank 4146   tgtttacagcttgttatata C/T tgaattatgtctgctccccc   586               NAT2   17   3′flank 4279   ttaatctgataggattggtg G/C ctttataagaaaaagaaaag   587               NAT2   18   3′flank 4323   ttgctctctccccagtgcag T/G taccaaggaaaggccatgtg   588               NAT2   19   3′flank 4446   tcaattggctttatctgcga T/C tctggaatcaggcaatactc   589               NAT2   20   3′flank 4462   gcgattctggaatcaggcaa T/C actccatttcataaaacaga   590               GZMA   1   5′− flanking − 462   cctcagcttgcacttggcct A/G ctaattcttatataatccaa   591               GZMA   2   5′− flanking − 172   agcctgcctgctggcagtga G/C ccatcatccaccattctcac   592               GZMA   3   intron 1 1949   gacataaggttctctctatc A/T gcatgtatggtttgccttgt   593               GZMA   4   intron 2 + 683   gactgcgtgaccaggtggaa C/T tagcctcagcatggaagggt   594               GZMA   5   intron 2 + 1250   gttggtgtagtttatactag G/A ttatgaatgatagccttaat   595               GZMA   6   exon 4 + 105   tgccaagttgcagggtgggg C/G aggactcacaatagtgcatc   596               GZMA   7   intron 4 + 696   atagagccttacctgaagaa A/G ggtgtgcagtatgcatggtt   597               GZMA   8   intron 4 + 1141   ctgttcagggaggatcccgg G/A ttccaacatggttctttatt   598               GZMB   1   5′flanking + 529   gcctccgtctcacaccaaca A/G gcagatttccccaccacggc   599               GZMB   2   intron 3 + 141   gagggaagattgtgcagccc C/T atcactgtgtcggggcccag   600               GZMB   3   3′flanking + 448   ttttcagggcctgtccctcc G/A atgggggcaggcttctccca   601               ESD   1   5′− flanking − 333   gtcttgggacagaggagttg G/A gggagttgaaattaggccct   602               ESD   2   intron 1 603   gtcatttctgatggggtcat C/T agggaaatgggattgagcgc   603               ESD   3   intorn 1 717   tgtgtggtagaagcagcatt C/T taagcactacgtgaattaac   604               ESD   4   intron 1 1864   gctttcatgcaggattgatc G/C tagtgggatgtattaggaag   605               ESD   5   intron 1 2389   ttttgggaacacctgtctag G/A tgttaagagccagtggaata   606               ESD   6   intron 2 21   taaacttgttttattgttta T/C atgttactctgaacattgaa   607               ESD   7   intron 2 588   taaaattagtatctctctct G/A taagttcattatttaagata   608               ESD   8   intron 2 1498   tagaaaaatgtgtatcacac C/T gtaagtgttcagtaatgtta   609               ESD   9   intron 3 92   ctttatctagatattatagt C/A cctcattttacttttaaact   610               ESD   10   intron 3 422   gtaaagagattaaacacaca C/T gcacacatacatatacctat   611               ESD   11   intron 3 581   agaaaacctgagaaatgaca C/T aatttatttaaagccatagt   612               ESD   12   intron 3 2270   gccagtaattacatgtagcc G/A tttacatcaaattagctaar   613               ESD   13   intron 3 2951   taatgaaagtaaatgtttca A/G cttccctaacaaaagttgaa   614               ESD   14   intron 3 3001   aaatgtcagaaattttttgt G/A ccgtcagtcatcaacaagaa   615               ESD   15   intron 3 3096   aaggagcatacagaaaactt G/C ccatgatggggcctttgtgg   616               ESD   16   intron 4 2611   tctaatagtccccagtatta A/G tggtgcacatcttcatgtcc   617               ESD   17   intron 5 390   tcttttttcatctctgttaa C/T atcaaccatacagttaaaca   618               ESD   18   intron 7 107   ttagtattggaactaaactt T/C tctagtgttgagaactttgg   619               ESD   19   intron 8 1090   aaattctaactaattaaagg G/T ttcatcctttagtaactaga   620               ESD   20   intron 8 1651   tataaagttgtggttaatga A/G tatatatgaataagaatatt   621               ESD   21   intron 8 2047   agaaggaaaaaggccatttt G/C ttaagaatccctgagatatg   622               ESD   22   intron 9 − 3490   atagaaggagaggctatact A/G cctccttaagtctcaggacc   623               ESD   23   intron 9 − 2596   actaaggataaaaatatggc A/G tactcagtcacattggaact   624               ESD   24   intron 9 − 666   aggccttaatgacatatttc T/C cctcacataaagatacaaca   625               ESD   25   intron 9 − 660   taatgacatatttcccctca A/C ataaagatacaacatgcttt   626               ESD   26   intron 10 799   tatggtaactgaagaaaatg A/G cattaagttcctaaagttat   627               DDOST   1   intron 2 629   attctgttaagaagttctta T/C attaagaaatattgtctcct   628               DDOST   2   intron 2 3125   gagaatataggagcttctgc G/A tatgcctgaaagtcagtcag   629               DDOST   3   intron 2 3920   attactcatttaatgaataa A/G tggattactgagcactgtct   630               DDOST   4   intron 3 189   actgctgtccaggggtccat C/T tggggctgagcccagctgga   631               DDOST   5   intron 6 185   ctgtcctcttgttcgggagg C/T gtggcagcttttcccttact   632               DDOST   6   exon 8 37   aactatgaactagctgtggc C/T ctctcccgctgggtgttcaa   633               DDOST   7   intron 9 37   tcctgcccaagaatgctgcc A/Δ aaaaacggccccaggcctca   634               MGST1   1   5′flanking − 5   tctggaccctgaacaggagg G/C gacatcgtgacaaaagcaaat   635               MGST1   2   intron 1A + 330   atcagcaggcgatggttact C/G tgggcgggtaaatcaggtga   636               MGST1   3   intron 1C + 1428   gtaaagggaaagggcgttcc T/A caactgagaagtgaagattc   637               MGST1   4   repeat   attatttgctctacctcagg G/A tttttcgggtcaagcgagat   638               MGST1   5   intron 1C + 2914   ctcatcaggtgtgtgtcaga G/T ggcttggtgctggccagtct   639               MGST1   6   intron 1C + 4274   attgtaatagattaacaaag G/T tgatgaaagtagtgtacata   640               MGST1   7   intron 1C + 4276   tgtaatagattaacaaagtt T/G atgaaagtagtgtacataat   641               MGST1   8   intron 1C + 4306   gtgtacataatgtacatagt A/G tagttgaacacatagcaagc   642               MGST1   9   intron 1C + 4406   gatggctatatgaccaataa T/A gatacatataaatgtataga   643               MGST1   10   intron 1C + 4464   agaaagattgcagctgatag A/G tgtcaggctaataaggacac   644               NGST1   11   intron 1C + 4683   aatggcagaggactggaaat G/T tacattttaagctttaccct   645               MGST1   12   intron 1C + 4767   gccttcctcttcagcacatt C/T ccaattatacttccaattcc   646               MGST1   13   repeat   atttcaattttttttttgg G/A gggggagacagagtctcact   647               MGST1   14   repeat   aattacctcccaaaggcctc A/T tatcccagatactatcacat   648               MGST1   15   intron 2 + 2379   ttctcaaatttcattataca C/G tattcttcaacccaaagttt   649               MGST1   16   intron 2 + 2767   tttaactatagatgccttct T/G ctcctcttgtgtttgattta   650               MGST1   17   repeat   tcactgagcctcaacctct C/T gggctcaggtgatcctccaa   651               MGST1   18   repeat   aaaaaaatttgtagatatgg T/G tactccctatgttgcccagg   652               MGST1   19   repeat   ctccctatgttgcccaggct A/G atcttgaattcttgggctca   653               MGST1   20   intron 3 + 1495   atcagacaatggccttcagc G/A tcctctctttgcagaatatg   654               MGST1   21   intron 3 + 2528   ttttggagacacttttcaga G/C agagcgtttccagcatcttc   655               MGST1   22   intron 3 + 2567   tccctttccatttttaagtt A/Δ gacttttttttttcacctct   656               MGST1   23   intron 3 + 2731   atacacatatggaacaatta A/C ctaaaaacttaaggtaatat   657               MGST1   24   intron 3 + 3288   gggtttatagtgttcccccc C/Δ tccccgcccccaaaagaccc   658               MGST1   25   intron 3 + 4288   ccattctatttgtcaactgc G/A taacacaggcgtagaagtgg   659               MGST1   26   intron 3 + 4378   aaatgtctgtccttttggca T/C gttgtgaaggagaacactaa   660               MGST1   27   intron 3 + 4429   attggaggtgacgatatctc T/C gtgatgctgggggagaaatc   661               MGST1   28   intron 3 + 4817   attgctatagaagagagtaa C/T gcaaagcagaaatagttttc   662               MGST1   29   intron 3 + 6077   tttgaaattagtgtctttaa T/C agttatctttttccacagag   663               MGST1   30   exon 4 + 304 (3′UTR)   aagaattctgtacttccaat T/G tataatgaatactttcttag   664               MGST1   31   3′flanking + 1581   tctgtgtgcatgaacatgca C/T gcgtgcacgcgcacacacac   665               MGST1   32   3′flanking + 1729   tatgtggagcaatttgaaaa A/T agtatattctaagccattaa   666               MGST1   33   3′flanking + 3407   ggatcactgctaaagatccc G/A gagtcactccatgtcccagt   667               MGST1   34   intron 1B + 36   ggagaaggggaccgcatgca G/A agggtggcaggcagggaggg   668               MGST1   35   3′flanking + 25   gggtaaacccattttgaata T/C tagcattgccaatatcctgt   669               MGST1   36   exon 4 + 266 (3′UTR)   aaagaaaatcatacaactca G/A catccagttggctttttaag   670               SULT1A2   1   intron 4 1728   tcagcttcctcctttgccaa A/Δ ccaagagatgagctggcctg   671               SULTX3   1   intron 4 1728   tgacctctccctgttagtgt G/Δ ggggcagctctttccagtgt   672               SULTX3   2   intron 5 2457   gcccttaaagggaagttcat C/Δ cttctctgccttccaggctc   673               PIG3   1   5′untranslated region − 93   cagacaatatgttagccgtg   674               ADH2   4   intron 7 + 108   acaattgacaaggcaagatt T/C tgaaaacaaatcaaaaataa   675               ADH2   5   intron 3 + (1721-1723)   actgcatagaaatttaagaa GAA/Δ cttgttttattcctctccag   676               ADH2   6   3′untranslated + (2305-2306)   gttaatgctttcccactctc AG/Δ gggaaggatttgcattttga   677               ADH5   1   5′flanking − 115   taactgctgtaaagttacac G/A gggaagccctttcccgacaa   678               ADH5   2   5′flanking − 114   aactgctgtaaagttacacg G/A ggaagccctttcccgacaaa   679               ADH7   16   intron 8 + 727   ttcagatccctgtaagccag G/A tattatttttaccattttta   680               GSTM1   1   5′flanking − 694   tacgaagtggctaatttaca C/T agtacttagccagatgaccg   681               GSTM1   2   5′flanking − 661   gatgaccgaaggactcagta C/T ccgagggcccctaacagaaa   682               GSTM1   3   5′flanking − 658   gaccgaaggactcagtaccc G/A agggcccctaacagaaaaca   683               GSTM1   4   5′flanking − 656   ccgaaggactcagtacccga G/A ggcccctaacagaaaacaca   684               GSTM1   5   5′flanking − 537   tagaggggagactaagccct G/C ggagtagctttcggatcaga   685               GSTM1   6   5′flanking − 525   taagccctgggagtagcttt C/G ggatcagaggaagtcctgct   686               GSTM1   7   5′flanking − 465   aattaaattcccaggttggg G/A ccaccactttttagtctgac   687               GSTM1   8   5′flanking − 383   gcggagagaeggctgaggga C/T accgcgggcagggaggagaa   688               GSTM1   9   5′flanking − 382   cggagagaaggctgagggac A/T ccgcgggcagggaggagaag   689               GSTM1   10   5′flanking − 378   gagaaggctgagggacaccg C/T gggcagggaggagaagggag   690               GSTM1   11   5′flanking − 343   agggagaagagctttgctcc G/A ttaggatctggctggtgtct   691               GSTM1   12   intron 2 + 118   tgctggagctgcaggctgtc T/C cttccctgagccccggtgag   692               GSTM1   13   intron 3 + 233   agtgagtgcccggtctcctc T/C ctgctcttgcttatgggaag   693               GSTM1   14   intron 4 + 26   tgtgggtggctgcaatgtgt G/A gggggaaggtggcctcctcc   694               GSTM1   15   intron 5 + 140   actatcagcagttattctca CIT gactccaatgtcatgtcaac   695               GSTM1   16   intron 5 + 577   ctgccaccccattagaagga A/G ctttctactttccctgagct   696               GSTM1   17   intron 5 + 645   gctggtctggatccagaggc T/A gccaggtgcttgggcgctcc   697               GSTM1   18   exon 7 + 519   caccgtatatttgagcccaa G/C tgcttggacgccttcccaaa   698               GSTM1   19   exon 7 + 528   tttgagcccaagtgcttgga C/T gccttcccaaatctgaagga   699               GSTM1   20   intron 7 + 2421   ccgcaccgtgtagaatcttc A/G taagtgttagctgttactgt   700               GSTM1   21   3′flanking + 42   atttgctcctggccatctac C/T cagactgtctgtctgtctgt   701               GSTM2   1   intron 1 + 7   ggaacatccgcggggtgagc C/G agggtccgctgggcggtggg   702               GSTM2   2   intron 1 + 45   gggacgggggtgcgtggggg C/T ggggaagtgtggagcagctg   703               GSTM2   3   intron 3 + 70   gactgcatctcctctcccca G/C cttagaggtgttaagatcag   704               GSTM2   4   intron 3 + 224   agcaggccctggtctcctct T/C tgcccttgcatatgggaagg   705               GSTM2   5   intron 5 + 100   ttgattccttctggtgagtt C/A ttggtcttgctgactctaag   706               GSTM2   6   intron 5 + 341   tcctcttggtgggttcatgg T/C ctggctggcttcaggagtga   707               GSTM2   7   intron 5 + 696   acctttagctagacacagag C/T gctgatttgtgcatttacaa   708               GSTM2   8   intron 5 + 723   ttgtgcatttacaatccttt A/G gctaggcagaaaagttctcc   709               GSTM2   9   3′untranslated + 1006   ctcagccccgagctgtcccc G/A tgttgcatgaaggagcagca   710               GSTM2   10   3′flanking + 139   ttctgctgggcatagtaagg C/T gcttgagaattcttgctccc   711               GSTM3   2   5′flanking − 144   ccaacgccggcattagtcgc G/T cctgcgcacggccctgtgga   712               GSTM3   3   intron 7 + 165   agcctaacttctataccttg A/G aggcactgtctacaaaaaaa   713               GSTM3   4   intron 7 + 257   ctgttggactgggtggggtc T/G ttataagattggtgtatttt   714               GSTM3   5   exon 8 &#39;091   cccagtggggcaacaagcct A/G tatgctgagcaggaggcaga   715               GSTM4   1   intron 4 + 67   ttggctggattggggtgcta T/C gctcagagtgagtctgtgtt   716               GSTM4   2   intron 7 + 77   gatgctttcccagtcctgga T/G ctgcataaagaataacttgc   717               GSTM4   3   intron 7 + 80   gctttcccagtcctggatct C/A cataaagaataacttgcatt   718               GSTZ1   1   5′flanking − 546   agcagggcccaccagccgac C/A gcctcgaagcgccgtgagcc   719               GSTZ1   2   5′flanking − 321   tgtctgaccagccgccccgc T/C aaggagtcacaagagggcag   720               GSTZ1   3   intron 1 + 2890   aaaatactgcatcaaaacca C/A gccacgctctgttgggggga   721               GSTZ1   4   intron 1 + 2896   ctgcatcaaaaccaggccac G/A ctctgttggggggacaccaa   722               GSTZ1   5   intron 2 + 255   tctcccaacactgctctcca A/G agccccttggcaaccatgtt   723               GSTZ1   6   intron 2 + 1560   caccactgtttaaggccctg C/C gggggcagagttaaacacaa   724               GSTZ1   7   exon 3 + 94   ccttgaaaggcatcgactac C/A agacggtgcccatcaatctc   725               GSTZ1   8   intron 4 + 297   agaaggaggagtttgctggc C/T ctgtcccctctggtccaggg   726               GSTZ1   9   intron 6 + 94   tatctgaaccagcctcccag G/A ctgctttgggcctgacagtt   727               GSTPi   1   intron 1 + 269   ctcccccgggctccagcaaa C/G ttttctttgttcgctgcagt   728               GSTPi   2   intron 2 + 134   ccccgggcctccttcctgtt C/T cccgcctctcccgccatgcc   729               GSTPi   3   intron 5 + 438   gtgtgtgcgcgtgcgtgtgc C/A tgtgtgtgcgtgtgtgtgtg   730               GSTPi   4   intron 6 + 162   cccgctggctgagtccctag C/T ccccctgccctgcagatctc   731               GSTPi   1   5′flanking − 103   taaagagtgtcccaggcgtc C/T gtgccgcccaatggggcaca   732               MGST1L1   1   5′flanking − 105   tgctgccgctgccgtggggc C/A gggcgtgggcggtgctggct   733               MGST1L1   2   intron 1 + 277   agtgtctgtgagagaagcag G/A ttctggagggtggagtgtgg   734               MGST1L1   3   intron 2 + 8030   ggggttatacagagcccctc C/C gcccccaccacacatatgca   735               MGST1L1   4   intron 2 + 8499   gtatggcaggagtggggtcc C/T ggcaagccatagaggtatgg   736               MGST1L1   5   3′untranalated + 468   cgccacctgtgaccagcagc T/C gatgcctccttggccaccag   737               MGST2   1   5′flanking − 46   ggtcagcattcaaagtcaag A/T agcgccatttatcttcccgt   738               MGST2   2   intron 1 + 176   ggtcacccatgccgcctgct A/C ccctccttcccaggggcaag   739               MGST2   3   intron 1 + 204   tcccaggggcaagcagagac T/C gagaacattccagagattag   740               MGST2   4   intron 1 + 373   ttacaagtgttccaaaggaa A/T cgtgcctgcttctaaacctg   741               MGST2   5   intron 2 − 3245   cctcgtgatttgcccacctc C/A gcctcccaaagtgctgggat   742               MGST2   6   intron 2 − 1998   aggccgaggtgggcggatca T/C gaggtcaggagatcgagacc   743               MGST2   7   intron 2 − 1640   tgtttattccttgcatagcc A/C taatataaagtatgaatttt   744               MGST2   8   intron 3 + 41   actgtgttctaatgatgact A/C tgatgcttaaacgattaagg   745               MGST2   9   intron 3 + 453   atcagagtgctatgttgcag A/C tatatgaactttggcttcat   746               MGST3   1   5′flanking − 520   acaaaaaggccctaacagcg A/C taaatccattcacttcggga   747               MGST3   2   5′flanking − 355   cgcctaaaaccgctacggtg C/A ctctgctggggacaaattat   748               MGST3   3   5′flanking − 234   ctgggggagtagatatatgt T/A tttgagaatgagaggagtaa   749               MGST3   4   intron 1 + 74   agcctttgcgcaggcactcc C/T atatttcagcctatgcgagc   750               MGST3   5   intron 1 + 682   agaaaatgccccttctttat C/C tggggtggcagcacggagcc   751               MGST3   6   intron 1 + 832   cgagtttacaagctacataa T/C agcgtcgggggcaagtaagt   752               MGST3   7   intron 1 + 1919   aataaaattcctgagtttct C/C tcactcgctcttacagtacc   753               MGST3   8   intron 1 + 1991   tgtaattaggcaacaggaaa A/C ttgtactatctttcaaatgc   754               MGST3   9   intron 1 + 4458   tcttccatcctcctaacata T/C agttagcttccactctccaa   755               MGST3   10   intron 1 + 4676   tgaatatgcaatgcaattgt C/C gggggatagttacttttcat   756               MGST3   11   intron 3 + 278   cagcatgacccatctaaacc C/C atgttgactotcccaggcct   757               MGST3   12   intron 4 + 423   cttgcctttttgttgtgggg T/C gtggggtggtcacagagaag   758               MGST3   13   intron 4 + 506   gtgcagagaagaaaacaaag T/C ggggaaggtggaaaggggat   759               MGST3   14   intron 4 − 162   tcacagatattttattttcc C/T gactgaaactaacttaattc   760               MGST3   15   intron 4 − 130   acttaattctacctaatttg C/C gtggggagtagttggccaaa   761               MGST3   16   intron 4 − 105   ggagtagttggccaaatcat C/C aaattgttaactttttgcta   762               MGST3   17   intron 4 − 65   aacatattgtgtaatcaacc C/T taggtgttaaaaaaggtttg   763               MGST3   18   intron 5 + 105   atcccagcactttgggaggc C/C aaggcaggcagattgcttga   764               MGST3   19   intron 5 + 197   aaaaaatacaaaaattagcc C/A gatgtggtggtgcacacctg   765               MGST3   20   intron 5 + 222   tggtggtgcacacctgtagt C/T ccagctacttgggaggctga   766               MGST3   21   intron 5 + 374   tcttatgctactatattttt T/C ttcttgggaatttgagaaaa   767               MGST3   22   3′untranslated + 517   atgacttacctttatttcca C/T ttacattttttttctaaata   768               MGST3   23   3′flanking + 166   agtctgattgtggtgatgta C/T gtatagtcatgccacagtga   769               GSTA1   1   5′flanking − 266   ttgcaaaaagagcaaaatct C/A ggtgaaatgtattgtgtaaa   770               GSTA1   2   intron 2 + 1220   gagacacaggctttcctaag A/C tatgacaacaccataactag   771               GSTA1   3   intron 4 + 1813   aaaggcacccactggaggtg A/C attattttgccatcacctga   772               GSTA1   4   intron 5 + 732   gaagagtgttgtcatgaagg T/C ggagtcactgcccaagggag   773               GSTA1   5   intron 6 + 333   ttatcccatatgtgcccaca A/C tgagccggtctgagcagagc   774               GSTA1   6   3′flanking + 412   ctttcttatgcatttgcaaa A/C caatgattctgtctgctgtg   775               GSTA4   1   intron 1 + 280   gcattggtggaaggtgggct C/T ggatcgtccccgggcctggc   776               GSTA4   2   intron 3 + 176   ggaaatcacttcttattcaa T/C agttccataaaagctggccg   777               GSTA4   3   intron 4 + 94   acaccacatttactttatgt C/C ttacatagttagtgagatca   778               GSTA4   4   intron 5 + 1062   cacacttgtgcacatgcaga C/T acccatgggcatccaagagt   779               GSTA4   5   exon 6 + 487   cagatgtgattttactccaa A/C ccattttagctctagaagag   780               GSTA4   6   intron 6 + 595   tgagctctgagagcaaatga C/A agatgttagcaccctaaaca   781               GSTA4   7   intron 6 + 630   taaacatcaccccaaaggat T/A cctaccattctccttctgag   782               GSTA4   8   intron 6 + 3943   tcttcgtagtatctaatacc T/C tttttgttagccttaaagtt   783               GSTA4   9   3′untranslated + 1099   taataacaaccgaatgtcta G/A taaatgactctcctctgagc   784               GSTA4   10   intron 5 + (370-371)   gttgtcgaacagctgtctca (TA) gctgacatcctccctgataa   785               GSTA4   10   intron 5 + (370-371)   gttgtcgaacagctgtctca     gctgacatcctccctgataa   786               NDUFA1   1   5′flanking − 1437   agggctaaaaatcctgatta T/A acctaccttgaagcttttaa   787               NDUFA1   2   intron 2 + 3071   aataaaagtacatggcatat C/A tttgatgggaacagacttgt   788               NDUFA1   3   3′flanking + 1218   aactccatgtgtataaagca A/G caccacagatgacacttcca   789               NDUFA1   4   3′flanking + 1411   ggattgtgccatcccttgat C/T/G ggcaatgaccttttactttt   790               NDUFA1   5   3′flanking + 1411   ggattgtgccatcccttgat C/T/G ggcaatgaccttttactttt   791               NDUFA2   1   intron 2 + 1087   aacatacaaaaattagccgg A/G tatggtggcgggcacctgta   792               NDUFA2   2   intron 2 + 1089   catacaaaaattagccggat A/G tggtggcgggcacctgtaat   793               NDUFA2   3   intron 2 + 1356   ttccctgaaacaacccattg T/C ggccatccagaatcagccaa   794               NDUFA2   4   3′flanking + 467   cacagcctcatgggtcagcc C/T actccagagggtgcattccc   795               NDUFA2   5   3′flanking + 744   ggaagcaggggccctggcca C/T agccgctggcagtaagcagg   796               NDUFA2   6   3′flanking + (844-845)   tatagtctacaaagaatgaa (ACAC) aaagatcataacaatagcta   797               NDUFA2   6   3′flanking + (844-845)   tatagtctacaaagaatgaa     aaagatcataacaatagcta   798               NDUFA3   1   intron 2 + 2656   tccctgctgccctcccctgc G/A cactttatcttccctttgcc   799               NDUFA3   2   exon 4 + 241   agggccccagcctggagtgg C/G tgaagaaactgtgagcacct   800               NDUFA3   3   3′flanking + 1019   tccttacctgcactggcacc A/G gctctggagccccagtccct   801               NDUFA5   1   intron 3 + 2155   agactctagcatggtacctg A/C aacataaggttccttagaaa   802               NDUFA5   2   intron 3 + 2493   ggcatattgctagttttctc G/T gtctcaatttcatcatctat   803               NDUFA5   3   intron 3 + 2712   acaaattttgaactgttcac C/T taacacaggctttttctgaa   804               NDUFA5   4   3′flanking + 1296   aggtatctaaaaggtattgc A/C atttggtcattggttctttc   805               NDUFA5   5   intron 3 + (30-31)   aagtcagttttgttgtcttg (GATTTGTGGTATCCAG) tgtaa   806                   catttaaccaaaaaa               NDUFA5   5   intron 3 + (30-31)   aagtcagttttgttgtcttg   807                   tgtaa                   catttaaccaaaaaa               NDUFA5   6   intron 3 + (427-428)   attaagtagcagttaataaa AG/Δ tctagactgctgattcatac   808               NDUFA5   7   intron 3 + (4733-4734)   tataggaattttaaaatata TA/Δ ggatattgaaacattcagtt   809               NDUFA6   1   5′flanking − 1148   tttataatttatatatgtta C/T gtgctttcttttgtatagct   810               NDUFA6   2   5′flanking − 363   actaccaaggagcgcggcgg G/A cagccggatagcaggacgct   811               NDUFA6   3   exon 1 + 26   ggggagcggcgtccgccaag C/T tacttctaccgccagcacct   812               NDUFA6   4   intron 1 + 1318   attcagcagtttgaaaacat A/G atgtttgcctggcagaatac   813               NDUFA6   5   intron 2 + 562   agttaaagaatctgaaaagt G/C tcagaaatgatttaccctga   814               NDUFA6   6   5′flanking − (861-862)   ctgtaaaatggggatgctga (T) ggtacctacctgacctatga   815               NDUFA6   6   5′flanking − (861-862)   ctgtaaaatggggatgctga     ggtacctacctgacctatga   816               NDUFA7   1   5′flanking − 731   accaaccaaaggtctatcaa A/G ggggtgtcctctttgcaccc   817               NDUFA7   2   5′flanking − 434   aaagggaaccatcagaaccc C/T gtgatgaaatgagaatcggc   818               NDUFA7   3   5′flanking − 395   gctcccggattccggctggc A/G ggggttagggcagggtagag   819               NDUFA7   4   5′flanking − 100   agaggagtcacgtgcttcgg G/A gagagcctttataggacgtt   820               NDUFA7   5   intron 1 + 92   tcacctccctcctaagccgg G/A acccttcgctctccccgaat   821               NDUFA7   6   intron 1 + 133   ctccctgggaacccccagct A/C gtcaccccttcagcccggga   822               NDUFA7   7   intron 1 + 136   cctgggaacccccagctagt C/G accccttcagcccgggaccc   823               NDUFA7   8   intron 2 + 89   tcctttagacccctgaaacg G/C agggctgacatcctgccacc   824               NDUFA7   9   exon 3 + 196   gccgccgggaatctgtgccc C/G□ cttccatcatcatgtcgtcg   825               NDUFA7   10   intron 3 + 4203   gcctccacccctggggcgcc T/G cctccatcaccccaccctcc   826               NDUFA7   11   intron 3 + 4604   gggccttgtgtacgctggag A/G ccaaaagtgggaagggagga   827               NDUFA7   12   5′flanking − (1360-1353)   agggtccagggtcccctgct (CAGAGGCT) aacactggccg   828                   aagagaaag               NDUFA7   12   5′flanking − (1360-1353)   agggtccagggtcccctgct   829                   aacactggccgaagagaaag               NDUFA7   13   5′flanking − (1240-1239)   tgatagagccctgatccacc CA/Δ ctctctgaaacttctttgct   830               NDUFA7   14   intron 2 + (4142-4143)   cattttgtgactgaggtgac AG/Δ gggcccacagcggggccatg   831               NDUFA8   1   intron 1 − 75   tttgtgttctctattctgac C/T cgcatgaggtaaagctgaga   832               NDUFA8   2   intron 2 + 790   caaacctagacaaagtgtgc C/T ctttatccagaagtgagcag   833               NDUFA8   3   intron 2 + 900   ttcaggagataaaaagctct G/A attgctcaggcctgagatgg   834               NDUFA8   4   intron 2 + 3837   gaagttgtcttgtaagtgag A/G taagaatatgtactcacata   835               NDUFA8   5   intron 2 + 3942   tcattgttttgcaaagagat G/T cccctaacccagctttcttt   836                NDUFA8   6   intron 3 − 66   gaggagacaccaggaggcgc A/G ttgatggttacagattcctc   837               NDUFA8   7   3′untranslated + 520   tttatttctggaccaagtaa A/G gatgggtccgtggcccacac   838               NDUFA8   8   3′flanking + 367   gtcatacaaggggagcctcc A/G ggatagaagtgcagaaactt   839               NDUFA8   9   3′flanking + 777   attcttttttcactactagg C/T tgtttcctccacatctgact   840               NDUFA8   10   3′flanking + 1053   aaagaaaaagcactgtgtga T/A ctgccatggccgcttctgca   841               NDUFA8   11   3′flanking + 1190   gattctctaatgaaaaataa G/T acttttttttgcattttttt   842               NDUFA8   12   intron 2 + (449-453)   ggtcattgtgcatgatacttaa (GTAAA)   843                   aaaaaactaagctgtgtaat               NUUFA8   12   intron 2 + (449-453)   ggtcattgtgcatgatacttaa   844                   aaaaaactaagctgtgtaat               NDUFA8   13   intron 2 + (707-708)   ctcattttggaaagactctc (A) accttgctgtaccaaaaatg   845               NDUFA8   13   intron 2 + (707-708)   ctcattttggaaagactctc     accttgctgtaccaaaaatg   846               NDUFAB1   1   intron 1 + 8451   cagcaccctgtagaggcctc G/A ggatgctgaagatgccatga   847               NDUFAB1   2   intron 1 + 8495   gacacaggcattctgcagac C/A ctagacaattttagtggcag   848               NDUFA9   1   5′flanking − 807   gatggctctttgtagaacaa T/G gcagattctcaaaggtgacc   849               NDUFA9   2   5′flanking − 769   accacagttaaagaaaaaat T/C acaagccattgcgctagaga   850               NDUFA9   3   5′flanking − 353   cacaccctattttggtttct C/G ttctccacttttcccctcgt   851               NDUFA9   4   5′flanking − 322   ttcccctcgttcttgtcccc C/T cttttctctctcctgggccc   852               NDUFA9   5   intron 1 + 447   attcatatgagcacaatgga A/G atgataatattacaatacca   853               NDUFA9   6   intron 1 + 1039   ggcttgatgttcagcctgag G/A caagaattaggagtgtttag   854               NDUFA9   7   intron 1 + 4010   aatgtatccaaaagagattc T/G cattcctgccatatgaagaa   855               NDUFA9   8   intron 3 + 49   gacaaatataaattactaag C/A tcatttttaggagtgatagg   856               NDUFA9   9   intron 3 + 107   aatttcttcccagaatggac C/T aaaggcatcctctgttccca   857               NDUFA9   10   intron 3 + 1183   atctctggtaatattcatac A/C gattatttgtaatcccttta   858               NDUFA9   11   intron 3 + 1395   attcctagttctttgtccct C/T aagtttgttggtcaccttgt   859               NDUFA9   12   intron 3 + 2363   agaaaatagtcatgaatggc C/T ccaactaacactagtcttta   860               NDUFA9   13   intron 3 + 2608   gtcatttgattacctgagta A/C agtgtactgttacctgtttg   861               NDUFA9   14   intron 4 + 561   attttataaattctttgatg A/C cttgggggtcttattcaact   862               NDUFA9   15   intron 4 + 860   attgtgtagagtaatgacag C/T agagctgtcaacttttttaa   863               NDUFA9   16   intron 4 + 879   gcagagctgtcaactttttt A/T aaaaaataattttagcttaa   864               NDUFA9   17   intron 4 + 893   ttttttaaaaaaataatttt A/C gcttaaaaaaattaaaaatt   865               NDUFA9   18   intron 4 + 1090   atcattgctgtttaaaagtt T/C aagtagtgtgaatttcagta   866               NDUFA9   19   intron 4 + 1188   aaccaatccttttatttttt A/T tcttccagaaactttgattt   867               NDUFA9   20   intron 5 + 161   gggtgtgtgtgatgttttga C/T gttttgattgattgccttct   868               NDUFA9   21   intron 5 + 373   ctttctcaccccttgcactg C/T agtggttttgtgccactctt   869               NDUFA9   22   intron 5 + 457   gccagggaagatgcctattc A/C cacagtgcttatgctccttt   870               NUUFA9   23   intron 5 + 3113   gatttttctccttcttcaat G/A taagcttcccttaaaataaa   871               NDUFA9   24   intron 5 + 3339   tctaaactcaaaacaggttt C/A tttggttattgtttaggctg   872               NDUFA9   25   intron 6 + 414   tatagttttgccttttccag C/C atattacatatatggttaga   873               NDUFA9   26   intron 6 + 518   ctttcatttcttttcatagc T/C tgatagctcatttctttata   874               NDUFA9   27   intron 7 + 974   ggattatgcgtacttggaaa A/C tacttggatagcggtgatta   875               NDUFA9   28   intron 8 + 368   acattaattttgatggagta T/C cacaatgcctccagaggctg   876               NDUFA9   29   intron 8 + 954   gcatgcaatcagttatatag T/C ctagataagaattacaattc   877               NDUFA9   30   intron 8 + 1253   tcctcttgaaattgtagata C/T gtatctacacatttctcatc   878               NDUFA9   31   intron 8 + 11608   gaaaagatagatgtataaat C/A accaaaaattcgtgaagaaa   879               NDUFA9   32   intron 8 + 11930   ctacaaatatattctaaatg C/T gtaatcatggataagtacaa   880               NDUFA9   33   intron 9 + 1998   tgtttttcaagcctttaaac C/A gctgtggaaccctgtgctca   881               NDUFA9   34   intron 9 + 2238   ccagctacttgggaggctga A/C gtgggaggatcacttgagcc   882               NDUFA9   35   intron 9 + 2885   acagcggtctgtcttcctgc A/C gttctcataggctagcttac   883               NDUFA9   36   intron 10 + 801   tacactaaagtgtctcttac C/A tttatacttgagaaagtgtt   884               NDUFA9   37   intron 10 + 910   tgcagactttcaggtgggta C/C gatgagggattgctgctgct   885               NDUFA9   38   intron 10 + 1180   aaaactgagtcagaacgccc C/A tgctcagaaaacaggggcgt   886               NDUFA9   39   3′flanking + 554   gtgccagcacttaggaatta T/C gaccttctaatgaagttctt   887               NDUFA9   40   5′flanking − (1129-1128)   taaacagtaggggcaagata (TC) gagtggaaacagccaagatt   888               NDUFA9   40   5′flanking − (1129-1128)   taaacagtaggggcaagata     gagtggaaacagccaagatt   889               NDUFA9   41   5′flanking − 341   tggtttctcttctccacttt T/Δ cccctcgttcttgtcccccc   890               NDUF51   1   5′flanking − 3   tcctagggggtcgtcgtggt C/C cagacagtttagcagaacag   891               NDUFS1   2   intron 1 + 445   gtgttagcaatggctcacgc T/C tctgtttgttgtccttgttt   892               NDUFS1   3   intron 1 + 470   tttgttgtccttgtttgttt C/T gtccattgaccacgttggac   893               NDUFS1   4   intron 1 + 502   acgttggacagcattttttt A/C ttcctttaactaacgggaaa   894               NDUFS1   5   intron 1 + 557   ttttgaaaagttagcccagg A/C ttgcattgcaaataacaaaa   895               NDUFS1   6   intron 1 + 5218   tatctcagaatatctcagga A/C catttagtagacagctatgc   896               NDUFS1   7   intron 3 + 1371   aagccctaaaatagatagtg T/C caatgggaatgaaaacaaga   897               NDUFS1   8   intron 5 + 414   ttttgaaacgaggtctcact A/C tgttgtccaggctgggcttg   898               NDUFS1   9   intron 10 + 812   gagtgcggtggcgcgatctc C/A atctcgggtcactgcagcct   899               NDUFS1   10   intron 11 + 233   ggaggccaaggcaggcagat C/T gcctaagtgcaggagtttga   900               NDUFS1   11   intron 11 + 283   ggccaacatggcgaaacccc C/A tctctactaaaaatacaaaa   901               NDUFS1   12   intron 11 + 585   ctgtatgtcttaartttaaa C/T taaatttgcattttatatat   902               NDUFS1   13   exon 12 + 1251   gcaccactgtttaatgctag A/C attcgaaagaggttggtaat   903               NDUFS1   14   intron 13 + 5159   attacttttagaaaacgtgt T/C ttagctgatactcaggcata   904               NDUFS1   15   intron 14 + 250   aaaaattgttatattagtta C/T accttggttcaaaaattgca   905               NDUFS1   16   intron 14 + 55O   gataaagtctcactatgttg C/T ccaggttgatctcaaactcc   906               NDUFS1   17   intron 14 + 2429   ctgaaaatacaaaaattagc C/T gggtgtggtggcatgtgcct   907               NDUFS1   18   intron 14 + 2530   ttacagtgagccgagatcac C/T ccactgcgctccagcctggg   908               NDUFS1   19   intron 14 + 2659   acacatttaattttttacat T/C gaaaatactgcagttatggt   909               NDUFS1   20   intron 16 + 150   agaaaacatgtattcagaaa C/T aggaattcaaggttacagtg   910               NDUFS1   21   intron 18 + 279   cactgtgtagcaatttatgg T/C gaattttccaaagtggcaaa   911               NDUFS1   22   3′flanking + 182   tctaggataattataattaa T/A aataatcatagtaacaatgg   912               NDUFS1   23   intron 11 + 3226   aaatgtattgtctgtgcttt T/Δ aacattttgtaatagtaaat   913               NDUFS3   1   5′flanking − 194   tctgccacaaggagctagga C/T cacgctcacctcacgatttc   914               NDUFS3   2   intron 1 + 46   cggggtcaggcgcagcggcg T/C gcccagtgcagagagctcct   915               NDUFS3   3   intron 6 − 439   aaagctgtgtcaaatgtact C/A ctttagatctggactgtgaa   916               NDUFS3   4   intron 6 − 280   ggtgggtgagcagtcagttc G/A gagctcctgatgtgggagtg   917               NDUFS4   1   5′flanking − 439   aactgaatacagccctgtcc T/A gagggcttgcaaagtgaatc   918               NDUFS4   2   intron 1 + 1829   gaaaaaaaatcttaatgcca G/T ggaagacgttttttaaatac   919               NDUFS4   3   intron 1 + 2057   attaatgggaaaatctacat C/G taaaattcattttattgtaa   920               NDUFS4   4   intron 1 − 521   ttcattttaactaattttat T/G tctcccattttgtgaatggg   921               NDUFS4   5   intron 3 − 1259   ataaaattatgatattatta G/A tactaatatagccagccata   922               NDUFS4   6   intron 3 − 1174   aatatatataattataggaa T/C Ctcagagtagcaaccatggt   923               NDUFS4   7   intron 4 + 10682   cacaatataggcacaaactt A/C ctaccaaagcactaacaagt   924               NDUFS4   8   intron 4 + 12299   tttactatatagatatatgg A/T atagactatagagtatctct   925               NDUFS4   9   intron 4 + 12560   accaaataaggtattatgca G/A gctcatctttttatataaga   926               NDUFS4   10   intron 4 + 18801   ggaaagacttgctttgccag T/C gtatccgaaacctctgttat   927               NDUFS4   11   intron 4 + 19888   tcgcacagctgagaagagca A/G ggggctggttttcagraccc   928               NDUFS4   12   intron 4 + 20178   agaaaagatgagtataattc G/A tctaacttacccattcttaa   929               NDUFS4   13   intron 4 + 23016   ctactctgtgaaagtaaggt T/A atgttgaacaagtaaattaa   930               NDUFS4   14   intron 4 + 23124   actttctttggagatggagt T/A ccagcagttgggaatgtaat   931               NDUFS4   15   intron 1 + 766   tgtgatgatttttttttttt T/Δ ggctgtattaaccttccatt   932               NDUFS4   16   intron 1 + 1261   tttctttctctttttttttt T/Δ gagatacattctcactctga   933               NDUFS5   1   intron 1 + 388   ccaaacatagccagcacttc C/T ggctgtaactccgggctgtt   934               NDUFS5   2   intron 1 − 13082   agtgagccgagattgcacca G/A tgcattccagcctgggcaac   935               NDUFS5   3   intron 1 − 12905   gttttcaacaaaggactcca G/T agtagtagagaagtttctgt   936               NDUFS5   4   intron 1 − 12564   attttcatcacacctcaact T/G aaggtataacagccttaaga   937               NDUFS5   5   intron 1 − 12561   ttcatcacacctcaacttaa G/A gtataacagccttaagaatg   938               NDUFS5   6   intron 1 − 10561   aacaatgtggtatagtgggg C/G gggtggtgagcaggtgtcat   939               NDUFS5   7   intron 1 − 9065   cctgatgctcctggctccag G/A gtagaccttttccctttaga   940               NDUFS5   8   intron 1 − 8871   tcaccacgtgtctgtagara T/C aggaccgcagaccttcgctt   941               NDUFS5   9   intron 1 − 7312   aaatccttggcttctagaat G/T ggtcactgatggtatataat   942               NDUFS5   10   intron 1 − 6827   aacctctgcctccccgattc A/G cgccattctcctgcctcagc   943               NDUFS5   11   intron 1 − 6725   agtagagacggggtttcacc G/A tgttagccagcatggtctcg   944               NDUFS5   12   intron 1 − 6631   aggcgtgagccactgcgccc G/A gcctagaccttcttcttata   945               NDUFS5   13   intron 1 − 6531   cccaacagctcccaatgtaa A/G acagatctattaatattctg   946               NDUFS5   14   intron 1 − 6346   gcaacagatcttgacctata T/C cccatagggtacagcrgagg   947               NDUFS5   15   intron 1 − 6327   atcccatagggtacagctga G/C gactttaatcagaaaaggag   948               NDUFS5   16   intron 1 − 6122   tagccttgcttttactctac T/C gttcctcccaaatcacaccc   949               NDUFS5   17   intron 1 − 2512   acaaactcttaatgcgaatt T/C tgcagatcaaagtgggctta   950               NDUFS5   18   intron 1 − 1945   tttaatctcctttaaatttc G/A caatttcacaacctagggta   951               NDUFS5   19   intron 2 + 75   tttttttttttttttgagac G/A aagtctcactcttgtcccct   952               NDUFS5   20   intron 2 + 148   ctgtagcctctgcctcccag G/A ttcaggcgattcgcgtacct   953               NDUFS5   21   3′flanking + 150   cagattcaagtggttcrcct G/C cctcagcctcccaagtagct   954               NDUFS5   22   intron 1 − (10682-10681)   attataaacactaaacaaac AT/Δ gtgtggtctctttagagggg   955               NDUFS5   23   intron 1 − 10272   aggaacaagtgactaccctg A/Δ aaaaagaagagatgaaacaa   956               NDUFS5   24   intron 1 − 2069   accagacagagttcccttta C/Δ ttgttttcctgtggcaaaga   957               NDUFS6   1   intron 1 + 26   ggccgctgggtacaggatgc A/C ccttcctccagccgcacctc   958               NDUFS6   2   intron 2 + 1076   ggatcatggtggtggagagg G/A gcttgtgtctggtgggtttg   959               NDUFS6   3   intron 2 + 1260   cagttgtcgagtaagtggtg T/C atagggtaagtgctctttct   980               NDUFS6   4   intron 2 + 1413   caaaggagctcatggcattg C/T gaatgggacatttcttccgt   961               NDUFS6   5   intron 2 + 1568   tggagaaggggaggtttctc T/C tagtgtggatgcggtatggt   962               NDUFS6   6   intron 2 + 1692   gaccgtggtgacggaggttt C/T ctgggcatcgatgggtggtt   963               NDUFS6   7   intron 2 + 6488   tagcttaaataattattggc A/G ttcatgttcagaatgcctga   964               NDUFS6   8   intron 2 + 6563   tttaaacttttattttaaat G/A tccatgaatggggtcggtat   965               NDUFS6   9   intron 2 + 6740   aaagatttaaacctacatar C/T tttatgcccaatcatttgat   966               NDUFS6   10   intron 2 + 6832   gcgagggactcattttacag A/T ggttggacacttcactgtgt   967               NDUFS6   11   intron 2 + 7054   ttcactgccggagcttggcc G/A tgtgaacccggagccgggct   968               NDUFS6   12   intron 2 + 7186   ggtcagggtcacccttgagc T/C gcgcacactaaatgacggga   969               NDUFS6   13   intron 2 + 7225   qagggcatcccgcgtcagtc G/A ccagtgtcgaggcgtcagca   970               NDUFS6   14   intron 2 + 7810   cttccactctggggcgggga C/T gctgtagaaggagcacaaag   971               NDUFS6   15   intron 2 + 11080   gtaactgttcagtgctttct C/T ctttggatttcatgtaaatc   972               NDUFS6   16   intron 2 + 11657   gggacagaacgatgtggtgg G/A gagaagagggcgtggcagag   973               NDUFS6   17   intron 3 + 208   cgaaaaccccctttcaactg T/C gaagtggtgggcggcatgtt   974               NDUFS6   18   intron 3 + 1031   ctagagtgggactgggcacc C/T ggcatgtcccctcctgggct   975               NDUFS6   19   3′flanking + 270   gcttcagagagccaaggtgg G/C tcttgaggtgcatagtgaag   976               NDUFS8   1   5′untranslated − 45   agtgtagcctccgcctcccg A/C ttgactggcctgcttggcaa   977               NDUFS8   2   intron 1 + 163   aggtgcagcggggagccggc T/C ctcagggcgcatgcgccgcc   978               NDUFS8   3   intron 3 + 123   tctctgagcctgtttccact T/C ttaaaatgattatggtgatg   979               NDUFS8   4   intron 6 − 505   aggcaaggcaggccgggcac G/A gtggctcacgcttgtaatcc   980               NDUFS8   5   3′flanking + 491   ggccctgagctggcctgcgt C/A cagccacatcctctttcctg   981               NDUFS8   6   3′flanking + 693   ttcacttcatttgcagtgag G/A aaaccagctccgagaggtga   982               NDUFS8   7   3′flanking + 1267   ttttcccagacgtaaccgcc G/A tcagagcgtggcatggagcc   983               NDUFS8   8   3′flanking + 1362   cgctgggttctttcccttac C/T gtggtctcccaggcacttac   984               NDUFS8   9   3′flanking + 1449   tgtcagaacaggcctatggc G/A cccaaccacaagtcccccaa   985               NDUFS8   10   3′flanking + 1572   cagccccacaggcctgtgct C/A gctgtgtggggcttagggat   986               NDUFS8   11   3′flanking + (783-784)   cagagaccttgacccccccc (C) atctaccatcatttccaaaa   987               NDUFS8   113   3′flanking + (783-784)   cagagaccttgacccccccc     atctaccatcatttccaaaa   988               NDUFB3   1   5′flanking − 1439   ttaaaagttgacttttttct G/A ccgggcacggtggctcacgc   989               NDUFB3   2   5′flanking − 1436   aaagttgacttttttctgcc G/A ggcacggtggctcacgcctg   990               NDUFB5   1   5 flanking − 213   ggcggatgaaactctcctac A/C aagaagggccaaaccggccg   991               NDUFB5   2   intron 1 + 6288   ggggatgttgattacctagg T/C cagtaaagtaaagaaggcat   992               NDUFB5   3   intron 1 − 1581   cttctgggccactgtatcct A/G tttctttcccttgttaccct   993               NDUFB5   4   intron 1 − 1487   ccctcttagaccgtatatag T/G tctagcataggatctgcaca   994               NDUFB5   5   intron 2 + 556   ttgtctggaccatctgccac G/A gtagataaagctctgaatca   995               NDUFB5   6   intron 3 + 467   ggcgccatcgcactccagcc C/T gggcaacagagtgagactct   996               NDUFB5   7   intron 3 + 497   agtgagactctgtccccccc C/G caaaaaaaaactataatcct   997               NDUFH5   8   exon 5 + 397   atgatagtcctgaaaagata T/c atgaaagaacaatggccgtc   998               NDUFH5   9   intrion 1 + (231-215)   attagcatttctaaaacgtt GTT/Δ attcaccatcccaattaatg   999               NDUFB7   1   intron 1 + 68   cctgaacacctggcacccca G/A ggctggcaccccagggctgg   1000               NDUFB7   2   intron 2 + 266   gggctctctaggggcctgtt T/C gatggggacagggcaggtgg   1001               ABCA1   1   5′flanking − 278   gggcccgggcgggggaaggg G/C acgcagaccgcggaccctaa   1002               ABCA1   2   5 flanking − 99   acataaacagaggccgggaa G/C ggggcggggaggagggagag   1003               ABCA1   3   intron 1 + 159   gcggtgttaaatggggagac G/T atgtcctagtacgagctctg   1004               ABCA1   4   intron 1 + 506   gaattggctatatgctcccc G/c ggactggagcggcacagtcc   1005               ABCA1   5   intron 1 + 5897   gtacaaaaccctttagcttt T/G gcaaacctcctttaagaccc   1006               ABCA1   6   intron 1 + 5929   ttaagacccgatttaaatgc C/T tccctcctcatgaagctctt   1007               ABCA1   7   intron 1 + 5962   aagctcttctggatccactc T/C ttcccatcactaagttgaaa   1008               ABCA1   8   intron 1 + 5985   cccatcactaagttgaaagt A/C agatccccttctctttactt   1009               ABCA1   9   intron 1 + 11416   ttacagtgccctttatagga G/A agaaagaagaaattgtgtct   1010               ABCA1   10   intron 1 + 11935   tctctgtggagcaaatagag G/A gctgtctgacacttggttcc   1011               ABCA1   11   intron 1 + 12281   gaatgtttgatttgtgaaaa T/A cttaataacagtagtttttt   1012               ABCA1   12   intron 1 + 12924   gtgctgacaatcttatactc T/C aggttgaacctccggggaag   1013               ABCA1   13   intron 1 + 13002   gagcctcaatcacagattct C/G tctagctcacatgaagttaa   1014               ABCA1   14   intron 1 + 17715   ggagcatgactttgtggaag C/T ctctcctcttccacccagag   1015               ABCA1   15   intron 1 + 17848   gagggctgactgtcaccctt T/C gataggagcccagcactaaa   1016               ABCA1   16   intron 1 + 21384   gtgggtgggaggaattggag G/C aggaagcttgcctaagtgtg   1017               ABCA1   17   intron 1 + 22145   gtagcttctaaatcaacgaa C/G tgattcctggagagcagctt   1018               ABCA1   18   intron 1 + 23063   ggaggcacctgtgacaccca G/A cggagtaggggggcggtgtg   1019               ABCA1   19   intron 1 + 23131   agtgtgcatatgtgctgacc G/A tgggagcttgtttgtcggtt   1020               ABCA1   20   intron 2 + 156   ggacacaggactgtgtggtc T/C ggatatggcatgtggcttat   1021               ABCA1   21   intron 2 + 384   gctgtgggtgaagtgagtta A/G tggccccactcttagagatc   1022               ABCA1   22   intron 2 + 1081   agtgcagccaaaattgcaaa G/A tcataccattcaaattaata   1023               ABCA1   23   intron 2 + 2801   aagaaaagtgatttatttca A/G gttgctgatgcttagattgt   1024               ABCA1   24   intron 2 + 2830   tgcttagattgttagagttg C/G aaagatctggcttgcatctt   1025               ABCA1   25   intron 2 + 2856   tctggcttgcatcttgtaca A/G ctgacagaactggggctcag   1026               ABCA1   26   intron 2 + 3187   tgatagctgttgcctgcagc A/G tacggacgttcattgcgcag   1027               ABCA1   27   intron 2 + 3190   tagctgttgcctgcagcata C/T ggacgttcattgcgcagttc   1028               ABCA1   28   intron 2 + 3194   tgttgcctgcagcatacgga C/T gttcattgcgcagttcctgt   1029               ABCA1   29   intron 2 + 3204   agcatacggacgttcattgc G/A cagttcctgtctcctgagat   1030               ABCA1   30   intron 2 + 3401   acataaagcctgtgtgctgc T/C gccaggaagactagaaacgc   1031               ABCA1   31   intron 2 + 13927   gtcaccacatacctggcact A/G tgctaaggctgggaatgcag   1032               ABCA1   32   intron 3 + 4163   ccagcccacttcatcttacc G/A tagttacctccttagagtat   1033               ABCA1   33   intron 3 + 4262   tgtcaaagaggaactaagga T/C gccagggactttctgcttag   1034               ABCA1   34   intron 3 + 4306   ccctctcatcacttctccaa C/T gctggtatcatgaaccccat   1035               ABCA1   35   intron 5 + 240   gacagaagaaaagtccccag G/A gaagaatactacagacttgg   1036               ABCA1   36   intron 5 + 490   gatggycatttgaacttgtt G/A tctttaaaaagtgaaatctt   1037               ABCA1   37   intron 5 + 583   tatctggggagtgggcattt T/G ctgactgaggcattggctgc   1038               ABCA1   38   intron 5 + 1051   ggctacaaaactgtgctttc C/T ttgggcagtaaaagaggcaa   1039               ABCA1   39   intron 5 + 3051   tagagaacaagtctaattct G/A ttttccttgaaatagtcgaa   1040               ABCA1   40   intron 5 + 3127   aagtccatgattttttaggc A/G aaatggcctcctttcctctt   1041               ABCA1   41   intron 5 + 5924   ctttctttcacaaaattgcc C/T cccagagctttctggaaggg   1042               ABCA1   42   intron 5 + 6831   ccagtccctcagccttgcca T/C tgcttatgctggtctggaaa   1043               ABCA1   43   intron 5 + 12678   gctcaccgctctgctcaccc G/C accctctggccatctcctct   1044               ABCA1   44   intron 5 + 14214   cagcttggtcccagaggcct G/A gacctgggtcccagaggtcc   1045               ABCA1   45   intron 5 + 14257   gctggttccccggcttggtc C/T cagaggcctggatgtgtggc   1046               ABCA1   46   intron 5 + 18078   cctaccacaccatgcacgtg C/T acagccaagggttgttgact   1047               ABCA1   47   intron 5 + 18795   ctgggctcttcctggacctg G/A ccagctaaaaggaaatctcc   1048               ABCA1   48   intron 5 + 18948   gcattggtggtactaagaac G/A catattccctatcctatagg   1049               ABCA1   49   intron 5 + 19053   ctcccccaacattaaaagtg T/C aagggatgcttattcaaatg   1050               ABCA1   50   intron 5 + 19148   ggcccaagaaactgcatttt C/A gcatgctccctaaatgaagc   1051               ABCA1   51   intron 5 + 19229   atgctaacagtgtagagtca C/T atgtgatgggaagcatcagg   1052               ABCA1   52   intron 5 + 19405   cttgctcaatttattctgtc T/C atataactcaatattactga   1053               ABCA1   53   intron 5 + 19534   catgtgaccctcttagctcc G/A cggattaactcctgtcctca   1054               ABCA1   54   exon 6 + 474   gaaaccttctctgggttcct G/A tatcacaacctctctctccc   1055               ABCA1   55   intron 6 + 210   gcaacctggcgtcatgggcc A/C gctggttaaaataaaattga   1056               ABCA1   56   intron 6 + 334   acagttctgaggcaataacc G/A tggttaagggttattgatct   1057               ABCA1   57   intron 6 + 2288   cttctttcaaagcttgtggt C/T cactggaccacgtatgaagt   1058               ABCA1   58   intron 6 + 2322   atgaagtagaatagtttagg T/C ccagaaaggcaattaagtaa   1059               ABCA1   59   intron 6 + 2820   gtgctttgatacattctgag T/G ttcagtaaagagacctgatg   1060               ABCA1   60   exon 7 + 656   tgagctttgtggcctaccaa G/A ggagaaactggctgcagcag   1061               ABCA1   61   intron 7 + 416   catcataaagatgacattgt G/A ggctgtcacagttggaaggc   1062               ABCA1   62   intron 7 + 471   agaccacactatttagctta C/T ttagtaataacattgcaaag   1063               ABCA1   63   intron 7 + 504   ttgcaaagaaaaattccgac G/A aagttttttcagcctaggaa   1064               ABCA1   64   intron 7 + 679   gctctggtgaaattcctctc G/C ctaccccaaacatcatcatt   1065               ABCA1   65   intron 7 + 1740   acaaatgctcaccctttcag C/T tggaatgattgaaattttgg   1066               ABCA1   66   intron 7 + 2122   tgattaaggtggctactacc A/G ggtgctttctgcatatctcg   1067               ABCA1   67   intron 7 + 7753   taggaattccaagctgtgaa T/C tttttactgaagctctttgg   1068               ABCA1   68   intron 78973   atggaaatttgtttatattg A/T ctacagattgccaatattat   1069               ABCA1   69   intron 7 + 8976   gaaatttgtttatattgact A/G cagattgccaatattattag   1070               ABCA1   70   intron 7 + 11327   ctaacaatcttatttccatt G/C agtccttataaaagaagtgg   1071               ABCA1   71   intron 7 + 11738   ctgacgtttaagggagaccg C/T gtaggtccctttgaggactg   1072               ABCA1   72   intron 7 + 12295   agtctgtaaattattgttct T/A ttttttctttagcttatgct   1073               ABCA1   73   intron 8 + 387   tagcaaggccaatcatttta C/G caacacacatgcttgctaac   1074               ABCA1   74   intron 8 + 697   ggaactgtctggtgtccccc A/T gcataggaagctgagccagg   1075               ABCA1   75   intron 8 + 1312   attgctctgcagatcccctc G/A cagccctctgtcccttgttc   1076               ABCA1   76   intron 8 + 3036   ctttatgtgggaagaaattt T/G tttttttgattggggagtgg   1077               ABCA1   77   intron 8 + 3176   aaatggcctggttctctgtc C/A cctttctgtctgtatgcctc   1078               ABCA1   78   intron 8 + 3364   ggcagaaggcaaagcttagg A/T cctagagagtgctggaccac   1079               ABCA1   79   intron 8 + 3373   caaagcttaggacctagaga G/A tgctggaccacgccactcac   1080               ABCA1   80   intron 8 + 3561   cagggatttattaatgattt C/A ttgtgaaatgtttggaaata   1081               ABCA1   81   intron 8 + 3654   agtgccggaatacatttgca T/C gtaagacagaacgctgcctg   1082               ABCA1   82   intron 8 + 4715   ggcagaggggtctcagaatc C/T gcatttccaacaatgtctcc   1083               ABCA1   83   exon 9 + 936   cgtattgtctgcgggcatcc C/T gagggaggggggctgaagat   1084               ABCA1   84   intron 9 + 2309   cccctcaagagtcagtttaa A/G tgttggtcatgttagttgtc   1085               ABCA1   85   intron 9 + 2392   atgggagggcttgtgcttca T/C gaaaacatttttccagatca   1086               ABCA1   86   intron 10 + 228   tggggatggggaggactggc A/G cagggctgctgtgatggggt   1087               ABCA1   87   intron 10 + 319   ttctgcggtccctggctccc C/T acctgactccaggtgaacaa   1088               ABCA1   88   intron 11 + 377   gaaagaagtgtgggagcaaa A/C gcatgatgttacatgtagac   1089               ABCA1   89   intron 11 + 521   agtgctctagagacaattgg G/A ttcaaatgtggagcaggctg   1090               ABCA1   90   intron 11 + 2850   ctctatacaatcattatgct G/C ccattgaaataataaataca   1091               ABCA1   91   intron 11 + 2976   ctccaattcggtagaaccag A/G gcttcatcttctctgtcgaa   1092               ABCA1   92   intron 11 + 3056   gtttgcagctgctgtttttc C/T ggcageacatctgtgcaggc   1093               ABCA1   93   intron 12 + 340   ggcattatttgtgaaactta T/C ctaaaatcgaattcgggtcc   1094               ABCA1   94   intron 12 + 381   aattaaatttttgaaatttt A/G tattaaaaattatattagta   1095               ABCA1   95   intron 14 + 1728   caggctcagaggccttggcc C/T atcaccctggctcacgtgtg   1096               ABCA1   96   exon 15 + 2040   atgggcctggacaacagcat C/A ctctggtttagctggttcat   1097               ABCA1   97   intron 15 + 1382   cttttagacagaaaagttac G/A tgggatattatctcccacag   1098               ABCA1   98   intron 15 + 1453   tatataaggagaaaccagtt G/A aaattacctattgaagaaac   1099               ABCA1   99   intron 15 + 1567   ttctgcgtagttttgggtaa G/A tcacttatcttctttaggat   1100               ABCA1   100   intron 15 + 1617   cagttgcctcatcagaaaga T/A gaacagcattacgcctctgc   1101               ABCA1   101   intron 16 + 95   agttgagaacagaagatgat T/A gtcttttccaatgggacatg   1102               ABCA1   102   intron 16 + 452   tggtgttttgcttgagtaat G/A ttttctgaactaagcacaac   1103               ABCA1   103   intron 16 + 657   ctgttgcctcagtctgggct T/C cataggcatcagcagcccca   1104               ABCA1   104   exon 17 + 2473   gcttcaatctcaccacttcg G/A tctccatgatgctgtttgac   1105               ABCA1   105   exon 18 + 2649   ggttccaaccagaagagaat A/G tcagaaagtaagtgctgttg   1106               ABCA1   106   intron 18 + 1730   tgaaagttcaagcgcagtgc C/G ctgtgtccttacactccact   1107               ABCA1   107   intron 19 + 426   aggaccttacagtgggtagt A/G tcaggaggggtcaggggctg   1108               ABCA1   108   intron 19 + 468   aaagcaccagcgttagcctc A/G gtggcttccagcacgattcc   1109               ABCA1   109   intron 20 + 876   ccctcctcatctaaagtgaa C/T acatggggctcatgtgcagg   1110               ABCA1   110   intron 22 + 118   catgggatactcttctgtta T/G cacagaagagataaagggca   1111               ABCA1   111   intron 22 + 560   aaagctttgccattctaggg G/A tcatagccatacagggtgaa   1112               ABCA1   112   intron 23 + 102   accccttttgccatgttgaa A/G ccaccatctccctgctctgt   1113               ABCA1   113   intron 23 + 287   gtcaaagaaaagagacttgt C/T aagaggtaagagccttggct   1114               ABCA1   114   intron 23 + 1063   acctttcaccctcaggaagc G/A aggctgttcacacggcacac   1115               ABCA1   115   intron 25 + 321   ctctttacttaagtacagtg T/G gaggaacagcggcatcagga   1116               ABCA1   116   intron 25 + 376   gttagaaattcagcaacttg G/C gcccagctcagacctactga   1117               ABCA1   117   intron 25 + 478   catacataggaaatgacaaa C/T gtttatggatggatagtcta   1118               ABCA1   118   intron 25 + 579   tcatttaattctcaaaaaaa G/T atgaaaaaatgaacactcag   1119               ABCA1   119   intron 27 + 153   aatggtaaaagccacttgtt C/T tttgcagcatcgtgcatgtg   1120               ABCA1   120   intron 28 + 1058   actatcatgggagataatga C/T tatggttgtccatgattgga   1121               ABCA1   121   intron 28 + 1317   caggacccagtgttctcagt C/T accctgaatgtgagcactat   1122               ABCA1   122   intron 30 + 372   tatatgatttttaggttttg T/C ttatcagcttcttcgctttt   1123               ABCA1   123   intron 30 + 506   ccttttaaaaagtaagcagt A/G gataaataaattcagtgaag   1124               ABCA1   124   intron 30 + 1033   ctggatttcatggtgccttt G/C attttccacatgaaggttgt   1125               ABCA1   125   exon 31 + 4281   tcttccctttgcagagacac G/A ccctgccaggcaggggagga   1126               ABCA1   126   intron 33 + 6269   gctccttgttactgatttc C/T gtcttttctctctgcctttt   1127               ABCA1   127   intron 33 + 719   taatagccctcatgctagaa G/A ggagccggagcctgtgtata   1128               ABCA1   128   intron 33 + 726   cctcatgctagaagggagcc G/A gagcctgtgtataaggccag   1129               ABCA1   129   intron 33 + 889   ctttcctcaatgtctcagct A/G tctaactgtgtgtgtaatca   1130               ABCA1   130   intron 33 + 1097   ctgtgcaccccactgtctgg G/C ttttaatgtcaggctgttct   1131               ABCA1   131   exon 35 + 4760   tatgacaggactggacacca G/A aaataatgtcaaggtaaacc   1132               ABCA1   132   intron 35 + 234   aacctatctaaacctcagtt T/C cctcatctgtgaaatggaga   1133               ABCA1   133   intron 37 + 411   aactctgtacattttatcag C/T agcttatccatccattgcaa   1134               ABCA1   134   intron 37 + 1224   caggcataggtgattcagag A/G tgaaaggtcaagtccctgaa   1135               ABCA1   135   intron 37 + 1720   aaattaaaattactctgact G/T ggaatccatcgttcagtaag   1136               ABCA1   136   intron 40 + 251   tgaaggtaaggaaaatagtg T/G tatttgcttggatccactgg   1137               ABCA1   137   intron 40 + 252   gaaggtaaggaaaatagtgt T/C atttgcttggatccactggc   1138               ABCA1   138   intron 40 + 319   agcactggaaaagtcaaacc A/G taactttgagaattaggtga   1139               ABCA1   139   intron 40 + 957   cttgttactcttttttcctt G/C tcatgggtgatagccatttg   1140               ABCA1   140   intron 41 + 146   tgatgtgggcatcccgcagc C/T ccctccctgcccatcctgga   1141               ABCA1   141   intron 42 + 239   cattggttttatatgcttac A/C tttatgtgttagttattaaa   1142               ABCA1   142   intron 42 + 321   aataaatggttgattttgag T/A ttgagtttcatagtccaaaa   1143               ABCA1   143   intron 42 + 322   ataaatggttgattttgagt T/C tgagtttcatagtccaaaaa   1144               ABCA1   144   intron 42 + 533   agatgaaaaattatgtagat G/A ataatgaatgatacggttct   1145               ABCA1   145   intron 42 + 546   tgtagatgataatgaatgat A/G cggttctaaaaagacaggtt   1146               ABCA1   146   intron 43 + 739   tacagccacacttaaaatgg T/A cccattatgaaatacatatt   1147               ABCA1   147   intron 44 + 18   taggtgagaaaagaagtggc T/C tgtattttgctgcaaagact   1148               ABCA1   148   intron 44 + 264   acaatataatttgcttgttt T/C ttaagagtataatttagtga   1149               ABCA1   149   intron 44 + 279   tgttttttaagagtataatt T/C agtgatttttggtaaattga   1150               ABCA1   150   intron 44 + 508   tttacattgctacataaaat C/T cccctatgtacatgtaccta   1151               ABCA1   151   intron 44 + 1477   aatctcctctcctgtctctt A/T catttttgcagtagcaatgt   1152               ABCA1   152   intron 44 + 1665   tggttgtaagaactgatttg G/A ttggtatagctgtgagggcc   1153               ABCA1   153   intron 44 + 1956   gtgttgctcacactcaaaat T/G tctgggccttctcatttggt   1154               ABCA1   154   intron 45 + 68   aatatataccttatggcttt T/C ccacacgcattgacttcagg   1155               ABCA1   155   intron 46 + 608   ttatactgacttcaatagag G/C tttcagacaaaaagttgttt   1156               ABCA1   156   intron 47 + 336   ttcacaattgtaaacaccac T/C acactgaacagcatcatccc   1157               ABCA1   157   intron 49 + 55   agggtgtggattcctgcccc G/C acactcccgcccataggtcc   1158               ABCA1   158   3′UTR (exon 50) + 7949   aacaaaaatgtgggtgtctc C/T aggcacgggaaacttggttc   1159               ABCA1   159   3′UTR (exon 50) + 8226   aggagcccactgtaacaata C/T tgggcagccttttttttttt   1160               ABCA1   160   3′UTR (exon 50)+ 8682   aacttcttccactttttcca 0/A aatttgaatattaacgctaa   1181               ABCA1   161   3′UTR (exon 50) + 8697   ttccagaatttgaatattaa C/T gctaaaggtgtaagacttca   1162               ABCA1   162   3′UTR (exon 50)+ 9097   aactattttgaagaaaacac A/G acattttaatacagattgaa   1163               ABCA1   163   5′flanking − (1033-1032)   tgacttaaatatttagacat (AT) ggtgtgtaggcctgcattcc   1164               ABCA1   163   5′flanking − (1033-1032)   tgacttaaatatttagacat     ggtgtgtaggcctgcattcc   1165               ABCA1   164   intron 5 + 6368   ttctgatggggttgttgctg C/Δ tgagaatcatgactgggtgg   1166               ABCA1   165   intron 5 + 9709   cattttctgtctgaaccccc T/Δ cacccattcaggcagctgct   1167               ABCA1   166   intron 5 + 13816   tccctacttctccttttttt T/Δ catttgcctcctccacccac   1168               ABCA1   167   intron 10 + (270-271)   cttttcagggaggagccaaa (G) cgctcattgtctgtgcttct   1169               ABCA1   167   intron 10 + (270-271)   cttttcagggaggagccaaa     cgctcattgtctgtgcttct   1170               ABCA1   168   intron 20 + (611-612)   tttagcccatcctctccccc (C) gccaccctccttattgaggc   1171               ABCA1   168   intron 20 + (611-612)   tttagcccatcctctccccc     gccaccctccttattgaggc   1172               ABCA1   169   intron 32 + (391-392)   gagtgccttgggtactctct (T) gatgggggactccatgataa   1173               ABCA1   169   intron 32 + (391-392)   qagtgccttgggtactctct     gatgggggactccatgataa   1174               ABCA1   170   intron 37 + 847   gctgtatattgtgaatgtcc C/Δ gttttcaaaagcaaagccaa   1175               COMT   1   5′flanking − 1287   cgtatgatattccccattct G/A agtccagaatacctagaaat   1176               COMT   2   5′flanking − 1217   tgtgagtatgggaaggggaa G/A cttttctgtctgttgtcccc   1177               COMT   3   5′flanking − 503   caggggctccaggaggacga G/A tgtgtatcctcccattgctc   1178               COMT   4   5′flanking − 425   gagaagttgggaagtctggc C/T agtggggccggtgcctggtg   1179               COMT   5   5′flanking − 277   cccagccccagtttccccac C/T tgggaagggggctacttgtg   1180               COMT   6   intron 1 + 12058   ctggcccatggaagggaggg G/A agggggccccgacggggcca   1181               COMT   7   intron 1 + 12070   agggaggggagggggccccg A/G cggggccacagtaaaggagt   1182               COMT   8   intron 1 + 18831   tgtgtatgttcttggtaaac C/T agcccttggtcttacacatc   1183               COMT   9   intron 2 + 832   cctctcctttggccacccgt G/C actacccccaactccgggcc   1184               COMT   10   intron 3 + 90   ggagaagctgttatcacccc A/G tttccagggggctgggaacc   1185               COMT   11   intron 3 + 425   ccccaaggtgggcggttcgg T/G gattcagagagggcagctct   1186               COMT   12   intron 3 + 671   ggctcctgctctttgggaga G/A gtggggggccgtgcctgggg   1187               COMT   13   intron 3 + 676   ctgctctttgggagaggtgg G/T gggccgtgcctggggatcca   1188               COMT   14   intron 5 + 75   tcagcctcagcctctccaaa G/C agccaggcattccagtagag   1189               COMT   15   intron 5 + 310   accagacaccagggcagaaa C/T ggcacaggaccaaggagatg   1190               COMT   16   intron 5 + 346   agatggggtggggaagggcc G/A ctctgggcccagcctgctct   1191               COMT   17   intron 5 + 3023   aaggcagccgccctgctcaa G/A gcctaggccattgtcctcct   1192               HNMT   1   5′flanking − 211   cagaggcagatgacagtctt C/T cgttaaagatttcactgctg   1193               HNMT   2   intron 1 + 5409   aatataactgatataattgg A/G acatttcatgttggcctagt   1194               HNMT   3   intron 2 + 2561   cacttgtgcttggacaagaa A/G agaaggcctacaagaaaaag   1195               HNMT   4   intron 2 + 2895   caatcagaaatgtaagaaaa A/C ctccaagaaaaatttaagtt   1196               HNMT   5   intron 2 + 3977   accaaacttggaagtgtaaa C/A ttatgcatgtatgttcatgt   1197               HNMT   6   intron 2 + 5296   ttaacatagtgagtttggag T/C cccaggattttattttcctt   1198               HNMT   7   intron 2 + 13317   caaccctcatgaattcttag C/T tgggatgggtccctataaca   1199               HNMT   8   intron 2 + 14682   gtagatgagcaaatgagttc A/Δ ggagagatttaaatacccta   1200               HNMT   9   intron 2 + 15406   gtctatgcattcatgcatcc C/A tctaaccagctgtctaccta   1201               HNMT   10   intron 2 + 28943   atgtgacttaaacttcaggt A/C tatcaatatcccttgaatgt   1202               HNMT   11   intron 4 + 49   cagaaagaagacttttcaga A/G tatatatataatgaatatct   1203               HNMT   12   intron 4 + (1942-1943)   tttgagaaaaatttaaggta (A) tcttctatggcccacttcca   1204               HNMT   12   intron 4 + (1942-1943)   tttgagaaaaatttaaggta     tcttctatggcccacttcca   1205               HNMT   13   intron 4 + 2405   ccctgtgaccaagcagataa C/A ctcatgctttatttagtcca   1206               HNMT   14   intron 5 + (80-81)   cctgtgtttgaaagaagctt (TT) atatattttgtcttcattat   1207               HNMT   14   intron 5 + (80-81)   cctgtgtttgaaagaagctt     atatattttgtcttcattat   1208               HNMT   15   intron 5 + 235   ctttcttttgggaaaatatg T/C ctttgtcttctatatatgaa   1209               HNMT   16   intron 5 + (702-703)   tacttacaggttgattttag (AT) acacagcagactctgtcttc   1210               HNMT   16   intron 5 + (702-703)   tacttacaggttgattttag     acacagcagactctgtcttc   1211               HNMT   17   intron 5 + 749   ttacaccagaccccatactt T/C aacaccatatgtcacaaaat   1212               HNMT   18   intron 5 + 1101   gtaggcagcctattcttgat T/C atattcatcaatcatacaga   1213               HNMT   19   intron 5 + 1137   acagaaaaagtattgtagac G/A gaaataacaattcattgaga   1214               HNMT   20   intron 5 + 1348   aagggagcatgaatagtcca C/C aagtaactgagaactgatta   1215               HNMT   21   intron 5 + 1673   caaaagaaagggagtaaaga C/G tcaacaatcagttagctttt   1216               HNMT   22   intron 5 + 2022   attttatttggggctttcta C/T gtctctctctcctaagccta   1217               HNMT   23   intron 5 + 2285   tgtcatacttaactcttaaa G/C atccagagtaaatgatggag   1218               HNMT   24   intron 5 + 4159   taccagttgacccagcaacc C/T tcttatagagtagtttaaat   1219               HNMT   25   intron 5 + 4501   aatgatccacaaaattacta C/C tcattgttttctttcaatga   1220               HNMT   26   intron 5 + 5251   cacacacacacacacacaca C/C caaatggaagcagccagaca   1221               HNMT   27   intron 5 + 5802   gaaaaagaaaatctggctta C/T atcatgttgaaaacaaaagt   1222               HNMT   28   intron 5 + 6189   tccaattccaccttctccta C/c agcatatcctgcagttacct   1223               HNMT   29   intron 5 + 6297   gtcttggttcatctcttgag T/A taaattagatctgggaactt   1224               HNMT   30   3′flanking + 458   tatgtcactctcaagaactc C/T tataagaccaagaqtcatct   1225               HNMT   31   3′flanking + 993   ctgaaaatgaacactgaacc C/A ttaatcatactgatatgtac   1226               HNMT   32   3′flanking + 1793   gtggagcacagcattttagg C/A cttgatatttgcttattata   1227               GAMT   3   intron 5 + 1411   ggtgacctggtgccatcccc C/A accaggagacgcaggtgccc   1228               PNMT   2   intron 1 + 35   ctgaggcacgagggacaaga C/T gtcgtcggggagtgaaagca   1229               CYP1A1   1   intron 1 + 1590   ccactcttcaaaaggaggta C/T atgtgacagcagctggaaat   1230               CYP1A1   2   exon 2 + 160   gaatccaccagggccatggg C/A ctggcctctgattgggcaca   1231               CYP1A2   1   5′flanking − 731   gcctgggctaggtgtagggg T/C cctgagttccgggctttgct   1232               CYP1A2   2   intron 1 + 371   cttccctgtgttcacactaa C/T cttttccttctttgaaattg   1233               CYP1A2   3   intron 3 + 44   atagccaggagaagccttga C/A acccaggttgtttgttcagt   1234               CYP1A2   4   intron 3 + 44   tccctgctaggaactgttta T/C ataatgaaaggaggggacct   1235               CYP1A2   5   exon 6 + 181   ctggccatcctgctacagca A/T ctggagttcagcgtgccgcc   1236               CYP1A2   6   exon 6 + 295   cggctgcgcttctccatcaa C/T tgaagaagacaccaccattc   1237               CYP1A1   1   5′flanking − 3669   tgtatcctgtgaagcatcac C/A gttatccttctctgcacatg   1238               CYP1B1   2   5′flanking − 3149   tgacagcacttaccaaccta G/C ttcctctgatttttgagtca   1239               CYP1B1   3   5′flanking − 1222   gggggaagccacccccgccc C/A agcgcctccggcttccctta   1240               CYP1B1   4   5′flanking − 376   ttccgggaagcaagctcaag T/C cgcggagagggaagggaggt   1241               CYP1B1   5   5′flanking − 265   ctggggacaccgtgcggcct C/T gattggaggtggctgtgatg   1242               CYP1B1   6   intron 1 + 129   tgcccgcagcgttgtcccca C/A attgcaggaaccgttacgcg   1243               CYP1B1   7   intron1 + 379   tgagtgtcacgccttctcct C/T tctgtccccagcatgggcac   1244               CYP1B1   8   exon 3 + (799-800)   agcttctgggagattttttt (T) gagtcaaagacttaaagggc   1245               CYP1B1   8   exon 3 + (799-800)   agcttctgggagattttttt     gagtcaaagacttaaagggc   1246               CYP1B1   9   exon 3 + 1284   agtatagtggggttccatga C/T ttatcatgaattttaaagta   1247               CYP1B1   10   3′flanking + 2226   tttctttttctttttttttt T/Δ aaaatttattcctatttcct   1248               CYP1B1   11   3′flanking + (2226-2227)   ttctttttcttttttttttt (T) aaaatttattcctatttcct   1249               CYP1B1   11   3′flanking + (2226-2227)   ttctttttcttttttttttt     aaaatttattcctatttcct   1250               CYP1B1   12   3′flanking + 2230   tttttctttttttttttaaa A/Δ tttattcctatttccttaca   1251               PEMT   90   intron 1 + (297-299)   attgtgtgagactcaqaggt TGT/Δ ccgtgttagtctttgggatt   1252               PEMT   91   intron 1 + 817   tcatgaagcctgtaaggcac A/C tctctgccccaagcagcttc   1253               PEMT   92   intron 1 + 830   aaggcacatctctgccccaa C/A cagcttctaatccagttctt   1254               PEMT   93   intron 1 + 1035   gagttctctgaaggagctaa T/C accagttagtgttttgaaga   1255               PEMT   94   intron 1 + 1573   agtgggcaggggagactaac C/T gggtgtytgaggggtgggct   1256               PEMT   95   intron 1 + 1759   gatttttcttaaagaaagaa A/C gaaagaaacatacaacatac   1257               PEMT   96   intron 1 + 2768   gcatcttgctgtccacaggc C/A ggggcacctccaggattcag   1258               PEMT   97   intron 1 + 2785   ggccggggcacctccaggat T/C cagaagatgactccagtagg   1259               PEMT   98   intron 2 + 4598   ccgtgggttttttttttttt T/Δ cttcatttctttggttgctg   1260               NAT2   21   exon 2 + 288   atgttaggagggtattttta C/T atccctccagttaacaaata   1261               NAT2   22   5′flank − 2053   ctggattgcaacattttaat T/C ccaggtgtcaggtttccaac   1262               NAT2   23   5′flank − 1299   gaatcaccagtgcgggaggt A/C taacagtgaacccaagacac   1263               NAT2   24   5′flank − 1145   ctgtagaacacaaggatatt C/T ggaggcagtttgtacatgcc   1264               NAT2   25   5′flank − 1036   ccttcccacagagtcccgag T/A tcatgtggcagcatgccaga   1265               NAT2   26   5′flank − 94   aaagatttgctaagagattc C/A cagaggcaacctgaggccct   1266               NAT2   27   5′flank − 643   atgtttatattttatattaa T/C attaatgtaaataaaaattt   1267               AADA   1   5′UTR + 29   attaaagtacactattcagg C/T atatcatgtaggtttacttt   1268               AADA   2   intron 1 + 138   gctgtggcctttgacaatgt C/A ttacttagaaatgttgtttg   1269               AADA   3   intron 1 + 142   tggcctttgacaatgtgtta C/T ttagaaatgttgtttgtttt   1270               AADA   4   intron 1 + 1033   ttccagcagagacaccaaca A/C gtaaaaacaccccagctaca   1271               AADA   5   intron 1 + 1253   tttttttccctcatatttgc T/C gtctgtgctacaatatgtga   1272               AADA   6   intron 1 + 1366   ctctggtagccttttaatta A/G ttaattcattcatttactta   1273               AADA   7   intron 1 + 1369   tggtagccttttaattaatt A/C attcattcatttacttacat   1274               AADA   8   intron 1 + 2501   ggttacagaaagaatggtgg C/A ttggccaaaaaatgatatgg   1275               AADA   9   intron 2 + 1971   aaatgagagttaagtaggag A/C attttcttttatttttgtgc   1276               AADA   10   intron 2 + 1988   gagaattttcttttattttt A/G tgcaggagaaatataaacaa   1277               AADA   11   intron 2 + 2341   aggtgccttttctattgtcc C/T atgcagacttaggtgatcct   1278               AADA   12   intron 2 + 2546   gtctgacacagaaggatcaa T/A ggcaaaatgtgcaagacaaa   1279               AADA   13   intron 2 + 2609   taggaggttcactgggaaac T/C tgaattccactgagtcatga   1280               AADA   14   intron 2 + 2663   tataaatacagtgttaaatt T/C gtctctcgtattttaaggta   1281               AADA   15   intron 4 + 605   tgtgtcagtaaaatattata T/C taagtaggtgaatgagatca   1282               AADA   18   intron 4 + 621   tatattaagtaggtgaatga G/T atcatgtaattgtgagacta   1283               AADA   17   intron 4 + 679   ttagagattcagacgaattc A/G tataatcttcgatggtgtat   1284               AADA   18   intron 4 + 1680   gttaaaatgtggataaatac C/T acaatttgcaaaatatttgg   1285               AADA   19   intron 4 + 1748   atttagaagttctatacatc T/C tttatagtatattacacact   1286               AADA   20   intron 4 + 1771   tatagtatattacacacttc G/A aaaacacaaaattatttttt   1287               AADA   21   exon 5 + 238   caagtcatctcttcaaattt A/G ttaattggagttccctgctc   1288               AADA   22   3′UTR + 121   ttagaaattggtctttctta A/G aatggtctagttaagttcca   1289               NTE   1   5′flanking − 535   cacgatctgtcctccgattc C/T tgttaactctagactttctg   1290               NTE   2   5′flanking − 15   gtaaatccccggcaaaaacc A/G gcagcgccttgcaagcccac   1291               NTE   3   5′flanking − 748   agcatggcgcggggaggagg G/T gtgggagggtcgggagggac   1292               NTE   4   5′flanking − 690   tgaataatttaaaggggccg T/C gcctgcggagccgggcggaa   1293               NTE   5   intron 6 + 605   tcttgccatatacttagtgg A/G ggggtctacatcaggggttt   1294               NTE   6   intron 6 + 748   agcctccagcctctcttctc C/T gggggttatctcaggcatct   1295               NTE   7   intron 6 + 987   ggtgctggctctgggatccc C/T gtgcgtcatgtagtctacct   1296               NTE   8   intron 6 + 1882   tggcctcaagcaatcctccc G/A cctcggcctcccaaagtgct   1297               NTE   9   intron 6 + 2222   gaatgtttatgtagaacaga G/A agactgtatctgcggtcttc   1298               NTE   10   intron 12 + 166   tatctggtaccgaggaagct C/G tggcctcgtccccaagggcc   1299               NTE   11   intron 13 + 69   atccaggtccaccgcctgcc C/T gtcttgattgttttaatctg   1300               NTE   12   intron 14 + 8   agcccccgctcgggtaaggc C/T tgggaccctgcccggtggtg   1301               NTE   13   intron 16 − 113   gccaccgcgccctgcgcctt T/C atatttttcttaacccttcc   1302               NTE   14   intron 21 + 34   agagccggccggcccagagc A/G tgctgggagatgtagtccgg   1303               NTE   15   intron 21 + 128   gaagaaatcgtgcccctgag G/A gtttcaaaccctaagtagga   1304               NTE   16   intron 21 + 151   ttcaaaccctaagtaggacc C/G aggtgcagagcattctgggg   1305               NTE   17   intron 21 + 651   ccactgtactccagccggga C/T gacagagctagaacctgttt   1306               NTE   18   intron 21 + 737   tggaaaatagtctgtggatt G/T ttgtttaggactctgggcac   1307               NTE   19   intron 21 + 1752   acagctggtctaggctgtta G/C tggagaaactgggaagcaac   1308               NTE   20   intron 21 + 1788   gaagcaacagctgggtcaaa A/Δ gtagcttttcttttcttggc   1309               NTE   21   intron 21 + 1907   cactgcaacctctgcctccc A/G ggttcaagtgattctcctgc   1310               NTE   22   intron 21 + 2065   ctgcctcgttttatgttcag G/T tcccccattagacagaggaa   1311               NTE   23   intron 21 + 2336   agtctgggagcacaggagca G/A gaatttcagataaggaggaa   1312               NTE   24   intron 23 + 41   tggggagggtggtgggtggg G/C ctggagcctcaaattctttc   1313               NTE   25   intron 23 + 71   caaattctttcagacctgag T/C tcaagttctcggcttccaac   1314               NTE   26   intron 23 + 81   cagacctgagttcaagttct C/T ggcttccaaccacggagcct   1315               NTE   27   intron 24 + 150   gtggggcggctggtgacctc A/C gccgtccgtattccgcagct   1316               NTE   28   intron 29 + 37   gcctgcagcaaccgctgacg T/C cacgtggggttggggggatg   1317               NTE   29   intron 29 + 370   cgtcccaggtcagcgagccc G/A tcgggccggctgggcctccg   1318               NTE   30   intron 30 + 56   acctcccgcaccacacacac G/A cacacgcgtgggcacacaca   1319               NTE   31   intron 30 + 358   aaaaatacaaaaaattaacc A/G ggctggtggggtgtgcctgt   1320               NTE   32   intron 30 + 372   ttaaccaggctggtggggtg T/C gcctgtaatcccagctactc   1321               NTE   33   intron 30 + 430   aaatcacttgaacctgggag G/T tggaggttgcagtgagctga   1322               NTE   34   intron 30 + 655   gtgtgcacaccagctatata T/C gcaaatgctttctctcaggg   1323               NTE   35   intron 30 + 659   gcacaccagctatatatgca A/C atgctttctctcaggggcag   1324               NTE   36   intron 30 + 760   tgaaatagggcatttgccaa C/T gcatgccagtctgtcccgtt   1325               NTE   37   intron 30 + 835   gcacacacgtagataggatg T/C ggcacctctgaccgagttaa   1326               NTE   38   intron 31 + 40   tggtgcctgcataggtggtc T/C ggctaagctttgctacttaa   1327               NTE   39   intron 31 + 41   ggtgcctgcataggtggtct G/A gctaagctttgctacttaaa   1328               NTE   40   intron 31 + 1329   gtctgtcaagggcaggacag G/A ggatgtgtaggcgagtgtgc   1329               NTE   41   intron 35 + 31   aatggcttcctgtcgttttc G/A gactggggacccaccttctg   1330               DDOST   8   intron 2 + 1299   atcttctgatgactgggctt C/T ggtgcagtaactggtgtttg   1331               DDOST   9   intron 2 + 1581   gatactgttggtgggagaaa T/C gacagagagtgtaaaacagt   1332               DDOST   10   intron 2 + 2822   gtttctcaacaggtgcattc T/G tgacgtttcagactggataa   1333               DDOST   11   intron 2 + 3392   cagaaggcgtggaggcctgc C/T gcgcctccctctgttgctgc   1334               DDOST   12   intron 5 + 495   attgcttgaacccaggaggc G/A gaggttgcagtgagccaagg   1335               DDOST   13   intron 6 + 226   ggaactgcttgggtcacagc C/T tcgttttgttcccagtatcc   1336               DDOST   14   intron 8 + 303   aagagaaataggtcattagg A/T tgaatttgttaggcaagaga   1337               DOOST   15   3′flanking + 40   cacagcgtggagacggggca G/A ggaggggggttattaggatt   1338               MRP2   1   exon 1 + 77   catattaatagaagagtctt C/T gttccagacgcagtccagga   1339               MRP2   2   intron 2 + 192   atcaaagtggctttgatttt T/G gcataagaatggtgactctt   1340               MRP2   3   intron 1 + 413   gataagttctagaactggca A/C ctaatgatatggactagaag   1341               MRP2   4   intron 2 + 3639   gtcatatcccacccccaaat C/A gacccaataggtacaatgaa   1342               MRP2   5   intron 2 + 3989   agttatgaaaccgatttttc C/T gggactggttgttctagtct   1343               MRP2   6   intron 2 + 4078   aggtttccagatgtgttccc T/C aggcattcctggtggtagga   1344               MRP2   7   intron 2 + 4171   cttattctttggtcagttgg C/T tttctaccacctcttagctt   1345               MRP2   8   intron 2 + 5373   gttaaggatatgtgaactca A/G aatttttatacacagtgcaa   1346               MRP2   9   intron 2 + 4436   ggactagtggaagaattaga C/G ctttcctgaataaatagatc   1347               MRP2   10   intron 2 + 3930   aaaactggcaggagaatttc A/G ctggagctgcatgcaggact   1348               MRP2   11   intron 2 + 4257   qggtattggaaagttcttgc G/A gctgctggaggctgcggtgt   1349               MRP2   12   intron 3 + 772   ggtataaggcaagatttttt A/T aaaaaattaattgcttaatc   1350               MRP2   13   intron 7 + 1658   ggactcttaccagcttagtt G/T cctggttttctaatctaaaa   1351               MRP2   14   exon 10 + 40   tggccaggaaggagtacacc G/A ttggagaaacagtyaacctg   1352               MRP2   15   intron 11 + 1672   aactttttaagtcttaagac T/A ggaaggcctgtgtcctaggc   1353               MRP2   16   intron 12 + 148   ccctctcaccgccccatgcc A/G cttttcctcctttgtaccat   1354               MRP2   17   intron 2 + 1020   agtgctgcgattacaagcct G/C agccacctgcacagcctctg   1355               MRP2   18   intron 2 + 5227   taccataatttatgtgtcct A/G tatgacatgaatttcattgg   1356               MRP2   19   intron 2 + 5373   gttaaggatatgtgaactca A/G aatttttatacacagtgcaa   1357               MRP2   20   intron 2 + 5538   ttaatgaggttaagcacatg G/T tcatatgtttaaaagccttt   1358               MRP2   21   intron 13 + 180   catgagttttctgagcccca G/C tttatctaactataaaatga   1359               MRP2   22   intron 13 + 1497   gtgcagggtccccctgatgc T/C atagccagttcctctttaga   1360               MRP2   23   intron 15 + 169   atgagctgaaagcaaaggtt T/C tcagccccttcccctgataa   1361               MRP2   24   intron 15 + 949   ttccaggtgacacatttagt A/G cctaatttgggaaatgttaa   1362               MRP2   25   intron 15 + 984   tgttaatctagtccaatccc A/C ttagtaagaaagyaggggtc   1363               MRP2   26   intron 16 + 4059   catcctgatgcacagttatt C/T aaatttaagctccatttgtt   1364               MRP2   27   intron 19 + 10899   atgtatggagtatttatgga G/A taaagtattccatgctgtat   1365               MRP2   28   exon 22 + 51   caagcaataggattgttttc G/A atattcttcatcatccttgc   1366               MRP2   29   intron 23 + 56   tatactgaggatctttctga C/T agggaggaattattatgtcc   1367               MRP2   30   intron 23 + 734   tgagccaactactgtactag G/A cactggggcactcaatgaat   1368               MRP2   31   intron 23 + 801   atgggccagacccaactcac T/G gattttttagtgtatctgag   1369               MRP2   32   intron 27 + 124   gggtccctaaagtttccttt C/G ctctaactcaaaggacctaa   1370               MRP2   33   exon 28 + 52   cagattggcccagcaaaggc A/C agatccagtttaacaactac   1371               MRP2   34   exon 28 + 84   aacaactaccaagtgcggta C/T cgacctgagctggatctggt   1372               MRP2   35   exon 28 + 129   agagggatcacttgtgacat C/T ggtagcatggagaaggtagg   1373               MRP2   36   intron 29 + 154   ttccctaggatggacacgtc A/G tttccagaactttgaaatgt   1374               MRP2   37   intron 30 + 91   gtgttaggtgatgcctggca T/C agaattttcatccaggtctg   1375               MRP2   38   intron 31 + 170   gccaaaattttacatcacgc A/G aatgaaaacgaacaaggtta   1376               MRP2   39   intron 26 + 154   ctggctccatcttttaccca T/C ggacgtattccttactcttc   1377               MRP2   40   3− flanking + 739   gtgaatttttattataagct C/T gttctccttaaaactttatc   1378               MRP2   41   intron 3 + 1145   acatccttctcccctcagtc C/T tcggttagtggcagtattct   1379               MRP2   42   intron 23 + 432   tggcagtagagcagggtgag G/A aggattattctgcagaggaa   1380               ABCB1   1   5′flanking − 196   gctttggagccatagtcatg T/C actcaaaatttattttatct   1381               ABCB1   2   5′flanking − 16   tactctttacctgtgaagag T/C agaacatgaagaaatctact   1382               ABCB1   3   intron 1 + 71660   cttgctggaggaagggtgct A/C gaaaatataccaaatccaag   1383               ABCB1   4   intron 1 + 80091   gaaataatattcaagttctg A/C aataatatcatgacctatag   1384               ABCB1   5   intron 1 + 103126   gatatgaatcagaattcatc T/C gtgtctcaagaaaaggtcat   1385               ABCB1   6   intron 1 + 103148   tgtctcaagaaaaggtcatg C/T gataaattaagttctgctag   1386               ABCB1   7   intron 1 + 108428   aattaatttatcatcatctg A/G tcaccatttcacacaactca   1387               ABCB1   8   intron 1 + 112042   cataagttgaaatgtcccca A/G tgattcagctgatgcgcgtt   1388               ABCB1   9   intron 2 + 491   cctctctggcttcgacgggg G/Δ actagagqttagtctcacct   1389               ABCB1   10   intron 4 + 36   attaactattcaaaatactt C/T ggaaatttgacatctcctta   1390               ABCB1   11   intron 5 + 1596   ttagctctcttactgcttca T/C agtggaagaatcaaatactt   1391               ABCB1   12   intron 8 + 1789   aaacactctgaatattaaac C/T gctcctggaaccacagctca   1392               ABCB1   13   intron 14 + 24   agttgtccttgccctttgcc T/C ttctagaggtgcaaaaaata   1393               ABCB1   14   intron 14 + 81   tgcaggaagttaggaaacta C/T tataaatcggaagaagggaa   1394               ABCB1   15   intron 15 + 38   caaaccaacctgatttataa A/G cataagaacattctactact   1395               ABCB1   16   intron 17 + 73   gtttggtgggctagggctac A/G gtaggagtgggaacaagaga   1396               ABCB1   17   intron 18 + 564   caacagtaaagttacaatct G/A aaaggaatgetctctgttta   1397               ABCB1   18   intron 18 + 2062   tttccctgaggaatggttat C/T ctctgtgttccttgagtcca   1398               ABCB1   19    intron 18 + 2293   ccacatcaggttttccccag A/G caccttgggacagtttgaaa   1399               ABCB1   20   intron 20 + 557   aaaaccctaaccattgacac G/A tgtgaatgttttcctgggga   1400               ABCB1   21   intron 21 + 24   cgtgcctcctttctactggt G/A tttgtcttaattggccattt   1401               ABCB1   22   intron 21 + 2725   ctgacctgtttttggctgac A/G ggttttagttcctcccctca   1402               ABCB1   23   intron 21 + 4725   tcttggtattaaaagatcca A/G agagataggaatatgtaatt   1403               ABCB1   24   intron 22 + 8507   tgcacttaggaaaaaaacaa T/C atggaaatgtgtaaaatata   1404               ABCB1   25   intron 22 + 8537   tgtaaaatatactttttttt T/A aaaaaaaaggacacatttat   1405               ABCB1   26   intron 22 + 8565   aggacacatttattcagcat T/C atgatcagactattacattt   1406               ABCB1   27   intron 22 + 8952   caccttggtttcatggtttg G/A caaagtactggcctgtacca   1407               ABCB1   28   intron 22 + 9520   caccaacaaatatctttttc A/G cagttgggtgggcatctggt   1408               ABCB1   29   intron 22 + 9836   agactctgacttagacatga C/T ggcaggggaaagagagactt   1409               ABCB1   30   intron 24 + 377   taaaatacagatgtgttgta C/A taagttctgcaagcctttgg   1410               ABCB1   31   intron 24 + 1493   ggggaggtgtccaggcacga A/Δ catggagagctggacttgat   1411               ABCB1   32   intron 24 + 1495   ggaggtgtccaggcacgaac A/T tggagagctggacttgatac   1412               ABCB1   33   intron 25 + 342   tgcagccttgatcttctggg C/T tcaagcgatcctcctgcctc   1413               ABCB1   34   intron 28 + 134   cttggataaagtctgagagc C/G taaatatggtctccaagtgg   1414               ABCB1   35   intron 26 + 1272   gtccttcaattttgtggtga A/G cttaaaaacaggactctaaa   1415               ABCB1   36   intron 26 + 1394   tattaagtggtgtgttaaag A/G ttgtgctataatgaattgta   1416               ABCB1   37   intron 26 + (1987-1988)   aagggctggaagagtgaaag (AAAG) gaggctatttgctcccagac   1417               ABCB1   37   intron 26 + (1987-1988)   aagggctggaagagtgaaag     gaggctatttgctcccagac   1418               ABCB1   38   intron 27 + 59   gcagcctctctggcctatag G/T ttgatttataaggggctggt   1419               ABCB1   39   intron 27 + 80   ttgatttataaggggctggt T/C tcccagaagtgaagagaaat   1420               ABCB3   1   intron 3 + 8   tctcctttggcaggtaggtg G/A tgggcagctgggtccatttg   1421               ADCB3   2   intron 4 + 104   cttcacccgtatyccaggac C/T tggggatgcttttctcttgt   1422               ABCB3   3   intron 10 + 219   gcagcagtggtgctccctcc A/G tgggcagccccgtcaggtcc   1423               ABCB3   4   intron 11 + (317-319)   atggtgcccaggtggatgtg GTG/Δ tccatctcattcctgtcttt   1424               ABCB3   5   exon 12 + 19   agctgcaggactggaattcc T/C gtggggatcgcacagtgctg   1425               ABCB3   6   exon 12 + (356-357)   aggtggggtggggtggggtg GG/TGGTGGGGTGGA ggctg   1426                   tctgtgtccaggaaa               ABCB7   1   intron 1 + 220   acggggcaggaggttctggg C/A agaggacacctggagcgctg   1427               ABCB7   2   intron 1 + 480   agttaactcccttgctgaca G/A gcgtgcttcttgataggcca   1428               ABCB7   3   intron 1 + (512-513)   gataggccaaaaccgtaact AT/Δ ctttccaaaacatagaccgc   1429               ABCB7   4   intron 1 + 1690   agttctccaataaggcagat G/A aagttaagataaaatttgta   1430               ABCB7   5   intron 1 + 5309   aattaatatcatttattgct G/A tattgttgtcagtgttatct   1431               ABCB7   6   intron 1 − 11274   tgcttcttttcaagccagcc A/G gctttaaaaaaaagttagct   1432               ABCB7   7   intron 1 − 11085   caggttttcagggctcatgt A/G gacctgaagaaaaatgagag   1433               AHCB7   8   intron 1 − 10037   attctactttctcaacttct T/C ttattacattatctcatcat   1434               ABCB7   9   intron 1 − 21   ccactctgaaacttccccct G/A ctttttttccttgtcagcag   1435               ABCB7   10   intron 3 + (135-136)   ttctctaatgaaaaaaaaaa (A) catattaattgaccatagtt   1436               ABCB7   10   intron 3 + (135-136)   ttctctaatgaaaaaaaaaa     catattaattgaccatagtt   1437               ABCB7   11   intron 3 + 333   aaaacaatttgtgtgtgtgc G/A tgtgcttcaaggttaatgtt   1438               ABCB7   12   intron 12 + 524   taaccactctgccctcagta C/T gaaacacagtgccgaaccca   1439               ABCB7   13   intron 13 + 1543   atcctgtgaggtggggaagc G/A tatggctagcataaatataa   1440               ABCB7   14   intron 13 + 2400   tgttaccttactgcctcatt C/G tcattcttcccacctgctat   1441               ABCB7   15   intron 15 + 2201   ctccttcctaaccttagcaa G/C agtctggagatttacttatc   1442               ABCB8   1   5′flanking − 2272   ggcttaggcctaagggctga T/C gttggggccagtacccctga   1443               ABCB8   2   5′flanking − 2070   agctatgaaaacaagaccct G/A tccttctagaggtagcaaaa   1444               ABCB8   3   intron 1 + 25   aaacggaaaaacctactcag A/C gcgggccattgaccgcccgg   1445               ABCB8   4   exon 2 + 308   tgctggtcctgggggtagcc G/A tcgtggtgaggctttcccca   1446               ABCB8   5   intron 2 + 334   cccccacttaaaacacttgt C/G ccctctgtctccccattcca   1447               ABCB8   6   intron 4 + 12   cctgctccggtactgccagc C/T gcagggtgcagagttggggt   1448               ABCB8   7   intron 5 + 547   agttcatagcattctcgctc G/A gccccctcaggcctgctgct   1449               ABCB8   8   exon 7 + 57   agcaatgtgcggactgtgcg A/T gccttcgccatggagcaacg   1450               ABCB8   9   intron 9 + 1231   tttccgcagctgcatggaca C/T cctcgcgtgccccgtttctg   1451               ABCB8   10   intron 9 + 2164   cctcttggaggtccitctag C/T gctgcctatgtggagattct   1452               ABCB8   11   intron 9 + 2645   ttcctgcctggtgcctcccc C/Δ ggctgcctttagcaagtgct   1453               ABCB8   12   intron 9 + 2646   tcctgcctggtgcctccccc G/A gctgcctttagcaagtgctg   1454               ABCB8   13   intron 9 + 3229   cagggccgagcagggagtcc G/A tgggtcagctgggctccctt   1455               ABCB8   14   intron 12 + (113-114)   tcctccactgccacaagggg (GG) ccttctttcctgggacaatc   1456               ABCB8   14   intron 12 + (113-114)   tcctccactgccacaagggg     ccttctttcctgggacaatc   1457               ABCB8   15   intron 13 + 128   tgctctcgggagaccctggc C/T gtcttcacatgtcctcagct   1458               ABCB8   16   intron 13 + 305   atccaggtctagagaagcct A/G tagtggaggtgctgagctgc   1459               ABCB8   17   intron 14 + 135   acagttgtgtcagggaagac C/G agaaccacagccaaagggga   1460               ABCB8   18   intron 14 + 159   accacagccaaaggggacag A/T gtcgttgtgtggggacaggg   1461               ABCB8   19   intron 15 + 747   gttggagccttggyctctgt A/G agggggacagagggaatcat   1462               ABCB8   20   3′flanking + 333   cctatcccctggctcacccc G/A ggacccacagtccccatctt   1463               ABCB8   21   3′flanking + 1168   ccctctttcaggggtgtgat G/A cagtgcattgatggagcagc   1464               ABCB8   22   3′flanking + (1719-1721)   tagaccgcaggagccgcgcc GTC/Δ ttcctaacctcgcctcgqcc   1465               ABCB9   1   intron 1 + 69   agggtgccaggccaggcacg G/C gttggggggcgtctgggcac   1466               ABCB9   2   intron 1 + 8873   tgggcccagcacgtggggcc T/C ggaactacctcaaaggcttc   1467               ABCB9   3   intron 1 + 8940   accagctcagcctgcccagc G/A tgcacacggcaccaagctgg   1468               ABCB9   4   intron 1 + 11410   agatccaagggatccagagg T/C tggaatgtgaccctccgtgc   1469               ABCB9   5   intron 1 + 12863   gggaagccagatgcccacaa G/A gctctgtgacttcacttcca   1470               ABCB9   6   intron 1 + 19731   gccaagtgtcaagatcgagc G/A aggggagggcctgacgaggg   1471               ABCB9   7   intron 1 + 29649   cagaatccagatgcccgtaa T/C gttgttaagaagcctgcaca   1472               ABCB9   8   intron 1 + 31793   ggccaggcggggaggggtac C/T ggccagaccggtgggcaaaa   1473               ABCB9   9   intron 1 + 37537   agagtcacagggttggggtg C/A ccccgggaaggtggcatcta   1474               ABCB9   10   intron 1 + 38293   taccagccctgtgctttcag G/A gaccatgtgacctgtcaact   1475               ABCB9   11   intron 1 + 44661   cccgaggtgcctggcttcac A/G gcaggattgccgtcctgcag   1476               ABCB9   12   intron 1 + 49576   aaagtggccccgtggcttgt C/T ccctgaagccctaaagcacc   1477               ABCB9   13   intron 1 + 64669   ccacagacaagccgggtagc C/A cacctcgcagctcaacacac   1478               ABCB9   14   exon 2 + 448   cctggttttgggccctgttc G/A tgtggacgtacatttcactc   1479               ABCB9   15   intron 7 + 3364   ggtaccaggagtcgggtatc A/G gtgggacaggaacgcgtgtc   1480               ABCB9   16   intron 11 + 113   gggccccaggagctctccca G/T actatcagcctcctgggctg   1481               ABCB9   17   exon 12 + 370   cccaggcctgcagcactgaa A/G gacgacctgccatgtcccat   1482               ABCB10   1   5′flanking − 424   tcgcgtctgcgcgctccgcc C/T ggtctgccggcgtgagaaag   1483               ABCB10   2   exon 1 + 491   acaaggggcggttgcgcccc G/T cagcggccggactcccggag   1484               ABCB10   3   intron 1 + 37   ccacttccctccgccgggcc T/G ctccttctccacacgcgggg   1485               ABCB10   4   intron 1 + 217   actcgtttgcagattttaca C/T ttgttttcttgttgacacac   1486               ABCB10   5   intron 1 + 405   gcgtttatactttttttttt T/A aaccaaaaacacattatttg   1487               ABCB10   6   exon 3 + 185   agggccggggcccaggcttc C/T gtaggcatcagtatgatggt   1488               ABCB10   7   intron 6 + 1269   caaattcacaactgtgcctt C/G cacagaatgggttggaaaac   1489               ABCB10   8   intron 9 + 632   ccccactccacttgggtgag G/A gcaggtggatggtgatgggt   1490               ABCB10   9   intron 11 + 2373   tacctcagggcactcagaca G/C cctcaccaatcagaggctca   1491               ABCB10   10   intron 11 + 108   tccttttcctgttt~ttgtt T/G ttttttttttcttggagtgg   1492               ABCB10   11   intron 11 + 2379   cattggtttttagtgtattc T/A gtgttgtgcatccatcatca   1493               ABCB11   1   5′flanking − (2596-2595)   tgtggtttagagctttctct (TT) gagacatttttgctaaggtt   1494               ABCB11   1   5′flanking − (2596-2595)   tgtggtttagagctttctct     gagacatttttgctaaggtt   1495               ABCB11   2   5′flanking − 1746   agctgaagtgaattaagcac G/A atcaactcagtactcacact   1496               ABCB11   3   5′flanking − (326-314)   agggggaaagtttaaaggta (T) 9-12 gtcttgttatgtttttaagt   1497               ABCB11   4   5′flanking − 135   agagggtttcccaagcacac T/C ctgtgtttqgggttattgct   1498               ABCB11   5   intron 1 + 511   aaatatagatgcaaaaaaaa A/A tgagctgtggatgcatgttt   1499               ABCB11   6   intron 1 + 581   aatttcagttttiaggtcac C/T caagccagtgggagtcacat   1500               ABCB11   7   intron 1 + (1938-1951)   gaaagaaaagaaaactgtag   1501               ABCB11   8   intron 1 + 4517   ggtttcccaacatctcatct G/A ataaaaaaaataatttgcca   1502               ABCB11   9   intron 1 + 5651   aaagagaataggtcagtgga T/C tagtattcctgtgcttaatg   1503               ABCB11   10   intron 1 + (12200-12201)   aagagatggtctctaqcccc CT/Δ gtttgatttggggcacttac   1504               ABCB11   11   intron 1 + 13023   gtttggctactttgattaaa G/A aagaaagaagagataataat   1505               ABCB11   12   intron 2 + 739   cctgcatctattctgaccta C/T actggggaaaacagtatgtg   1506               ABCB11   13   intron 2 + (921-922)   tattttgtagttcaaaaagt (CAGATCTTCTTCAGCT   1507                   AATTTAGAAATGT) tgctgtccatttgatattca               ABCB11   13   intron 2 + (921-922)   tattttgtagttcaaaaagt   1508                   tgctg                   tccatttgatattca               ABCB11   14   intron 3 + 644   agccacacgtttcttattgc G/A tgggaagtttaaaaaatggg   1509               ABCB11   15   intron 3 + 2231   agtgaacctgagattgagct A/G tactgaaatctctagaagag   1510               ABCB11   16   intron 3 + 2406   aaagggtggtctttaaatcc T/C tatgtttttctcatcaggtt   1511               ABCB11   17   exon 4 + 10   tttctcatcaggttacaaga T/C gagaagaaaggtgatggcgt   1512               ABCB11   18   intron 4 + 434   acaatttatagtatttctca A/G tgccccacacagtttatcta   1513               ABCB11   19   intron 4 + 518   gtagatgagtagctaaaaac G/T aaagtcagctcctgaaataa   1514               ABCB11   20   exon 5 + 120   ggcacaatgacagatgtttt T/C attgactacgacgttgagtt   1515               ABCB11   21   intron 5 + 320   gggaggtgacccatgaattt T/C acttgagtatcatctccaag   1516               ABCB11   22   intron 5 + 16076   agaagaggtaacagtaagcc T/G cctgatttacagcacacatc   1517               ABCB11   23   intron 6 + 303   atttgcaggtgtgtttgtag G/C gggcagttgagtagcttgaa   1518               ABCB11   24   intron 7 + 1141   aaagqattcagcaggcatga A/G gaaagaaaagctttgcaaga   1519               ABCB11   25   intron 8 + 2463   ccattggctaatagcaatga A/C ctatgacatggtctaactta   1520               ABCB11   26   intron 8 + 2677   tcaatgatgttacagtqaga A/C tctaatattgtattaaaccc   1521               ABCB11   27   intron 8 + 2699   ctaatattgtattaaaccca T/A gccacatgttaaatgaatct   1522               ABCB11   28   exon 9 + 24   gtgtccaagtttacggacta T/C gagctgaaggcctatgccaa   1523               ABCB11   29   intron 9 + 108   caccttggtctgtggcctcc A/G gaggaagtacttgttcaaga   1524               ABCB11   30   intron 10 + 2475   taatcattccaaaccacgga C/A tttatttcattaagaacatg   1525               ABCB11   31   intron 10 + 2478   tcattccaaaccacggactt T/A atttcattaagaacatgata   1526               ABCB11   32   intron 10 + 2711   tttacagattggaaaagcca C/T tgaagtattgcaggtccaga   1527               ABCB11   33   intron 10 + 3539   agtgactgtaattagiatca C/G ttgtgcacagagaaaaaatg   1528               ABCB11   34   intron 10 + 3623   tgcagaaggttgttctttca T/C gaccttcctgagtttcagaa   1529               ABCB11   35   intron 10 + 3661   gaattcattaataaaaataa A/T cacataatggagcgtgacat   1530               ABCB11   36   intron 10 + 5100   gggccactctttggcttggc A/G atagactgtggccaatgaaa   1531               ABCB11   37   intron 10 + 5292   gctatttggtaggaacatct G/A ggcatgatcaggtagccttc   1532               ABCB11   38   intron 10 + 5912   qagtaatattcagtaaaaaa A/A taaagtggtattttaaatca   1533               ABCB11   39   intron 12 + 116   tgtttccagtaatagggaat G/A gaggtgtctttctctgaaag   1534               ABCB11   40   intron 12 + 326   gataaatgacaaggcaatta GIC aacaatcaggaagcacaggt   1535               ABCB11   41   intron 12 + 335   caaggcaattacaacaatca A/G gaagcacaggttcttcccaa   1536               ABCB11   42   intron 12 + 2572   cctcatccttgccaatgttt C/T cttttactggtttttgatgg   1537               ABCB11   43   exon 13 + 23   tctaaatgacctcaacatgg T/C cattaaaccaggggaaatga   1538               ABCB11   44   intron 13 + 70   atggcagtatactgatcaaa C/T agaaaggtgtagcatacatt   1539               ABCB11   45   intron 13 + (1578-1579)   ttattggcctctattttttc (C) tgcccattggtcaagtatga   1540               ABCB11   45   intron 13 + (1578-1579)   ttattggcctctatgttttc     tgcccattggtcaagtatga   1541               ABCB11   46   intron 14 + 32   catacattcctgggagaaac C/T aagaggtcatagaaggaaaa   1542               ABCB11   47   intron 14 + 80   cacaattatacacatttctt C/T tcgtatgattcccaagtcat   1543               ABCB11   48   intron 14 + 439   tattgtgtcaaaaacaattc A/G ttgtatatctccattctaag   1544               ABCB11   49   intron 14 + (1262-1263)   cagcctttgcattatatttt (T) gctgtgttgtctaacaggag   1545               ABCB11   49   intron 14 + (1262-1263)   cagcctttgcattatatttt     gctgtgttgtctaacaggag   1546               ABCB11   50   intron 14 + 1283   gctgtgttgtctaacaggag A/C aaagagacacggatttgctc   1547               ABCB11   51   intron 14 + 1339   tgagatagatatttaggacc G/A tgaccaatttttattttggt   1548               ABCB11   52   intron 14 + 1359   qtgaccaatttttattttgg T/C tgaaaaatcttatttgaagt   1549               ABCB11   53   intron 14 + 1480   tattgattagacaataaccc G/A tctggggaagggatatttct   1550               ABCB11   54   intron 15 + 370   ccttttctaatgtctgcaca G/A cctatttaagaatattccca   1551               ABCB11   55   intron 16 + (550-559)   aaagtttagtgtttctatca (T) 9-12 gctacttctgatggacttct   1552               ABCB11   56   intron 17 + 188   tttctctccccaattcatgg T/G tttttggttagcttctcatc   1553               ABCB11   57   intron 17 + 194   tccccaattcatgggttttt T/G gttagcttctcatcttcttg   1554               ABCB11   58   intron 17 + (197-198)   caattcatgggtttttggtt (T) agcttctcatcttcttgggg   1555               ABCB11   58   intron 17 + (197-198)   caattcatgggtttttggtt     agcttctcatcttcttgggg   1556               ABCB11   59   intron 17 + (289-296)   ttagaaaggggacttctttt (A) 7G (A) 4   1557                   tctgtgtttagtgttcctct               ABCB11   59   intron 17 + (289-296)   ttagaaaggggacttctttt (A) 12 tctgtgtttagtgttcctct   1558               ABCB11   59   intron 17 + (289-296)   ttagaaaggggacttctttt (A) 10 tctgtgtttagtgttcctct   1559               ABCB11   60   intron 17 + 1070   tcagacttgggttttcctat C/T tttcttcttgagaacaagtt   1560               ABCB11   61   intron 17 + 1651   tgttaaaatatctcattgta T/C atgctgacggatttttcttg   1561               ABCB11   62   intron 17 + 2226   ccttaagtctcctcctatca T/A gcaccttgttctcaccagct   1562               ABCB11   63   intron 17 + 2979   ctctctcttcctttctcagc T/Δ ctactatttcactgttggct   1563               ABCB11   64   intron 17 + 3288   aatccccatatcctacctta T/G ccatctcatccatgaatctt   1564               ABCB11   65   intron 17 + 3289   atccccatatcctaccttag C/T catctcatccatgaatcttg   1565               ABCB11   66   intron 18 + 97   aaiatgagttttctaggtat A/G tatciagcagtgtttcaagt   1566               ABCB11   67   intron 18 + 98   atatgagttttctaggtata T/C atctagcagtgtttcaagtc   1567               ABCB11   68   intron 18 + 892   ctctgaaagttagtgataca C/T cttatttgtgtttgaatcaa   1568               ABCB11   69   intron 18 + 2681   atgtatgagatcaagtcagg A/G tcaaatattagacacccata   1569               ABCB11   70   intron 18 + 3780   ggaccatcctgtggggcaat C/G gttccagaaaatgctggtat   1570               ABCB11   71   intron 18 + 5741   ctcaccggtataaatacaac C/T gtagcaaaggttttcttttt   1571               ABCB11   72   intron 18 + (5882-5883)   tgcgtattccctcagttcag (C) tttttattcaagccacagca   1572               ABCB11   72   intron 18 + (5882-5883)   tgcgtattccctcagttcag     tttttattcaagccacagca   1573               ABCB11   73   intron 19 + 10022   tggctaagttaaaaaaaaaa A/Δ gagattcaactataattgct   1574               ABCB11   74   intron 21 + 322   caagattcaatactgccccc C/≢ agggggtgggtgaacagggc   1575               ABCB11   75   intron 22 + 257   ctgttcaatttcctctcgca T/C agtgattcattccacattcc   1576               ABCB11   76   intron 22 + 552   taattaatatcttgtccttg G/C ggggtaaatgagggatggta   1577               ABCB11   77   intron 22 + 569   ttggggggtaaatgagggat G/A gtagcataaacacttctcaa   1578               ABCB11   78   3′flanking + 243   aaacaccacagaatgacata G/A aactaaaggcggcaggaatc   1579               CYP4B1   1   5′flanking − 333   gaaacattcacagtgcttgt A/T tgagaagacagtggttatta   1580               CYP4B1   2   5′flanking − 18   gagcagctgaaggcaggtca G/T atgaaggciaggtggctgga   1581               CYP4B1   3   intron 1 + 341   tccaaaacctctggatagta C/T atagaagtaggcaatccatt   1582               CYP4B1   4   intron 1 + 542   cctatgggtggctcaggagc C/T gtgacaccttcccaggttca   1583               CYP4B1   5   intron 1 + 2856   gaggactttgcacatagtag G/A tgctcagctatattgttggc   1584               CYP4B1   6   intron 1 + 6086   tttggaatctaaagactggg G/T cacgatgctagttgtgtgac   1585               CYP4B1   7   intron 1 + 6598   ttttggggtgtggggagagg G/A cccatagtagggagacagct   1586               CYP4B1   8   intron 1 + 6660   acctaagggtgtccatcctg A/G aggagagcagtcctaggggg   1587               CYP4B1   9   intron 1 + 7242   ccctggtctcccttaactca T/C gctggactgttccctttggt   1588               CYP4B1   10   intron 2 + 107   gcctgtgtactaagtctgcg C/G agctgaggttcccaccctac   1589               CYP4B1   11   intron 3 + 361   atggtgtggtggtaggacca C/T ggctggtcaccagaggctgt   1590               CYP4B1   12   intron 4 − 492   aaaggctttcacatctaaaa C/A gtgtctcctcattttctgtc   1591               CYP4B1   13   intron 4 − 315   ggattacttacatatacacc A/G tgcgggggagctcaccacct   1592               CYP4B1   14   intron 4 − 157   ctacccaccctaicctgata T/C tccagcaggatggagggcag   1593               CYP4B1   15   exon 5 + 22   acaagtgggaagagaaagct C/T gggagggtaagtcctttgac   1594               CYP4B1   16   intron 5 + 125   cccagggagccttagcttgc G/A gggagacaggacctgctcat   1595               CYP4B1   17   intron 5 + (287-289)   tgtctaagccaatccctcct CCT/Δ accctctgcttagcagggac   1596               CYP4B1   18   intron 6 + 54   gcctgggttcctcctcctgg C/T ccctctatgccccctcccat   1597               CYP4B1   19   intron 7 + (99-100)   agctcttaagcatttccccc (TC) tttcctcagcaaatataacc   1598               CYP4B1   19   intron 7 + (99-100)   agctcttaagcatttccccc     tttcctcagcaaatataacc   1599               CYP4B1   20   exon 8 + 114   tcctggtttctctactgcat G/A gccctgtaccctgagcacca   1600               CYP4B1   21   exon 8 + 139   tgtaccctgagcaccagcat C/T gttgtagagaggaggtccgc   1601               CYP4B1   22   intron 8 + 247   agaaagttgtcaacaagagg C/T tgatattttgtgtgctaact   1602               CYP4B1   23   intron 8 + 366   tgtgggggtgaacagagctg A/G gacagctgggagagccagtt   1603               CYP4B1   24   intron 8 + 650   cctttgcttgtggtcagaca C/A cctgcctttctctctgggct   1604               CYP4B1   25   intron 8 + 844   tcatatgtgagaatcccccc C/A ccacggggtatccagacaca   1605               CYP4B1   26   intron 8 + 1767   tcccattccaagaatgttct G/T gttgtgttgctggcagggaat   1606               CYP4B1   27   exon 9 + 53   tgtgcatcaaggagagcttc C/T gcctctacccacctgtgccc   1607               CYP4B1   28   intron 9 + 652   agtcggatgtggtcatgaac G/T ctctgtcactggcagtggtc   1608               CYP4B1   29   intron 9 + 774   cctggtcaccaacctctgtt C/T tgcccacaggaagcctgatc   1609               CYP4B1   30   intron 10 + 33   tgggctgggagatcagacag G/T gtgggqgactgggagggtca   1610               CYP4B1   31   exon 12 + 224   ccagatggctcaggctgtga C/A ctccctgggcaccaccctcc   1611               CYP4B1   32   exon 12 + 270   ctgggtgtggaggagttggg G/A ccccctgccttcaggaggct   1612               CYP4B1   33   3′flanking + 129   tctgtgtctcacagtcacgt G/A gtgctccaggcattcagggt   1613               CYP27A1   1   intron 1 + 295   aggagggagctgtcttggga A/G gagagtggcagaggcaaatg   1614               CYP27A1   2   intron 1 + 17503   cagtgcataaagcctctgat C/T ctccttagagaaggagggac   1615               CYP4F2   1   intron 1 + (145-146)   ccaagcccctggcaacctca CA/Δ gtgattcagqctgqgccttt   1616               CYP4F2   2   intron 1 + 193   tttaatcagtctctctctct C/T tttcccattctaagtgctta   1617               CYP4F2   3   intron 1 + 324   ccctgctctacctccggcac T/C gcccgtccctgcctctccac   1618               CYP4F2   4   intron 1 + 367   tccctggaggtccctgggcc G/C ttctctgggcctcaggatct   1619               CYP4F2   5   intron 1 + 402   ggatctcaccgtccatcccg T/C ctgccctgcaggatgtccca   1620               CYP4F2   6   exon 2 + 35   gcctgtcctggctgggcctc T/G ggccagtggcagcatcccct   1621               CYP4F2   7   exon 2 + 166   cggtgtttcccacaaccccc A/G agacggaactggttttgggg   1622               CYP4F2   8   intron 2 + 125   ggcagagaagcagaggaggc A/G tcttactcattcctctgctt   1623               CYP4F2   9   intron 2 + 440   gggccgtctcccacttccac T/C acacccgaaggcacctttct   1624               CYP4F2   10   exon 3 + 48   gttctgactcagctggtggc C/T acctacccccagggctttaa   1625               CYP4F2   11   intron 3 + 701   agactccaccccagcttggg T/A ccctttccttgacccctgtg   1626               CYP4F2   12   intron 3 + 742   cttcccatcgttggacgggc G/A aggctgagcagggggaatgg   1627               CYP4F2   13   intron 3 + 1020   gctttagctttctccatgtc G/A cttttcctatcaaggtggcc   1628               CYP4F2   14   intron 3 + 1039   cgcttttcctatcaaggtgg C/A cttttcctcatgatgtcaac   1629               CYP4F2   15   intron 3 + 1040   gcttttcctatcaaggtggc C/G ttttcctcatgatgtcaacg   1630               CYP4F2   16   intron 3 + 1920   ccacctgtctaacctctgtt G/C ctgtttgctcatgtctgggg   1631               CYP4F2   17   intron 3 + 1945   ttgctcatgtctggggcgtg T/A ctctacaatggctgttatat   1632               CYP4F2   18   intron 3 + 2621   agcattctgtagaatgctga G/A ctgtgctcaggggttgcgga   1633               CYP4F2   19   intron 3 + 2665   tgttggatcgtgtaggaggc A/G tgtcaaggcatgctggaacc   1634               CYP4F2   20   intron 6 + 194   gggtttgaactggtgggtgt G/T gtcagagctctgtaggggac   1635               CYP4F2   21   intron 7 + 67   tgtgaaatgtcagatgaaag G/A atttgaacttgattaagagg   1636               CYP4F2   22   intron 7 + 2811   ttccaagggaaattgccatt T/G aattctcctgtaactcaggt   1637               CYP4F2   23   intron 7 + (3096-3097)   gaggtgggggttgggggggg (G) ttactgccttctctccagga   1638               CYP4F2   23   intron 7 + (3096-3097)   ggggtgggggttgggggggg     ttactgccttctctccagga   1639               CYP4F2   24   intron 8 + 145   ggtgctgtctaccttcgggt G/A ctgaagcagcccagagaccc   1640               CYP4F2   25   exon 9 + 44   ctctcctgggtcctgtacca C/T cttgcaaagcacccagaata   1641               CYP4F2   26   exon 11 + 48   gaacccatcacaacccagct G/A tgtggccggaccctgaggtg   1642               CYP4F2   27   intron 12 + 108   tggtccaagttccagctctc C/T ttccctcacctcctctggag   1643               CYP4F2   28   intron 12 + 285   gcatggggatccaggcacgg A/T tacccccttctctattcctc   1644               CYP4F2   29   exon 13 + 238   aagtgaagcctagaattacc C/A taagaccctgttccacagtc   1645               CYP4F2   30   exon 13 + 342   tgtgcgtgaatgttcatggc G/A gccctattcacagtagccaa   1646               CYP4F2   31   exon 13 + 563   tagtgiactgtccttttata T/C gaaatttccagaacaggcca   1647               CYP4F2   32   exon 13 + 707   aaatgttccygacctagata G/C tgacgaaggtagcacgacac   1648               CYP4F3   1   intron 2 + 258   cattaatgcacctctgcggg G/T ctcttgggcagqgggttggg   1649               CYP4F3   2   intron 2 + 916   ttagggacatgtcctgagtc C/T acactgctccccacaaacct   1650               CYP4F3   3   intron 2 + 3417   atccaggtctcacacagtgt C/T acttcctctcttggctttag   1651               CYP4F3   4   intron 2 + 4090   gagagcatgaattgggtcct G/A tgtctttctctccagattca   1652               CYP4F3   5   intron 3 + 89   tgtgctgcctccagcgggtc G/A cgtgcccatgtgcagacagg   1653               CYP4F3   6   intron 3 + 243   tcaagtctgctgtacggcta C/T gtcttgtcacctgtatattt   1654               CYP4F3   7   intron 3 + 502   aggtctgggacccagggtcc G/C taagtgaactgtctgagaca   1655               CYP4F3   8   intron 3 + 755   ttttgtggccatgtcaggac A/T tgtgaacacatgtcagtgtc   1656               CYP4F3   9   intron 3 + 855   Qggacagacagggtgtccta G/A gtccttgtgaaggcattctg   1657               CYP4F3   10   intron 3 + 970   cctgacatagctcctacgtg C/T catgttaggcagtgtcattg   1658               CYP4F3   11   intron 6 + 122   aaggagttgttatacctgat C/T gttgaaggactggtatgaat   1659               CYP4F3   12   exon 7 + 159   ggtgcacgacttcacagatg C/A cgtcatccaggagcggcgcc   1660               CYP4F3   13   intron 7 + 2107   caggttgccaqtgatttttt T/Δ ctcagaaagttttcatcaag   1661               CYP4F3   14   intron 7 + 2255   gaccaagaagggtctaggag T/A gcaagatgggcttgggtttc   1662               CYP4F3   15   intron 8 + 132   cctcaatgcaaggttgctgt A/C caccctcgggtgctgaagca   1663               CYP4F3   16   exon 9 + 59   taccaccttgcaaagcaccc G/A gaataccaggagcgctgtcg   1664               CYP4F3   17   intron 9 + 13   attgaatggtgagtgcaggt G/A ctggtgccctgttcctgagc   1665               CYP4F3   18   intron 9 + 36   ggtgccctgttcctgagcct G/C tctcattggctctgttcccc   1666               CYP4F3   19   intron 9 + 167   acccatcctgactgtctggg C/G aaaggttataggcccttagg   1667               CYP4F3   20   intron 9 + 369   tccctaattcctacccttcc G/A tccagtccagggatttataa   1668               CYP4F3   21   intron 9 + 458   tcattcatccatccagtcct T/C gttcagcaaatactctcata   1669               CYP4F3   22   intron 10 + 46   ctcctgggtaggaagagggg A/C ccctcaggcagggagcattg   1670               CYP4F3   23   intron 10 + 63   gggcccctcaggcagggagc C/A ttgtcctgactgcccccttc   1671               CYP4F3   24   intron 11 + 14   ccctgaggtgcgggcccccc C/G tctctgtttttgtccattcc   1672               CYP4F3   25   intron 11 + 84   gatcaggagaatccaacatc G/A cctccctccaagacacacac   1673               CYP4F3   26   intron 11 + 113   caagacacacaccactgtct T/C tccaaggctggcggactggg   1674               CYP4F3   27   intron 11 + 164   cggcaacccttcttggtctc T/G cctccaggtctatgacccct   1675               CYP4F3   28   intron 11 + 165   ggcaacccttcttggtctcg T/C ctccaggtctatgacccctt   1676               CYP4F3   29   intron 12 + 156   gaaaaggcccacagagtagg G/A ttgggttggtcctagaagga   1677               CYP4F3   30   intron 12 + 253   gagctcggctaggctcgcag G/T atatgcaagcccacatgggg   1678               CYP4F3   31   intron 12 + 346   tgggtgtcccaggccaggtt A/C ccggcttgatggggccagga   1679               CYP4F8   1   5′flanking − 61   accatgtttacccatcattg G/T tcctggayctccccagcccc   1680               CYP4F8   2   exon 1 + 67   gtggcagcatccccgtggct G/T ctcctgciggtggtcggggc   1681               CYP4F8   3   intron 1 + 707   tacgcagcaggtattcacca T/G tatttccacattatccactg   1682               CYP4F8   4   intron 1 + 857   acaccccctaccctcacatc G/A tgacacagctgggccagaag   1683               CYP4F8   5   intron 1 + 907   tgccatctccaccctccccc G/A tgcaggggcatcttctttat   1684               CYP4F8   6   intron 2 + 668   tgtggcacttccaccatatg T/C tcattgccctcttgctccag   1685               CYP4F8   7   intron 2 + 818   gccacagagaccatggctca G/A gccccaaaatgctgagtgac   1686               CYP4F8   8   intron 2 + 1079   tatgcttgggtgttgcagaa C/T atgttggaccatgtaggagc   1687               CYP4F8   9   intron 2 + 1194   ccggtcccctttatgccccc C/A accctcctttcttcttctgc   1688               CYP4F8   10   intron 5 + 45   aacatgggatggagtggggg G/T gtgggtgtggggagagcaaa   1689               CYP4F8   11   exon 8 + (19-20)   ggccatgacaccacggccag (GCCAG) tggcctctcctgggtcttgt   1690               CYP4F8   11   exon 8 + (19-20)   ggccatgacaccacggccag     tggcctctcctgggtcttgt   1691               CYP4P8   12   intron 8 + 222   tttatttccccactaacttg C/G tatgcaagcttagtaaaatc   1692               CYP4F8   13   intron 8 + 334   cttggagaattaacggcaaa A/T accgcaatgacttttggacc   1693               CYP4F8   14   intron 8 + 1999   ttctaagtacatttattctc T/C tgcttttagctatgatctag   1694               CYP4F8   15   intron 8 + 4184   caggagggccgtgtatgctc C/T ctggataattgttgggtgtt   1695               CYP4F8   16   exon 9 + 119   acgtggtgctcccagacagc C/T gagtcatccccaaaggtgcc   1696               CYP4F8   17   intron 11 + 282   gggttgggggttccgggcct G/C gttcctggcgcagtggggcc   1697               CYP4F8   18   intron 11 + 340   tgcagtcagaccttccacct C/T ggcccccaggaactgcatcg   1698               CYP4F8   19   3′flanking + 35   atcacctacctttgcaccaa T/C taccttttcagatttccggt   1699               CYP4F8   20   3′flanking + 83   ctgtgttggcccctgtgcct G/C agtcccgcggatggccagta   1700               CYP4P8   21   3′flanking + 90   ggcccctgtgcctcagtccc A/G cggatggccagtagggggcg   1701               ALDH1   1   intron 1 + 564   cattatttcttcagccaagt T/C tgttgccattggagcagatg   1702               ALDH1   2   intron 1 + 710   gttctgagagtaactctgaa C/T tttgcctgtttcacactgct   1703               ALDH1   3   intron 1 − 3868   ccctttttatatccagaata C/G agcctaaacttctttctctg   1704               ALDH1   4   intron 2 + 2933   taagtatgctatactatatt T/C gatagatatactatactata   1705               ALDH1   5   intron 2 − 1646   caatgtgattaactgaatgc C/T gcaaatatgcactgtatatg   1706               ALDH1   6   exon3 + 54   caggcttttcagattggatc C/T ccgtggcgtactatggatgc   1707               ALDH1   7   intron 3 + 157   taggccccttaacattgaac T/G attctcaaatagtaatctgc   1708               ALDH1   8   intron 3 + 339   tgagtctcctagaatgatat G/A ttaggtttattcaagcattt   1709               ALDH1   9   intron 3 + 655   agcagttagatgagtcagag C/A ataatatagttgggggaggg   1710               ALDH1   10   intron 3 + 735   gaagccaatttaacataaac C/A aataccaagatcaggtttca   1711               ALDH1   11   intron 3 + 863   gcaagtatggttaatcaaag G/A accatttattactcaaatat   1712               ALDH1   12   intron 3 + 1757   agatgacaagatttcttcta T/A ttcaaaaattccctagcaca   1713               ALDH1   13   intron 5 + 90   ttctctaaaacagatggatg C/A ttatgtatttgttaaatgtg   1714               ALDH1   14   intron 6 + 213   caggaagccaaacacaaagg T/C ttggtgtcaaacagtcaact   1715               ALDH1   15   intron 6 + 1323   ttttgaattaaattcttata C/T tgtaacttttaaacttttta   1716               ALDH1   16   intron 7 + 638   gcaaaagaaagtggtggaag C/A atactgtaccatgcaaaaaa   1717               ALDH1   17   intron 9 + (1462-1463)   aatggaattctatgtttttt (T) gttgtgattatttatctatc   1718               ALDH1   17   intron 9 + (1462-1463)   aatggaattctatgtttttt     gttgtgattatttatctatc   1719               ALDH1   18   intron 9 + 1757   tgatctagaatttagtttct A/G taaatgaatagaatccagtg   1720               ALDH1   19   intron 12 − 1383   aatcccacttattactctcc T/G gagagcttcaagtgcctata   1721               ALDH1   20   3′flanking + 40   ttttaagtacaagttttggt T/C acagtgatttcttcttgtca   1722               ALDH2   1   intron 3 + 1766   aaatttgtggctcatcctgc C/Δ tggcccccttcctcctcctc   1723               ALDH2   2   intron 8 + 52   gaaggtagccctggccacct G/C tgttgtggctccagccgatc   1724               ALDH2   3   intron 8 + 69   cctgtgttgtggctccagcc G/A atcctgtcgcccccccagtg   1725               ALDH2   4   intron 9 + 5197   gctttcttatgaccttggtc C/A atttcccagttgtcttgttg   1726               ALDH2   5   intron 11 + 114   gagctgggctcagtctctcc T/C gggtcagggtgtgatgtcga   1727               ALDH2   6   3′flanking + 411   ggatatgatttctgcccctc T/C tctgctgtgggtaaacagct   1728               ALDH2   7   3′flanking + (432-433)   tctgctgtgggtaaacagct TC/Δ tgtttcatgcatttactttt   1729               ALDH2   8   3′flanking + 488   ccaataagaatgtgcttgaa G/T gtttcatgcatttaatttgt   1730               ALDH7   1   5′flanking − 1455   ctgcctgtccacacccacag C/T agcttgcacatcatccccac   1731               ALDH7   2   intron 1 + 464   catgaatgactctgggaaag A/G atcattcttagcaatggact   1732               ALDH7   3   intron 1 + 2269   aaatggaatccaaacagcaa G/C agacctcccctcaccggtca   1733               ALDH7   4   intron 2 + 1349   actgagcttctgccaccggc C/T gcctgccggccttcatgaga   1734               ALDH7   5   intron 2 + 1820   tccgtgtggaaggcaccttc C/G cccagcctcagtggctagga   1735               ALDH7   6   intron 2 + 2046   aacctcaggcgctgcctcag C/G cagggagccagcctggcccc   1736               ALDH7   7   intron 2 + 2939   aagcacgcactgaacatgga G/A tgagtgagtgaacgaatgaa   1737               ALDH7   8   intron 3 + 7   tgcccaagaacctggtgagc C/T ggccgggctgaggcgggcag   1738               ALDH7   9   intron 4 + 36   gccccttccggtcacccttc T/C ccgctcgaggcctcagggcc   1739               ALDH7   10   intron 6 + (116-117)   attctcctctctctctctct CT/Δ ggaccaggctqggagcagtc   1740               ALDH7   11   intron 6 + 263   cagaccctcatacgtgaccc T/C gctgccccccaggctcttag   1741               ALDH7   12   intron 6 + 1298   gtagacagagctggactcca T/G ccttgggtgataagggatcc   1742               ALDH7   13   intron 6 + 1411   gccagggtcacaagcagagg C/T gggaggagccaaggggtttg   1743               ALDH7   14   exon 7 + 185   acctgcgtggcccccgacta C/T gtcctatgcagccctgagat   1744               ALDH7   15   exon 7 + 339   tgcgggcattgctgggctgc G/A gcgtgtggccattgggggcc   1745               ALDH7   16   intron 7 + 249   ccagggctccagggctcagc G/A tgctaagatgaactcccatc   1746               ALDH7   17   intron 7 + 277   atgaactcccatcccaccac C/T ggctatcctgaaaggctgta   1747               ALDH7   18   intron 7 + 498   gaccaaggtcgggggattct C/T tgtgtcccacaggccctgag   1748               ALDH7   19   intron 8 + 14   cagccaggtgggggtgcggc C/T gggctgggcagggtcaggag   1749               ALDH7   20   intron 8 + 49   caggagcccgcagtgggcag C/T acaagtggtggcagcagggg   1750               ALDH7   21   intron 8 + 111   tcaggactttgggatggtgg A/T cctcttggctctgtctctgc   1751               ALDH7   22   intron 8 + 3219   atcctgatggggctcaaggc A/G gcctcacgcacatcctgttc   1752               ALDH7   23   exon 9 + 33   gtgctgacccagaccagcag C/T gggggcttctgtgggaacga   1753               ALDH7   24   intron 9 + 946   tcccaggcccccgagctgac C/A cttcttggtggccgtggccc   1754               ALDH7   25   intron 9 + 1067   aggctccccaagcctgggtc C/T ctcttgcccccacccactct   1755               ALDH7   26   exon 10 + 137   ccgcaatcgccgcgccgcct G/A aggatgctgctggtggccat   1756               ALDH7   27   exon 10 + 397   cgctcccaaccatgagagcc G/A aggtgggaggcatgggaaac   1757               ALDH7   28   exon 10 + 1198   ctcttccccatgctgctcat C/T ctcctgggccccatccactc   1758               ALDH7   29   exon 10 + 1475   caggggtggacctgagtttc G/A tctcctgtctctctggctga   1759               ALDH7   30   3′flanking + 15   cctggcaatacttacatctc A/G gtgatttgctttctgtgcat   1760               ALDH7   31   3′flanking + 60   caacaggactctggaccaag G/C ccctggcgttgggtaacaat   1761               ALDH8   1   intron 1 + 98   agggaaggggatgtgtgccc G/A tggcccgtgggtcagggggc   1762               ALDH8   2   intron 1 + 157   atggctgcaggggccatggg T/C acggggcttgctcaggagag   1763               ALDH8   3   intron 1 + 354   tctgtggacagacaaggatt C/G ggtCgggggcaccagggctg   1764               ALDH8   4   intron 1 + 851   tatgacaggtccatcaggcc T/G caccttcctgtgtgtcttat   1765               ALDH8   5   intron 1 + 894   ctcagcatctgcccccacag T/G gcttttgcacacgttggttc   1766               ALDH8   6   intron 1 − 463   aaagaaccctccgagtccct C/G gtttagtcccagaagggagg   1767               ALDH8   7   exon 2 + 61   gccttcaactgagggcgcac G/A cggccggccgagttccgggc   1768               ALDH8   8   intron 2 + 8   ggacctgcataaggtgggcc A/G tggagagtgggccccggcag   1769               ALDH8   9   intron 2 + 23   gggccgtggagagtgggccc G/C ggcaggggctggagcagcgt   1770               ALDH8   10   intron 2 + (180-181)   ttcactcctgaacactcaca (A) gccaccctgtgatgcaggct   1771               ALDH8   10   intron 2 + (180-181)   ttcactcctgaacactcaca     gccaccctgtgatgcaggct   1772               ALDH8   11   intron 3 + 72   gactacgctctcaagaacct T/G caggcctggatgaaggatga   1773               ALDH8   12   intron 8 + 375   ctgcagcatcctaacctcac C/T gtcgcgactcaaggctgccg   1774               ALDH8   13   intron 8 + 463   aatcacccccatggcacccc G/A accgtcactgagagggtgct   1775               ALDH8   14   exon 9 + 33   atgctggagcggaccagcag C/A ggcagctttggaggcaatga   1776               ALDH8   15   exon 10 + 428   aggtgtcctcactcacccca C/T cctccccaattccagccctt   1777               ALDH9   1   exon 1 + 121   actgtgtggggtatggcggg G/A tggtggggagaatgtggtgt   1778               ALDH9   2   intron 1 + 67   cgcggatttcccggccagcc C/G ccgtttcctgtgttctgcag   1779               ALDH9   3   intron 1 + 103   tgcagcgttgacttgagcac A/G agacagtgacagtggagagt   1780               ALDH9   4   intron 1 + 1818   gaatttttgagaaaaaaaaa A/Δ tgttcctttagggttgcctt   1781               ALDH9   5   intron 2 + 5891   tcaggaacaggaagtaaaga G/A gtttacatttctaaatttct   1782               ALDH9   6   intron 2 + 6398   atcaaaaacacttgtctgat T/G atcgtgctctgaacctgcct   1783               ALDH9   7   intron 2 + 9677   atgacgctgagtttggtgct A/G ttcttttgtttttcttgcct   1784               ALDH9   8   intron 2 + 9991   gggagaagtgagggacctac C/T cttggcttctaatctttcat   1785               ALDH9   9   intron 2 + 10198   ttgtcagagacatctttgat A/G atccttacgtactatatcag   1786               ALDH9   10   intron 2 + 10256   ttagtagataactttttttt T/Δ gtaaqgatggagaataatag   1787               ALDH9   11   intron 2 + 11382   catattcaattcttttatgt T/C ctttagaccaaagaaaggca   1788               ALDH9   12   intron 2 + 11455   taaacctttaagctcatcat C/T ggaccatctattgaatttct   1789               ALDH9   13   intron 2 + 12044   atttaaagtgaaagctattt C/T tagttttaaaaattgagcag   1790               ALDH9   14   intron 3 + 334   ctatttagcaaacttttttt T/Δ gacagtqtataaagttttca   1791               ALDH9   15   intron 3 + 368   gttttcaacaattgatattg G/A aaggttggtagqgcctagga   1792               ALDH9   16   intron 4 + 191   ccctcaaggagcttatagtt T/A aggttgtacacaatcatgtc   1793               ALDH9   17   intron 4 + 557   tagaaaaaattgtaatgtia A/G aaagcattactgttaggaca   1794               ALDH9   18   intron 5 + 830   agttcaagatgattttgtag G/C ttcagggcctagttgactta   1795               ALDH9   19   intron 5 + 838   atgattttgtaggttcaggg C/T ctagttgacttagcatgcaa   1796               ALDH9   20   intron 6 + 120   agaaaagttgcacaaatagt A/C caaagaattcccatgtacct   1797               ALDH9   21   intron 6 + 2569   attaaaatctgctttaaata T/C ttttttgggggagaggacac   1798               ALDH9   22   intron 8 + 1414   ccgatcttcaaaaaattagc T/C gggggtggtggtgcacactg   1799               ALDH9   23   intron 9 + 664   aaagttcacatttttttttt T/Δ ataacttcatggtcaagagc   1800               ALDH9   24   intron 9 + 2170   taatgcacacattttttttt T/Δ cttcataggqacatccaacg   1801               ALDH9   25   exon 11 + 587   aaaacaaaaaacaaaaaaaa A/Δ ccttgttcctttataggttc   1802               ALDH10   1   intron 1 + 39   gggtgtggggaaactggccc C/T cgccgcgcacttgtggactg   1803               ALDH10   2   intron 3 + 249   1tgccgcgaagaaattggcac T/A gctgagttctacatgcagtt   1804               ALDH10   3   intron 3 + 2595   ttctgtacatcaacttgtga T/A ggattgaggccagttctggt   1805               ALDH10   4   intron 3 + 2775   taccgctttgcccctgacca G/A gggtaaattcttcaataact   1806               ALDH10   5   intron 3 + 3424   aggcacttctgcacacaccc G/A cgtctcatgcattttccctg   1807               ALDH10   6   intron 3 + 3676   atgttgaagagattgctgat G/A ttagacgttaggatttattt   1808               ALDH10   7   intron 4 + 481   tagaaaataagaggtttcag G/T ttctctctgctaaatccggt   1809               ALDH10   8   intron 4 + 769   atcctgctttatacctgaac G/A tcttgcaggcagagccaaaa   1810               ALDH10   9   intron 4 + 796   aggcagagccaaaagccaca A/G ccaggagagtctgtaccgaa   1811               ALDH10   10   intron 5 + 254   attagttgtggcatatactt T/G ttttaaaaaagttaaataat   1812               ALDH10   11   intron 6 + 137   aatcctgctttctggtatac T/C gtacctgtagcttttgttat   1813               ALDH10   12   intron 6 + 923   aggctaatgaatggtaagag G/A aaggggctatcctgattagc   1814               ALDH10   13   intron 7 + 331   tgcttttctgatgttaatcc A/Δ cagggcattgctgaataaca   1815               ALDH10   14   lntron 8 + 643   tttagaacatgacctgcctg C/T ctctcccacatgtgagatga   1816               ALDH10   15   intron 8 + 666   ctcccacatgtgagatgact G/A actcagctttttatttctcc   1817               ALDH10   16   intron 9 + 2129   tgttttcatttttaaaaaaa G/T gtttgactttggaattcatg   1818               ALDH10   17   exon 10 + (1894-1895)   ttggcttgtctactaataca CA/Δ tctgcttcaaaatgaacata   1819               ALDH10   18   3′flanking + 31   gtatttgtcaactttttttt T/Δ ctcattttaaaattcttagc   1820               ALDH10   19   3′flanking + 106   gtgtgttgggggtggtggtt G/A gtagctatagtaaataggtt   1821               ALDH10   20   3′flanking + 1630   aaaagcacgtgggaaacaca A/G ttaatcatgtcttaccgtat   1822               ABCC7   1   5′flanking − 834   gctaaaacactccaaagcct T/G ccttaaaaatgcgcactggg   1823               ABCC7   2   5′flanking − 729   cctccttgcagatttttttt T/Δ ctctttcagtacgtgtccta   1824               ABCC7   3   exon 1 + 125   tagcagggaccccagcgccc G/C agagaccatgcagaggtcgc   1825               A8CC7   4   intron 1 + 6200   ctatgtgagacgttaagaag G/A tagaggtggccaagaaggaa   1826               ADCC7   5   intron 1 + 7538   agttctctttcttagcatgg C/A ctacagaggtgcaactacct   1827               ABCC7   6   intron 1 + 13519   gaaacttaaatcttgagtca T/C acaattgtgtctacatactg   1828               ABCC7   7   intron 1 + 14110   attacacagtattttttttt T/Δ aattttggggaaagtcgatt   1829               ABCC7   8   intron 1 + 14293   gccaggcagattcctgactc C/Δ tataacccagagcttatcag   1830               ABCC7   9   intron 1 + 14316   taacccagagcttatcagag C/G atttatgtccccaaagagaa   1831               ABCC7   10   intron 1 + 14433   cagaataacaatgatggctc G/A gaaaaatatgggtatttctg   1832               ABCC7   11   intron 1 + 14824   acgttttgacagttgcacaa G/C tttctttctttaagctttaa   1833               ABCC7   12   intron 1 + 23401   aatatttttgaaaatcacta C/G ggtatcctgcatagtgattt   1834               ABCC7   13   intron 3 + 879   gaaaaatttcagttcataca C/A ccccatgaaaaatacattta   1835               ABCC7   14   intron 3 + 922   acttatcttaacaaagatga G/C tacacttaggcccagaatgt   1836               ABCC7   15   intron 3 + 933   caaagatgagtacacttagg C/T ccagaatgttctctaatgct   1837               ABCC7   16   intron 3 + 13704   tttttccaaataaaaaaaaa A/Δ tcaggtgatatctgtaaatg   1838               ABCC7   17   intron 3 + 13758   tattaaagaacatgatgctt A/G aaacagattagggaaaacta   1839               ABCC7   18   intron 4 + 240   ctctgttqtagttttttttt T/Δ ctcctaatcatgttatcatt   1840               ABCC7   19   intron 4 + 376   ttatgttcagcaagaagagt A/G taatatatgattgttaatga   1841               ABCC7   20   intron 4 + 586   tgtccagacaagagaccaaa T/C tgccgaggcatcatttaggt   1842               ABCC7   21   intron 4 + 1089   tttcaatctgaacattttac G/A taagtgaagactttgttaga   1843               ABCC7   22   intron 4 + 1615   aaagttaggtggtattgtat C/T tgtcttcctttctcaatgtt   1844               A8CC7   23   intron 4 + 1946   aatacaaacaaacttgagct T/C tgcctatacttttcaagaat   1845               ABCC7   24   intron 6 + 783   tatctaagttttggagtcaa A/G tagcactttgtttgaatccc   1846               ABCC7   25   intron 6 + (1128-1131)   gattgattgattgattgatt GATT/Δ tacagagatcagagagctgg   1847               ABCC7   26   intron 7 + (731-732)   gtagcaatgagaccattttt (T) cttcagttgagctccatgtt   1848               ABCC7   26   intron 7 + (731-732)   gtagcaatgagaccattttt     cttcagttgagctccatgtt   1849               ABCC7   27   intron 7 + 1434   gaatgtttggttgtaacctg T/C ataatctggcatgaaatttt   1850               AHCC7   28   intron 8 + 752   catgctctcttctcagtccc A/G ttccttcattatatcaccta   1851               ABCC7   29   intron 8 + 1109   tatggccaagacttcagtat G/A cgtggacttaattcttcctt   1852               ABCC7   30   intron 8 + 1312   atgaagacattcattttttt T/Δ ctccgtccaatgttggatta   1853               ABCC7   31   intron 9 + (6521-6522)   gtgtgtgtgtgtgtgtgtgt (GT) ttttttaacagggatttggg   1854               ABCC7   31   intron 9 + (6521-6522)   gtgtgtgtgtgtgtgtgtgt     ttttttaacagggatttggg   1855               ABCC7   32   intron 10 + 2119   gaacactttatagttttttt T/G ggacaaaagatctagctaaa   1856               ABCC7   33   intron 11 + 3867   tttttcttcaagaaattaga A/Δ gaggggagaaattggtttaa   1857               ABCC7   34   intron 11 + 11844   tgaatcaaaatcatctaaaa A/Δ gctttcaqaaaccagacttt   1858               ABCC7   35   intron 11 + 12144   atattaaacagagttacata T/C acttacaacttcatacatat   1859               A8CC7   36   intron 11 + 20975   gtgtggatagtaaatgccag G/A gtaaatcacatagcatctaa   1860               ABCC7   37   intron 11 + 27057   atggaagagaaqttttagta G/A aggggaggaaygaggaggtg   1861               ABCC7   38   intron 11 + 27131   gagagagacttttttttttt T/Δ aaggcgagagtttactacct   1862               ABCC7   39   intron 13 + 152   gtattaactcaaatctgatc T/A gccctactgggccaggattc   1863               ABCC7   40   intron 13 + 287   tttgcagtatcattgccttg T/C gatatatattactttaatta   1864               ABCC7   41   intron 15 + (85-86)   atacatatatatgcacacac AT/Δ aaatatgtatatatacacat   1865               ABCC7   42   intron 15 + 106   taaatatgtatatatacaca T/A gtatacatgtataagtatgc   1866               ABCC7   43   intron 15 + 3341   ggaagtataaatttgtaaat A/C actgagacccaaacttacaa   1867               ABCC7   44   intron 15 + 5556   tgctattgactaatagtaat A/T attttagggcagctttatga   1868               ABCC7   45   intron 15 + 5919   tggtagttctatgtggaaac C/A gtgaggaaataattttatat   1869               ABCC7   46   intron 17 + 2479   caaaaaggtatggaagtcag A/C ggagaaggagacccctatgt   1870               ABCC7   47   intron 18 − 81   aagtatgcaaaaaaaaaaaa A/Δ gaaataaatcactgacacac   1871               ABCC7   48   intron 19 + 751   cattaataaaataacaaatc A/G tatctattcaaagaatggca   1872               ABCC7   49   intron 19 + 820   tgacatttgtgatatgatta T/C tctaatttagtctttttcag   1873               ABCC7   50   intron 21 + 1532   ttacctttaacttttttttt T/Δ agtttgatcagctctcttta   1874               ABCC7   51   intron 21 + 1607   atgcttttggagttgggtct C/T ataaatgtatagaaatgttt   1875               ABCC7   52   intron 21 + 11260   atgtggaacaatcatgacta T/C atgccttttactttctctat   1876               ABCC7   53   intron 22 + (130-131)   agaatcaatattaaacacac AT/Δ gttttattatatggagtcat   1877               ABCC7   54   intron 23 + 1828   ctgtcctaaagtttaaaaag A/Δ aaaaaaaaaggaagaaggaa   1878               ABCC7   55   intron 24 + (7100-7112)   agtttaacatgttacaaaac   1879               ABCC7   56   intron 25 + 237   actcttcccccttgtcaaca C/T atgatgaagcttttaaatac   1880               ABCC7   57   exon 27 + 115   gggtgaagctctttccccac C/T ggaactcaagcaagtgcaag   1881               ABCC7   58   exon 27 + 334   ggatgaattaagtttttttt T/Δ aaaaaagaaacatttggtaa   1882               ABCC8   1   5′flanking − 1099   aaaggggctgaaggggtctt T/C cttttgtgttcccctgactg   1883               ABCC8   2   5′flanking − (424-422)   caccccaccaccaccaccac CAC/Δ aaggtaacgttctgccccac   1884               ABCC8   3   intron 1 + 1212   agcctgggcaacatagtgag A/G ccccccccgccctttctaca   1885               ABCC8   4   intron 2 + 1003   aggagtactgtgaatcccag C/A ctgcatgtttgggtcggatt   1886               ABCC8   5   intron 2 + 1253   catctcactaaggaagaatc C/T agtaaccagcaaggatgaga   1887               ABCC8   6   intron 2 + 1382   cccagactgcactcctgcag T/C gctgcctggctcctgtagtt   1888               ABCC8   7   intron 2 + 2371   tttcagagctgtctggaaat T/A tagggggcaggtgggagggg   1889               ABCC8   8   intron 3 + 1957   ccctacccctaycccagggg C/T ccccacatgagtatgaatgg   1890               ABCC8   9   intron 3 + (2088-2089)   agagaacccttcattaacca (CCA) gggcgtggctgaccagtgtc   1891               ABCC8   9   intron 3 + (2088-2089)   agagaacccttcattaacca     gggcgtggctgaccagtgtc   1892               ABCC8   10   intron 3 + 2204   taaagcacaagttatcaccc G/A tggatggatttgtccttttc   1893               ABCC8   11   intron 3 + 2286   ttatctccccttgaaaggac A/G ctccacagagccagaaattc   1894               ABCC8   12   intron 3 + 2312   cagagccagaaattctagaa C/G agggaaaagtggaggggagg   1895               ABCC8   13   intron 3 + 2356   ctgtgaactgcagggacaga A/G ggaaatgggtattgggagaa   1896               ABCC8   14   intron 3 + 2359   tgaactgcagggacagaagg A/C aatgggtattgggagaatgg   1897               ABCC8   15   intron 3 + 2370   gacagaaggaaatgggtatt G/A ggagaatggccagccctcca   1898               ABCC8   16   intron 3 + 2382   tgggtattgggagaatggcc A/G gccctccaaggygctgatgt   1899               ABCC8   17   intron 3 + 4910   ggggacagccttcagctgtg G/A aattcctccagtcctagaga   1900               ABCC8   18   intron 3 + 4969   cattattccagtcctgaggc A/G tgagagcagaaggccgatgc   1901               ABCC8   19   intron 3 + 5003   ccgatgcttctgccctccat C/G ctaatgtcctcctgcaggga   1902               ABCC8   20   intron 3 + 5019   ccatcctaatgtcctcctgc A/C gggacccaaggtggatggca   1903               ABCC8   21   intron 4 + 14   ggtgagggtaagcaggccac C/T tgggccagggtggggtggga   1904               ABCC8   22   intron 4 + 187   agacactgcatctggcccac G/A tgtgctctaccccagggtcc   1905               ABCC8   23   intron 4 + 204   cacgtgtgctctaccccagg G/C tcccagagggagaggggggt   1906               ABCC8   24   intron 4 + 254   gttcgctgaggttggcggat G/A actttccgtagaaagggaag   1907               ABCC8   25   intron 4 + 357   tgtattcatatcgtcacgct G/C gtaaatgaatgagtaagtgt   1908               ABCC8   26   intron 5 + 92   ggcattaggtcaaaatcctg G/A tgggacaaaaggggaaactg   1909               ABCC8   27   intron 6 + 4205   tctgtagaaagtacatgggg G/A catgaagatcattggcttga   1910               ABCC8   28   intron 6 + 5519   gattcccagggaatgttaaa A/C aggaccgggtcttcctaaac   1911               ABCC8   29   intron 6 + 5575   tctgacccagtaccagccag G/C ggggcaagtttccatccccc   1912               ABCC8   30   intron 6 + 6587   gttgccatctgagatcttgc C/T ggaagtacacaagagaccct   1913               ABCC8   31   intron 6 + 6747   ttccactggccttttctgct C/T agtaattgctacattacagg   1914               ABCC8   32   intron 9 + 191   gaggaagctgcctcccggtg A/G ggacaggaagcgggcatggc   1915               ABCC8   33   intron 10 + 1963   cccaggagtccaacctccct T/G tgtccagctagaccatggtg   1916               ABCC8   34   intron 10 + 2724   cctgggacatgttttcttat A/G taaacagcatcaaaagatgt   1917               ABCC8   35   intron 10 + 29389   cccgcccaggactcctcac G/C tgtccaagtcacctagggag   1918               ABCC8   36   intron 10 + 3094   tccgaggatgtgtttttttt T/Δ ccctccgttagtcagcagtg   1919               ABCC8   37   intron 10 + 3368   tcctgctcatatgcggcacc A/G tcagacttctgggcaggcaa   1920               ABCC8   38   intron 10 + 8897   ggtattgattaaaagcctca C/T gggcagagaaattcgccatc   1921               ABCC8   39   intron 11 + 308   tgtgtattgtagaagtgatg G/A gaaatccagaacagaaagct   1922               ABCC8   40   intron 11 + 1171   gccctctcatttcccttcca G/A tgctgagcgtttccagtgtg   1923               ABCC8   41   exon 12 + 7   gcctctgtccacagactttc G/A tgggccacgtcagcttcttc   1924               AHCC8   42   intron 12 + 356   accaagaatgaggccatccc G/T tccccacgtggctgccccat   1925               ABCCB   43   intron 12 + 934   tgggttcaaagatggaatgg G/T gcataactcagcaaaattat   1926               ABCC8   44   intron 12 + 1370   gggagggaggctggacaggg C/G atgaaggcagagcctggtgg   1927               ABCC8   45   intron 15 + 412   ggaggtgggacccaggatgg C/T gtttcttgggaccacaagga   1928               ABCC8   46   intron 15 + 688   actcccccggccccactcac A/G tctgccaccttccctccctg   1929               ABCC8   47   intron 16 + 4464   actcattccaagtattgatc G/A agaagagaggtaggtactgg   1930               ABCC8   48   intron 16 + 4574   ttgaagatcttaagttgttt T/C tggttcactcatttcgcaaa   1931               ABCC8   49   intron 16 + 5011   agctaaaagcaaaacagcct C/T tgacctggcaagcattccca   1932               ABCC8   50   intron 16 + 7608   tgtcctacttttcttttyac C/G cttataacttcctgacttcg   1933               ABCC8   51   intron 16 + 7730   ccagctcctagtgggctgga G/A ggaaggacatgcggttgggg   1934               ABCC8   52   intron 16 + 8369   ttgcaaactgagttagggcc T/C ggagagcttactgtgtgctg   1935               ABCC8   53   intron 16 + 9708   tgcacttgccgcctacttat T/G ccagacccaatgattgggtc   1936               ABCC8   54   intron 17 + 651   tatagattaatgaggctctg A/G gtccctcaaaaccttccctc   1937               ABCC8   55   intron 17 + 692   cccttacctctccaaaaaac A/G cttgagataccctagaggtg   1938               ABCC8   56   intron 17 + 1541   ctcaggatcttcctggagga C/T atggttcactcccatgagag   1939               ABCC8   57   intron 18 + 580   actaagcagatttctaccaa C/T tgcacctccccatccccttg   1940               ABCC8   58   intron 18 + 658   gaacaagcccctgagaatgc C/T ttccgcaccccctactcccg   1941               ABCC8   59   intron 18 + 660   acaagcccctgagaatgcct T/C ccgcaccccctactcccgcc   1942               ABCC8   60   intron 19 + 93   gcccttccatcgatcaccca T/C acccagccatctcactcccc   1943               ABCC8   61   intron 19 + 123   tctcactccccaggtgctta T/C ctgcactccagcctctccat   1944               ABCC8   62   intron 19 + 219   cataggggagagggcaggaa C/T ggagggaagggagagagccc   1945               ABCC8   63   intron 19 + 845   tagtatttaacctgcccaaa C/T gctgtgtgaagtgctgacct   1946               ABCC8   64   intron 20 + 338   tcccctccacaagcttagac A/G aacaggattctcctgtgact   1947               ABCC8   65   exon 21 + 10   tttggtgacagggcatcaac C/T tgtctggtggtcaacgccag   1948               ABCC8   66   intron 21 + 192   caaggatagcacaaatgacc C/Δ attgcagacttcagatggag   1949               ABCC8   67   intron 23 + 17   gaaggtgggtatatccaggg A/G tggccaagcagccacccctg   1950               ABCC8   68   intron 23 + 67   ctttctgctagaacctgaact C/T ataaaggtcttcctgtcctt   1951               ABCC8   69   intron 26 + 268   gtgagcgtctgcacatccaa G/C taaagattgttttctcctcc   1952               ABCC8   70   intron 26 + 308   cgataagtgggtgtaatttg C/T ccatccccacccatgagttc   1953               ABCC8   71   intron 26 + 348   cagctccctgccctcccctc A/G ctctctctccctcagccagc   1954               ABCC8   72   intron 26 + 807   gacagctgctgagtcaggcc G/A agccggcagctgagaaaggc   1955               ABCC8   73   intron 26 + 834   cagctgagaaaggcggcagt G/C gtcagatgggcttgagaaac   1956               ABCC8   74   intron 28 + (118-121)   cctccaaaaaataaaaacaa AAAA/Δ cagaaatgaaggaaatagaa   1957               ABCC8   75   intron 28 + 1348   tggggtaagcggaagacggg G/A ttgaacgctttgagtttggt   1958               ABCC8   76   intron 29 + 1253   ctcttagggatcttgtctaa G/T taaagaagagcagagcaaag   1959               ABCCB   77   intron 29 + 1589   cagatcccagcttcctgtaa A/G cagcctcagatcaggccaaa   1960               ABCC8   78   intron 29 + 2322   gcgcctcacactcctataac G/A cgcacatgccctgatgcaca   1961               ABCC8   79   intron 29 + 2348   atgccctgatgcacacacat T/C ttcaacacgcacttactcta   1962               ABCC8   80   intron 29 + 2418   agacacgtcaccctcccaca C/T gtctccaccctgggggtgtg   1963               ABCC8   81   intron 29 + 2494   tcagtcccctcagacacatg C/A cctctctccacgcagagaca   1964               ABCC8   82   intron 29 + 2735   gcggccaaggagagtgatga C/T ggcagcccaggttgatcaga   1965               ABCC8   83   intron 30 + 366   gctcctggggctccagcctt C/T gcagcccttgtgtgtgtctg   1966               ABCC8   84   intron 33 + 93   ggcttcgcagtcacctcgtg G/T ccctcCagggccgaggcctc   1967               ABCC8   85   intron 33 + 358   agggacctgggggcagacag C/T gaggccacccttgtattgag   1968               ABCC8   86   intron 38 + 54   cccagggacaggactggcct G/C ttgtggccgtcatcagtgca   1969               ABCC8   87   intron 38 + 466   aggacattctggccacatgc C/Δ tcatcctcctcctccaagcc   1970               ABCC8   88   intron 38 + 529   tggcccccaccgcgggtggt A/G ttcccaccatcctgacccgc   1971               ABCC9   1   intron 3 + 38   tgttgtttctccttaaagag C/A tatttgtttttccccccaaa   1972               ABCC9   2   intron 3 + 305   gctggccttctggcttgcag T/A agttgtattttaagaatcag   1973               ABCC9   3   intron 3 + 320   tgcagaagttgtattttaag A/G atcagagctcttgtgaggag   1974               ABCC9   4   intron 3 + 631   ttctgtggaaatcagaggct G/C tctaaaatattcctaatttt   1975               ABCC9   5   intron 3 + 8644   tggacgcactcaacattttc A/G agttattactccttcaactc   19Th               ABCC9   6   intron 4 + 757   aggatatcatgaaacactga A/c tcttagtaaaaactatcttt   1977               ABCC9   7   intron 4 + 1022   tactgtggaatttttcttgc A/c acagagatatgtatttttca   1978               ABCC9   8   intron 5 − 1217   cagtggtagatgtgttttct A/G ttgccatcatctacaaatat   1979               ABCC9   9   intron 6 + (106-107)   tatgagttgttcaaataggc (T) 7-9 cagagaattgaatgctttct   1980               ABCC9   10   intron 6 + 1347   tcagtcgtattcctactaaa A/Δ caaaattttgtaagttatgt   1981               ABCC9   11   intron 6 + 1618   ctttttatttgctgcttacc G/A ttttactaaggttggatata   1982               ABCC9   12   intron 6 + 1835   cttttaataaatgcaaactg C/T acacctggtctataaaaaga   1983               ABCC9   13   intron 7 + 407   cctatagaatttttcttttc T/G tttttctcaaaaaaattaaa   1984               ABCC9   14   intron 7 + 423   tttcttttttctcaaaaaaa C/T taaatgtttgttatttattt   1985               ABCC9   15   intron 8 + 743   ttctgtagatgaagcttaag A/T gctagatcttatttgaaaaa   1986               ABCC9   16   intron 8 + 850   tttttaacttattgtttgcc T/G tttcattttttaatagaaaa   1987               ABCC9   17   intron 9 + 585   cgaatttgctgcttttagag A/T aatctttgcaaataataaaa   1988               ABCC9   18   intron 9 + 1394   atttttcttcttgtaagtat G/C agtgatagagctgactgcag   1989               ABCC9   19   intron 12 + 1167   atttgtaagacttttaaaat G/A agataattgtgctggtgtct   1990               ABCC9   20   intron 12 + 1195   tgtgctggtgtctatatctt A/G ctgagaaaactagaatttat   1991               ABCC9   21   intron 12 + 2123   ataagtgctctcccagtgtt G/A attggacttagagcattttc   1992               ABCC9   22   intron 12 + (2653-2656)   caaaacagaataatgaaaag TAAC/Δ tattatctaaaataataaaa   1993               ABCC9   23   intron 13 + (3043-3044)   aagtcaaaatatattagtat   1994               ABCC9   23   intron 13 + (3043-3044)   aagtcaaaatatattagtat   1995               ABCC9   23   intron 13 + (3043-3044)   aagtcaaaatatattagtat   1996               ABCC9   24   intron 14 + 85   ttctgtgaaagtgtcccaaa T/A tgtgcctttaaattgttttt   1997               ABCC9   25   intron 14 + 275   agtgtcacatgtattttttc T/C ggtattcctatgtttatcaa   1998               ABCC9   26   intron 14 + 453   ctcatttcaaacttggctat T/C tggactctccccaggcattg   1999               ABCC9   27   intron 14 + 3709   atcccctagtgatgtacact G/A agcttgcctccatctttcct   2000               ABCC9   28   intron 14 + 3813   ctgatttatatattagctga C/T tttccaagttcagacatcta   2001               ABCC9   29   intron 14 + 4000   ttcttttacttcaatgtagc A/Δ ccaaatcagaaggtgacatt   2002               ABCC9   30   intron 16 + 1466   atcccactggatttaattac A/C ttgtgtagcttgtacaacca   2003               ABCC9   31   intron 16 + 5357   attttggaagagaaattata T/G aaccttccacaactgaattt   2004               ABCC9   32   intron 17 + 1368   aatcctggtgtttttttttt T/Δ ctttttcatttttcagtagg   2005               ABCC9   33   intron 20 + 98   aagtaactcaaggaaagatg G/A tttaacttgtgaaatcgtaa   2006               ABCC9   34   intron 22 + 28   ctcatagttcagaagagttc A/C gagcccaattcagaagagtt   2007               ABCC9   35   intron 22 + 194   tgaacctataaaattctaat G/Δ ccatctttggatgaggtgca   2008               ABCC9   36   intron 22 + 1370   ccagggacaaaagaagatga C/T gtaaacttaaggattgggac   2009               ABCC9   37   intron 22 + 1487   agcaagccaggaagaaagtc C/G attaagttgtatttagaaat   2010               ABCC9   38   intron 23 + (455-462)   atagccatgaaggataagaa AATTAGAA/Δ tgccatttgt   2011                   tatgtttcag               ABCC9   39   intron 24 + (460-465)   aactctttctcttcatctgc TTTTAAAA/TTTTAA gcaagccttg   2012                   aaggagagtg               ABCC9   40   intron 24 + 595   gcatgcaaaataatgaagaa A/G acaatcttgtctgacattga   2013               ABCC9   41   intron 28 − 926   aaatatttcagaatttgggg G/A tgtagagcatttgccgtcat   2014               ABCC9   42   intron 29 + 2692   cttgtaagtctttttttttt T/Δ aaagtaatgaaaatttctaa   2015               ABCC9   43   intron 29 + 5464   agacaacactgcttttttgt G/A tgttcacaattcaacgacag   2016               ABCC9   44   intron 29 − 1830   aactggctgaaaggaaaaaa A/T tcatattgctgtaaatattt   2017               ABCC9   45   intron 31 + 102   tgcttttgctttccacttca G/A tatccagaaaactctctcat   2018               ABCC9   46   intron 33 + 877   aacatggaactatagtaaat A/G tagtttttttggggttcaga   2019               ABCC9   47   intron 36 + 1281   aatttacacttttttttttt T/Δ gcaggagaatattttgcaaa   2020               ABCC9   48   3′flanking + 197   aatggagctcatgcatgtgt T/G ttcaaatatatacatgcaaa   2021               CES1   1   5′flanking − 983   tatttccttagccagcggta T/C cacagtgtgtttagtgaatt   2022               CES1   2   5′flanking − 814   tcacattgccttgacatcac A/C cctactgctcctccacccta   2023               CES1   3   5′flanking − 248   agtcctgcaagggtgacacc G/Δ ttatgccacaagcagttggg   2024               CES1   4   intron 1 + 22   tgagtccttctgaagtcaaa T/Δ atgcggggcactttttgaaa   2025               CES1   5   intron 1 + 30   tctgaagtcaaatatgcggg G/T cactttttgaaatccttgtt   2026               CES1   6   intron 1 + 1682   aagggaatccctgagctgag C/A atgaccagcccagtggtttc   2027               CES1   7   intron 1 + 1726   cctccctgaagtcctcagca A/C tcttagctggttcctcgccc   2028               CES1   8   intron 1 + 2716   tgcttccaaggaagttcatc T/G cagtattatttgtaattagc   2029               CES1   9   intron 1 + (2747-2749)   tgtaattagcaacaacaaca AAA/Δ gaaaagaagctaaatattga   2030               CES1   10   intron 1 + 3288   ttatttgtccattaaagaaa A/Δ ctcaagcgcttagcctggca   2031               CES1   11   intron 1 + 3691   gagaatatgggacacccctt T/G ttcatcctctcatccagcat   2032               CES1   12   intron 1 + 3819   tccttcttgcatttattttt A/G gctggatgtttttatgcctc   2033               CES1   13   intron 1 + 3880   aaccagctcaatgggttagg G/A aggacattgatcgtcatccc   2034               CES1   14   intron 2 + 74   gagtcaaggcagtcccctga T/C gggctgatcctttgctctgg   2035               CES1   15   intron 2 + 552   atggaaggtgtgtccattca C/A cctggccaagctgggaagaa   2036               CES1   16   intron 2 + 885   cagtattttagatggtaaag T/C attatgatgtaatatattgt   2037               CES1   17   intron 2 + 2001   ttggcatgtcagggctgcaa G/A actcatgtagaaatcactcc   2038               CES1   18   intron 3 + 2119   cgctgagtgcatgaatagtc T/C aggcttgagggtgatgggag   2039               CES1   19   intron 4 + 127   taaggcatccaagccccttc G/A taattggacactacctaccc   2040               CES1   20   intron 4 + 347   tctgtcatgacacttagcag t/G cagcccagcaggtgaaggtt   2041               CES1   21   intron 4 + (1984-1985)   tgtggtcctgaaggtcctgc (C) tgacatctctgctccccacc   2042               CES1   21   intron 4 + (1984-1985)   tgtggtcctgaaggtcctgc     tgacatctctgctccccacc   2043               CES1   22   introns + 766   gaggtgggcagagggtcagc T/C cactactggattcctcagtc   2044               CES1   23   intron 5 + 825   ggagtagatctagcctggaa T/G agcgagtgagtcactgaccc   2045               CES1   24   intron 5 + 828   gtagatctagcctggaatag C/T gagtgagtcactgaccccac   2046               CES1   25   intron 5 + 868   ctcctagcatgaactctcc T/A cccctccactctgctgtcag   2047               CES1   26   intron 7 + 68   acttcttcatttcagctgtc C/G tcttgcccagggacagtttc   2048               CES1   27   intron 7 + 681   cctccaaaatcaacaatcca A/G ttatcgcctgtctgctagtt   2049               CES1   28   intron 1 + 885   aggaactatccaaagagaaa T/C acattcatatacttcgcagg   2050               CES1   29   intron 7 + 2151   gtcgtgtaaactgaaaatct C/G aggagttgatggcttcaggc   2051               CES1   30   intron 7 + 2470   atatagatatacgaattcac G/A gagtgatgcgggaagaacct   2052               CES1   31   intron 8 + 128   cgtgtttgtttctgaggccc A/C gagaggggtagtgactcacc   2053               CES1   32   intron 8 + 2618   cctgatggcaacacatgagt T/C gggctctctctaatctgtga   2054               CES1   33   intron 8 + 2665   aaaaattattcatcaaaggt G/A aaacctaaaattaagacatg   2055               CES1   34   intron 8 + 3785   ccatggcgcatggccatgcc G/A gtctatggtactggtctcac   2056               CES1   35   intron 8 + 3791   cgcatggccatgccggtcta T/C ggtactggtctcaccctcag   2057               CES1   36   intron 10 + 222   gtgggctggagaagctgcat C/T gctcacccggggctggtggt   2058               CES1   37   intron 10 + 230   gagaagctgcatcgctcacc A/C ggggctggtggtcacttttt   2059               CES1   38   intron 11 + 1177   ctagcaggtgccctgacaca C/G ctttgcacaggaaggggcag   2060               CES1   39   intron 11 + 1311   gccctatgctctgcgtctga A/G ctatatatagagttcccatc   2061               CES1   40   intron 11 + 2025   ttctcatttgggatgctaag A/G ttaaaaattagcataacact   2062               CES1   41   intron 11 + 2029   catttgggatgctaagatta A/C aaattagcatzaacacttcca   2063               CES1   42   intron 11 + 2317   cattcacaaaagctctttct T/C ctatggttggctctyagttt   2064               CES1   43   intron 11 + 3887   caaatatttggctctaattc C/T gcttccacctcagacagcta   2065               CES1   44   intron 12 + 2311   gcgcctctgggcatctcact G/A tgcatgcttaggcgccttgc   2066               CES1   45   intron 12 + 2331   gtgcatgcttaggcgccttg C/G ggctctgttgtttttcagaa   2067               CES1   46   3′flanking + 71   aacggtgatgaaagaggcga T/C gtgagaaggaaggtggcttt   2068               CES1   47   3′flanking + 362   ttgcatggcacttactgacc G/A ttgcacaggcctgcaacacc   2069               CES1   48   3′flanking + 581   atttctggattctgttagta C/T gtagaaagctctaaagcatg   2070               CES1   49   3′flanking + 1348   aaatctgctgctgggagaga G/C agcaaagcatgcagatcaac   2071               ABCB4   33   intron 22 + 767   acagtgggctgatgcataga A/Δ cctgtagcaatccaccagca   2072               AADA   23   intron 2 + 46   tgtcactgaggtagttcgca A/G acattttactaagtcttcag   2073               AADA   24   3′flanking + 208   aatgctaaaaaaaaaaaaaa A/Δ tcactgtggtactttgggga   2074               A8CA4   1   5′flanking − 1005   tgccatcataagcagaaact A/C tctctctcttcttggaagct   2075               ABCA4   2   5′flanking − 819   gtctagagtctttcaaagag A/T acacattctgagatttgagg   2076               ABCA4   3   5′flanking − 680   agcaccaccccattgcaggg C/A tggaatgacagtaatgggcc   2077               ABCA4   4   intron 1 + 208   tgcccttcccaggaagatgt G/A tttctctgtcctcagccaca   2078               ABCA4   5   intron 1 + 234   ctgtcctcagccacatgaaa A/G tcttttgcctaccgtgcctg   2079               ABCA4   6   intron 1 + 510   agctcacgatcaagtcacag T/C ttaactggacacattatttt   2080               ABCA4   7   intron 1 + 1527   gcttaacaaccagcataaaa G/A agagcagcatgggacacgct   2081               ABCA4   8   intron 1 + 2077   caggactgtagctgctggcc T/C aaaatgagcccattcctgtg   2082               ABCA4   9   intron 1 + 2174   ccctctcaatctggcctttc G/C ctggcatgggtgggcgactc   2083               ABCA4   10   intron 1 + 2246   gctcccagggagatggagcc A/G ctcgggctgagggccttggc   2084               ABCA4   11   intron 1 + 2364   ttctgtctggcacgcctccc G/A atggctccccacctgctacc   2085               ABCA4   12   intron 1 + 4243   ctccctggggtatgcctgta C/G gcagttaagcgtcaaggaca   2086               ABCA4   13   intron 1 + 4287   atgccgctctggggagggga A/C gctgagcatgattttggaag   2087               ABCA4   14   intron 1 + 4309   ctgagcatgattttggaagc C/T ggcagaagaggctattgtga   2088               ABCA4   15   intron 1 + 4416   tgcagcaaccgcccccgccc C/T ccgccaaaaacaaacacact   2089               ABCA4   16   intron 1 + 4996   tttacccctggaacaggcag G/A ccaagctggctggtcccctc   2090               ABCA4   17   intron 1 + 5007   aacaggcaggccaagctggc T/C ggtcccctccctgatacaca   2091               ABCA4   18   intron 1 + 5080   gtgtgtggctggtttcttag C/G aagcaccatggttccaagtt   2092               ABCA4   19   intron 1 + 5152   gggagatgaacgtaagtgga G/A ggcaggcctacaaggttgca   2093               ABCA4   20   intron 1 + 7110   ccactggatctgcttttgga A/G tcaagagtccttaagctcca   2094               ABCA4   21   intron 1 + 7290   gatttttgttggctttgcaa T/A ggatcacagtcatttattca   2095               ABCA4   22   intron 1 + 7483   tctgagcctctttccttaac T/C gcagagtgagtggctacaga   2096               ABCA4   23   intron 1 + 7497   cttaactgcagagtgagtgg C/T tacagagaaatctttactac   2097               ABCA4   24   intron 2 + 1067   tcaagcagcagcagcaactg C/A gtggagtcttcttgaactaa   2098               ABCA4   25   intron 2 + 1106   aacactcctatgcccctctc G/A gcacaaaatgacgtgtcccc   2099               ABCA4   26   intron 2 + 1119   ccctctcggcacaaaatgac G/A tgtccccccttgcttcccct   2100               ABCA4   27   intron 2 + 1243   cacccagcacagggactggc A/T cacatgagatgctcctgctt   2101               ABCA4   28   intron 3 + 26   tgttgagatccctaccatgc A/G ggggaggaagttgcacaccc   2102               ABCA4   29   intron 3 + 101   agcatggagcactgagtgtt C/T ttgtggctttgctgagcccc   2103               ABCA4   30   intron 3 + 330   tgcttgggtggagtgaatca T/C tgtaggagaaaaactcagtt   2104               ABCA4   31   intron 3 + 470   tgaagtcaggtttacaaagt C/G aagtttacttcttgggagaa   2105               ABCA4   32   intron 3 + 634   tgaaaaccaatgacccctct T/C ccaagaaaaatggccacata   2106               ABCA4   33   intron 3 + 1016   ccttgggggagctcagtatg A/G ttcttccaggagaagcctgc   2107               ABCA4   34   intron 3 + 1554   gaaagttgggtttcatgttt T/C gcactcacattatgagtgaa   2108               ABCA4   35   intron 3 + 1686   ctagacattctcacagagcc A/C agggcagcaaggcggggctc   2109               ABCA4   36   intron 3 + 1823   ttcacctctctccatggacc A/C gtctcccctgctcctcaatg   2110               ABCA4   37   intron 3 + 1938   caaattcctgggaacaaatc G/A ggttgacccagctttattct   2111               ABCA4   38   intron 3 + 1951   acaaatcgggttgacccagc T/G ttattctccctgtcccatca   2112               ABCA4   39   intron 3 + 2063   ggctgtcagagcctacctgc G/T tgaatgggtggaagggcagg   2113               ABCA4   40   intron 3 + 2079   ctgcgtgaatgggtggaagg G/A caggtctcagagaattgggt   2114               ABCA4   41   intron 3 + 2186   agacacacagagcatgggac C/T gagaggcgagcagaccctgc   2115               ABCA4   42   intron 3 + 2214   gagcagaccctgccaaaact G/A ggagactgaatagatcgctc   2116               ABCA4   43   intron 4 + 2717   cgtgcttctgcacagccacc T/C gggaaggtatgccgatggtt   2117               ABCA4   44   intron 4 + 2802   attctcagcagggaggatta A/G tggtaaaagcccaggaatgg   2118               ABCA4   45   intron 4 + 3182   cccccagagccacagcagcc C/G tgtctcctgggtggtcttgt   2119               ABCA4   46   intron 4 + 3515   agtataataaaagcaggagc C/T atagcccccaactctcaaga   2120               ABCA4   47   intron 4 + 3907   aggggagtgacagtgggcac C/A actctcagggaacccattac   2121               ABCA4   48   intron 4 + 3923   gcaccactctcagggaaccc A/G ttactgtgagagaagccact   2122               ABCA4   49   intron 4 + 3952   agagaagccactgtgccact G/C tgtggtcgaacttcaagacc   2123               ABCA4   50   intron 4 + 4125   ggctgtccagcacacagggg C/A aggcctcttggccactgggg   2124               ABCA4   51   intron 4 + 4637   aatcacttgccccaaggtca C/T cttaactgttaggtgtictt   2125               ABCA4   52   intron 4 + 5319   acctctaggggctcccagag A/G ccccaagaacagaaccttcc   2126               ABCA4   53   intron 6 + 2266   cacccttgcagacctcagac G/A ggtcctgggggcttgctttc   2127               ABCA4   54   intron 6 + 2857   ccagaggagaaagctctgcc G/A tagtcggcctcagttaacca   2128               ABCA4   55   intron 6 + 2861   aggagaaagctctgccgtag T/C cggcctcagttaaccacgga   2129               ABCA4   56   intron 6 + 3078   gcaggcattaaaatgggact T/G tgcctttattgctcctgggc   2130               ABCA4   57   intron 6 + 3375   ttaaatgccaaatgagttct C/G attaacaaayaaayagggaa   2131               ABCA4   58   intron 6 + 3412   ggaaaatctcagtaaaccac C/T gtgacggcatctacccactt   2132               ABCA4   59   intron 6 + 4635   ctttcgggtggatattgcta C/T gtcaagtytctgggaaagcc   2133               ABCA4   60   intron 6 + 5576   ccactaatatgcattcttta G/C taagcggtctcaatatacac   2134               ABCA4   61   intron 6 + 5925   aaaaagcattttgctcttat A/G aaagcacagcctcttttgag   2135               ABCA4   62   intron 6 + 6916   cccagacaacccaagcagag A/G cctcttagggccggaatcat   2136               ABCA4   63   intron 6 + 6993   agcacaggatcaaggcctaa A/G ggccccttagactgacctca   2137               ABCA4   64   intron 6 + 7242   ttgccattttgatctgtgac T/C tttttttccagaaatagttt   2138               ABCA4   65   intron 6 + 7454   atggagggctccctcgggac T/C aggcagtattcagagatgta   2139               ABCA4   66   intron 5 − 264   aaacagcaattagaatcact T/C tgaaatagtgatagtattta   2140               ABCA4   67   intron 6 − 86   aggagggggggagttttcaa A/G catataggagatcagactgt   2141               ABCA4   68   intron 6 − 32   tatacctacaaacatatata T/C atttaaaaaattgttttact   2142               ABCA4   69   intron 7 + 828   gatgtgggaaagttagagaa G/C agcccattgtactaatgctc   2143               ABCA4   70   intron 7 + 1019   aggcttcttgactgtctaga T/C agcaagtctaatcatttgtg   2144               ABCA4   71   intron 8 + 374   gtaaacacggctgtgggatg C/T ttttacaaacacaatatcgt   2145               ABCA4   72   intron 8 + 874   tgatgagcttgttattggtg G/A ggtacagcctattaatttag   2146               ABCA4   73   intron 9 + 605   tcgtgtctctgtcttgatct C/T tgtctggttttaggccaact   2147               A8CA4   74   exon 10 + 1268   aacttttgaagaactggaac G/A cgttaggaagttggtcaaag   2148               ABCA4   75   exon 10 + 1269   acttttgaagaactggaacg C/T gttaggaagttggtcaaagc   2149               ABCA4   76   intron 11 + 5236   ggcctggcacagatgaaata C/T tattcagagttcacagtgta   2150               ABCA4   77   intron 11 + 5270   cagtgtattttcatttcata A/G tatatttgattttcaggtct   2151               ABCA4   78   intron 11 + 5687   atcatgtaatgtactttaga C/G tcagatatataaatatttgt   2152               ABCA4   79   intron 11 + 7136   Qacttcccaacttaccttag T/C ggagctgtagtcacatagaa   2153               ABCA4   80   intron 11 + 7180   acgctcataaatgcttctct G/A ggctgtaaaggttgaatttt   2154               ARCA4   81   intron 11 + 7701   gttagacgcaggcattacct C/T gtggctttgccccagtgtya   2155               ABCA4   82   intron 11 + 8073   gggatgtttgcccacatcca T/C tggcatttctcaaaaggaac   2156               ABCA4   83   intron 11 + 8586   cagctgcctgcgctggagag G/A gctcaaacctcttccgccag   2157               ABCA4   84   intron 11 + 8893   agcaaagatgccctttgact C/T cttttcccactagtggtgct   2158               ABCA4   85   intron 11 + 9257   gaatgaggtcacttgctgca T/A ggcaggtggcttccccatga   2159               ABCA4   86   intron 11 + 11234   cccaaataattttgtttttc G/A ttttaggaattaaatttcag   2160               ABCA4   87   intron 11 + 11641   aagaaacaaacatttattga C/G aacttttggtgtgtgacctg   2161               ABCA4   88   intron 11 + 11808   tggtatttcttaaagaaata C/T caattccatttccttttaac   2162               ABCA4   89   intron 11 + 11923   aagatcattattaatatctc A/G tcagcgtggtgtoacttaag   2163               ABCA4   90   intron 11 + 12055   tgagaacattacatgggacc T/C gcccccagggcatggaggct   2164               ABCA4   91   intron 12 + 305   tcaccctgtggtcgggaggt G/A tgagtgagctatccaagccc   2165               ABCA4   92   intron 13 + 1461   ttgggtttcagtgtcagcat G/A tagctgtctactcagatccc   2166               ABCA4   93   intron 14 + 1237   aagggcaccaaagttctaag A/G gatgaggggaggagctgagc   2167               ABCA4   94   intron 14 + 1268   ggagctgagccccttgtcct T/C atctaggtttcccttgttct   2168               ABCA4   95   intron 14 + 1309   ttcccatccctcagtctgct T/C cttttcccagtaccaacatg   2169               ABCA4   96   intron 14 + 2979   tcacctgtgtgggtagcaaa C/T ctcagaaaatcaagtataga   2170               ABCA4   97   intron 17 + 23   gagtcctttaaaacacaaat C/G ttaatgtttgaaatcaactc   2171               ABCA4   98   intron 17 + 204   tgctgggccctgtgtgatca T/G gaatggctgatcatggatga   2172               ABCA4   99   intron 17 + 715   gggactcccctagagctgaa G/A tactctcccatctgtttgtt   2173               ABCA4   100   intron 18 + 1282   ggaagatgaagaacctaagc C/T gcttccagaaattcatgagg   2174               ABCA4   101   intron 18 + 1531   gtctaccccttaggaccatt G/A taagagtacattgaggtaat   2175               ABCA4   102   intron 19 + 1802   actgctcacccaggaggcaa C/A gcctcgagtcatgcaccgaa   2176               ABCA4   103   intron 20 − 195   acagattattccattgtatg C/A atgaactatgtaagccatcc   2177               ABCA4   104   intron 23 + 755   ctggctgccgctggggtttc C/T tatgtccatccacggggagg   2178               ABCA4   105   intron 26 + 497   ctgagttaggtctagatggg G/A acactttggatgaatgagga   2179               ABCA4   106   intron 26 + 702   tatcaaatacaactcagacg T/G cagtctcctggcccctttga   2180               ABCA4   107   intron 27 + 156   cctgctttccaaacccttat C/T ttgattcttggtaacatgaa   2181               ABCA4   108   intron 27 + 385   tttaaagaacagtgagtcac G/A tgacttgctctttgaaatyc   2182               ABCA4   109   intron 28 + 299   gacatgccatcagaccactg C/T gagtgttcaggcagcctacc   2183               ABCA4   110   intron 29 + 168   ctccttccacacttgtgtgc A/G gggacattcactacctccta   2184               ABCA4   111   intron 29 + 497   gctgtcaataaggaccaaaa C/T agactaatttcaaattcctc   2185               ABCA4   112   intron 29 + 567   agctgctaggaataaaaagg G/A agacaaaacgatccacaagc   2186               ABCA4   113   intron 29 + 577   aataaaaagggagacaaaac G/A atccacaagctagagatggt   2187               ABCA4   114   intron 30 − 2494   aatcacagctcatctgctgc A/G tcatagggatcccaaaagaa   2188               ABCA4   115   intron 30 − 2169   aatgtaacagccaaagtcct A/G gaaaaaggcaagccagttcc   2189               ABCA4   116   intron 31 + 535   ctaactgtgaattatcatct T/G tgatcactgccctttgagat   2190               ABCA4   117   intron 31 + 957   gagttctcagcagcaaatct C/A cagtatgaaattttggattt   2191               ABCA4   118   intron 32 + 445   tccagaggtttagaacctca C/T caagtgggactctaggagcc   2192               ABCA4   119   intron 33 + 48   aggatttttgacttgcttaa C/T taccatgaatgagaaactct   2193               ABCA4   120   intron 35 + 129   tgtttagtcaggcacatatg A/C acatccgactttcaaataag   2194               ABCA4   121   intron 35 + 209   tctccccaacatttatgtgg C/A aagtaagtttacatttggtt   2195               ABCA4   122   intron 36 + 3209   ttgaggcctccacaccccac G/A gcaggttgccccctgaggaa   2196               ABCA4   123   intron 36 + 3542   cttggcagggaggtagggca T/C ggggtggggtaggaggacta   2197               ABCA4   124   intron 37 + 304   ctgggggcagccattcccca A/G cccctcacccagctctgact   2198               ABCA4   125   intron 37 + 525   taaaLttgaatgagtaattc A/G tccatctcggcctcagtttc   2199               ABCA4   126   intron 37 + 766   tgttgcaggctggagaaccc T/G cctatgaattgtacagggct   2200               ABCA4   127   intron 37 + 856   aaaaccccatgaagtggtca A/G ggcaggcatcattatctcca   2201               ABCA4   128   intron 38 + 62   tagtagagtatgtgttggtc G/A agcagagccaggggcaagca   2202               ABCA4   129   intron 38 + 761   tccttgggcaagttaatctt G/A atgaagagactgggtgttct   2203               ABCA4   130   intron 38 + 1315   cagagtcayactctggaaag G/T cggggggataagaacacagc   2204               ABCA4   131   intron 38 + 1316   agagtcagactctggaaagg C/A ggggggataagaacacagcc   2205               ABCA4   132   intron 38 + 1526   ccaacatttgctaagcaccc G/A ccttcaaaaacctggtattt   2206               ABCA4   133   intron 38 + 1561   cttattttcatgtaaattatc C/A gatacacagctgctatggaa   2207               ABCA4   134   intron 38 + 1562   tattttcatgtaaattatcc G/A atacacagctgctatggaaa   2208               ABCA4   135   intron 38 + 1674   ccagctgaacaccacgtgcc G/A ggtgtgtgctgatataaaca   2209               ABCA4   136   intron 38 + 2867   tgcctggctagacaaagggg A/C agctcccgcccactagaaac   2210               ABCA4   137   intron 38 + 2874   ctagacaaaggggaagctcc C/T gcccactagaaacttgcagg   2211               ABCA4   138   intron 39 + 123   gaggggaccttgttgggctg G/A aggtgtcctgccagctggag   2212               ABCA4   139   intron 40 + 1904   gacactgtacagccagccca A/C tcctgaccccttttcttcat   2213               ABCA4   140   exon 41 + 5814   ggaaataaaactgacatctt A/G aggctacatgaactaaccaa   2214               ABCA4   141   intron 41 + 122   atttggttcccagttttatg T/G agggtcatcatccctgtgtt   2215               ABCA4   142   intron 41 + 287   tctgcagagcatgggtcagc C/T tcgagatgtctcagtactca   2216               ABCA4   143   intron 41 + 411   cctcttcccctccttgctct C/A accctgtctcagttctcagt   2217               ABCA4   144   intron 41 + 443   gttctcagtccggtttcttc G/A tatcttgcagatttatccag   2218               ABCA4   145   exon 42 + 5844   cgtatcttgcagatttatcc A/G ggcacctccagcccagcagt   2219               ABCA4   146   intron 43 + 328   tttgtagcctattcctataa A/G aatgcaccattgcttcccat   2220               ABCA4   147   intron 43 + 345   taaaaatgcaccattgcttc C/G cattacctccctccacacat   2221               ABCA4   148   intron 43 + 370   acctccctccacacattttt A/G caaaacgtttcagggagttt   2222               ABCA4   149   intron 43 + 376   ctccacacatitttacaaaa C/T gtttcagggagtttactgag   2223               ABCA4   150   intron 43 + 670   ttaaacagactggtccccta T/C gggcaggacagagaggatga   2224               ABCA4   151   intron 43 + 701   gagaggatgagctctcactc A/G tctgcctctttcctggctgc   2225               ABCA4   152   intron 43 + 822   gttaggtgctgctgacatct G/A tccagcatctgcttgactgg   2226               ABCA4   153   intron 43 + 915   ggcaggacgagtcctgagca C/T gcttcactggctcagacagg   2227               ABCA4   154   intron 43 + 1242   actgagctggacgctagaaa G/T aaactataggcttaagacac   2228               ABCA4   155   intron 43 + 1671   tagagaagtttacttccatc G/A ggacacatgcatcttttcta   2229               ABCA4   156   intron 43 + 2036   ttgaaggatactcagtaatt G/A ctttttttcttgcagtattt   2230               ABCA4   157   intron 45 + 176   gtgtttggttcacacagctc C/T ggagaaaaacaagtcacggc   2231               A8CA4   158   intron 45 + 193   ctccggagaaaaacaagtca C/T ggcacagccttgacttggga   2232               ABCA4   159   intron 47 + 238   cccaagtctctggatggggc A/G tctgatcaggatgcatgcag   2233               ABCA4   160   intron 47 + 269   atgcatgcagagcctggctg C/A gatgagggagggctgctacc   2234               ABCA4   161   intron 47 + 326   accacttatctcaacagatc C/G gggacctytggcctatttac   2235               ABCA4   162   intron 47 + 715   aagtcactaagctggttggt C/A ggaggaacagcacataaccc   2236               ABCA4   163   intron 47 + 734   tgggaggaacagcacataac C/T caccttatctatgctgaggt   2237               ABCA4   164   intron 47 + 931   ggacactgcatagatatcta T/C agaaatagcagcatgtcagg   2238               ABCA4   165   intron 47 + 1260   acactctctggtggaccatc A/C ctcatccaagagagggtaac   2239               ABCA4   166   intron 48 + 1663   tctcgctcttctcttacctc T/C aggtgtttgtaaattttgct   2240               ABCA4   167   intron 49 + 127   agagagccccacccacacca C/T ggtccctaccaagtccccac   2241               ABCA4   168   intron 49 − 1545   gcagttaattccaaactttt C/A tcccttattggatgagatca   2242               ABCA4   169   5′flanking − (1441-1400)   gtaaatctcagttgaatcag (TCA) 14-16   2243                   atttttcagtctggttcctg               ABCA4   170   intron 1 + (4712-4720)   gaggggcggggactataggc (A) 8-10 cagcctaattcaaggatgag   2244               ABCA4   171   intron 1 + (7295-7304)   ttgttggctttgcaatggat CACAGTCAT/Δ ttattcactc   2245                   attcattcac               ABCA4   172   intron 2 + (951-952)   cctgtccatcagactcttct TT/Δ acctctccccgaggagccca   2246               ABCA4   173   intron 3 + (2642-2653)   tagcatgagatattattact   2247               ABCA4   174   intron 4 + 5202   cacaaagcatctgacacccc C/Δ atccagccctggctaacttt   2248               ABCA4   175   intron 6 + (3029-3044)   cctgaaagaaattgcaggca   2249               ABCA4   176   intron 6 + (5138-5139)   ttcatgacagatcagatgtt (G) cttttatggatttacaaaga   2250               ABCA4   176   intron 6 + (5138-5139)   ttcatgacagatcagatgtt     cttttatggatttacaaaga   2251               ABCA4   177   intron 6 + 5985   tttccttcttcaaacccccc C/Δ agactaggagaaggtctgtc   2252               ABCA4   178   intron 6 + 6094   gggacggacagaaaaagacc T/Δ agtttctgttgagccaaaga   2253               ABCA4   179   intron 6 − 161   tattttttcaattaaataaa A/Δ gagttttttgtttctaaaag   2254               A8CA4   180   intron 7 + (809-810)   gggccgagtatgcacactga (TG) tgtgggaaagttagagaaga   2255               ABCA4   180   intron 7 + (809-810)   gggccgagtatgcacactga     tgtgggaaagttagagaaga   2256               ABCA4   181   intron 8 + (472-484)   ggtcttctatggggtaaagg   2257               ABCA4   182   intron 9 + (48-71)   gtaccctggacctcccagaa (GT) 11-13   2258                   gagagagatgtgccttcctg               ABCA4   183   intron 9 + 554   ataggggcagaaaagacaca A/Δ ccaaaagttctctctcactt   2259               ABCA4   184   intron 10 + 11   catgatcagagtaagggggg G/Δ ttggaggatggggaggggag   2260               ABCA4   185   intron 11 + 4242   ggagaggaaatgatgttagt G/Δ cctcctgtaaataggcccag   2261               ABCA4   186   intron 11 + (13743-13753)   tgctcttttgtgggtaatgg (T) 9-11 cctcttccaggagaagaaaa   2262               ABCA4   187   intron 13 + (636-637)   cggggtggagggttgggagg (G) ctcatttgtcattatagatg   2263               ABCA4   187   intron 13 + (636-637)   cggggtggagggttgggagg     ctcatttgtcattatagatg   2264               ABCA4   188   intron 18 + (569-570)   tgctgccctcatcttctctc TT/Δ aaactagttctgtatttctc   2265               ABCA4   189   intron 20 − (304-297)   tataacctgacttttttttc (A) 7-9 ggattgcttttttaaacata   2266               ABCA4   190   intron 22 + (1236-1246)   gctgaattagttcccttggg (T) 9-11 agttaactcctgatttttgc   2267               ABCA4   191   intron 26 + (4626-4635)   gataatcaatgctgtaaggg (A) 9-10 tggcattagagatccagacc   2268               ABCA4   192   intron 33 + (115-116)   taaaaccgtcttgtttgttt GT/Δ ttacatggtttttagggccc   2269               ABCA4   193   intron 36 + 1078   taagcagctatcacttaaca A/Δ tacaaaaccagagattatca   2270               ABCA4   194   intron 37 + (290-291)   ccttgaccaaagcctggggg (T) cagccattccccaacccctc   2271               ABCA4   194   intron 37 + (290-291)   ccttgaccaaagcctggggg     cagccattccccaacccctc   2272               ABCA4   195   intron 38 + 896   ttaaaaagagggggaaaaaa A/Δ gaaggcagtcgctgcagggc   2273               ABCA4   196   intron 38 + (1209-1210)   gtggacccctgagactgact CT/Δ ttccagatcttgttagggtt   2274               ABCA4   197   intron 38 + 1322   actctggaaaggcggggg G/Δ ataagaacacagccccagca   2275               ABCA4   198   intron 38 + 3107   gggccccacctgctgaagag A/Δ gggggggtggggtttgcccc   2276               ABCA4   199   intron 40 + 152   ttttctccaataatacaagt A/Δ gaggatcgggttaaaatagg   2277               ABCA4   200   intron 43 + 330   tgtagcctattcctataaaa A/Δ tgcaccattgcttcccatta   2278               ABCA4   201   intron 43 + 1354   tttaattggcccagccatgc C/Δ tttggtggcttttgtcattg   2279               ABCA4   202   intron 47 + (1305-1308)   catcctgctgaaggagaaag AAAG/Δ caccaatggcccaagcccta   2280               ABCA7   1   5′flanking − 1598   agaatgttggccccctcccc C/T tcctgcatcctctgcagaag   2281               ABCA7   2   5′flanking − 1594   aatgttggccccctccccct C/T ctgcatcctctgcagaagcc   2282               ABCA7   3   5′flanking − 1180   ggccagtgagtgacgggcag G/A tcgcccaaatagcagcgtgc   2283               ABCA7   4   5′flanking − 460   agagctggggtcgtgcctcc A/G gctgggcaactgcctgtctc   2284               ABCA7   5   5′untranslated − 9   ctctgtcccgtcccctgccc A/G gtctcaccatggccttctgg   2285               ABCA7   6   intron 5 + 91   ccccgggccaaggacctccc G/A ttccaggcatccaggctgtc   2286               ABCA7   7   exon 6 + 563   cagcttgttggaggccgctg A/G ggacctggcccaggaggtac   2287               ABCA7   8   intron 8 + 103   gccggagggtcacggaaact A/G tttgaagaagtaggagttag   2288               ABCA7   9   intron 8 + 166   tgcggaggatcagaggcaca C/T gcaggagcaaggcagagggg   2289               ABCA7   10   exon 9 + 955   accggaccttcgaggagctc A/G ccctgctgagggatgtccgg   2290               ABCA7   11   intron 9 + 421   tttttttttttttttttttt T/A taagagatggagtctcactc   2291               ABCA7   12   intron 9 + 463   gttgcccaggctggactgca G/A tggcgagatcttggctcact   2292               ABCA7   13   intron 9 + 467   cccaggctggactgcagtgg C/T gagatcttggctcactgcaa   2293               ABCA7   14   intron 9 + 488   gagatcttggctcactgcaa C/T ctccgcctcctggattcaag   2294               ABCA7   15   exon 10 + 1184   cgcacacgctgatgtggggc A/G cctggtgggcacgctgggcc   2295               ABCA7   16   intron 10 + 10   gagtgacggaggtgagggcc T/C gtccacctgcggggtctgtt   2296               ABCA7   17   exon 11 + 1388   cctgggccccggccacgtgc G/A catcaaaatccgcatggaca   2297               ABCA7   18   intron 12 + 1155   caggctgcgaactttgcacc T/G ttacaccactccacgtgacc   2298               ABCA7   19   exon 13 + 1824   cccttcctgctcagcgccgc A/G ctgctggttctggtgctcaa   2299               ABCA7   20   intron 13 + 55   ggtgcgctggagggtgacag A/G caggggcggccccacgtggg   2300               ABCA7   21   intron 13 + 78   ggggcggccccacgtgggtg C/A gcgcccccaggccaatccag   2301               ABCA7   22   exon 14 + 1851   cgttgcctctcacagctggg A/G gacatcctcccctacagcca   2302               ABCA7   23   exon 15 + 2153   cgagggcgcgcagtggcaca A/c cgtgggcacccggcctacgg   2303               ABCA7   24   intron 15 + 34   ggcggggctccgggccgggt C/G gcacctgctttgcgggaggc   2304               ABCA7   25   intron 16 + 8   ctggacccaaagggtgaggc A/c ctacgaggcttaatagctgg   2305               ABCA7   26   intron 16 + 161   tcccgcagcttttataggcc C/T cggcccagcaggtcccggat   2306               ABCA7   27   exon 17 + 2385   caccccatctctgcagtgct G/A gtagaagaggcaccgcccgg   2307               ABCA7   28   exon 17 + 2421   cccggcctgagtcctggcge C/A tccgttcgcagcctggagaa   2308               ABCA7   29   intron 20 + 166   cgagacagtaagagttgggg A/G tagacagaggttcccctgga   2309               ABCA7   30   exon 21 + 3027   ctgctgggagaccgtgtggc C/T gtggtggcaggtggccgctt   2310               ABCA7   31   intron 22 + 1386   tggtggggcgtgagccgggg C/T tccctgaagcacccctttgt   2311               ABCA7   32   exon 23 + 3417   gggatctccgacaccagcct C/G gaggaggtgtgaggcctggg   2312               ABCA7   33   intron 23 + 147   ggagctctggtggctcagat G/A tcccttgggaaggcctgggg   2313               ABCA7   34   exon 25 + 3528   gctggcctagacgtaaccct A/G cggctcaagatgccgccaca   2314               ABCA7   35   exon 29 + 4046   cccagcctgccagtgtagcc G/A gcccggtgcccggcgcctgc   2315               ABCA7   36   intron 30 + 81   ccccctgggagctctcccgg C/A ccccccggccctcagctccc   2316               ABCA7   37   exon 31 + 4239   ctgcctgcatggccccacag A/G tacggaggcttctcgctggg   2317               ABCA7   38   intron 32 + 1   caaggagcagctgtctgagg G/C tgcactgtgagtccctccac   2318               ABCA7   39   intron 33 + 54   ccactgcttgccactgccct G/A tctggccccttgtaggcagg   2319               ABCA7   40   intron 34 + 245   cagtactttgggaggccgag G/A caggaggactgcttgtggcc   2320               ABCA7   41   exon 36 + 5O57   ggtgagccggatcttgaaac A/G ggtcttccttatcttccccc   2321               ABCA7   42   intron 38 + 65   ggcccactcacctttctgaa A/G gacctgcactctcccaggta   2322               ABCA7   43   intron 40 + 154   ctctacctcccacacgcgga C/G caggccctgagacacccctg   2323               ABCA7   44   intron 40 + 277   ttgagcccccggcgccccca T/C ccccagcgtggcccgggaac   2324               ABCA7   45   exon 41 + 5592   gtggcccgggaacccagtgc T/C gcgcacctcagcatgggata   2325               ABCA7   46   intron 41 + 286   ctccttgactctgccttctg T/C ggccctgcccacttgctcct   2326               ABCA7   47   intron 41 + 389   tggccgttcccagtttgcag C/T cgtttcactgcctcttccat   2327               ABCA7   48   intron 41 + 991   cacactatggccctgcccca C/T acccatcccagctccaccca   2328               ABCA7   49   intron 41 + 994   actatggccctgccccacac C/T catcccagctccacccacac   2329               ABCA7   50   intron 41 + 998   tggccctgccccacacccat C/G ccagctccacccacaccatg   2330               ABCA7   51   intron 41 + 1001   ccctgccccacacccatccc A/G gctccacccacaccatggcc   2331               ABCA7   52   intron 41 + 1051   actcatgctggctccaccca C/T accatggccccgccccatac   2332               ABCA7   53   intron 41 + 1131   tgccctgccccatgcccatt A/G tgcccctgctccacactcaa   2333               ABCA7   54   exon 44 + 5985   gaagcgctctgctcgcgcct G/A gccatcatggtgaatgggcg   2334               ABCA7   55   intron 44 + 201   ggcgcaggaccaggaggcgt G/C agccgggggctctgggtgga   2335               ABCA7   56   intron 44 + 233   ctgggtggatttagaagaca C/T aatcaggtgtgcgttggagt   2336               ABCA7   57   intron 44 + 313   agttaggggagggcctggtt A/G gtgggcggggccataggaaa   2337               ABCA7   58   intron 44 + 337   ggcggggccataggaaagtg G/C ggcgggggtatttattgtgt   2338               ABCA7   59   exon 45 + 6133   tggcggccgagttccctggg G/T cggagctgcgcgaggcacat   2339               ABCA7   60   exon 45 + 6159   ctgcgcgaggcacatggagg C/T cgcctgcgcttccagctgcc   2340               ABCA7   61   intron 45 + 27   acggcgccggggtcgggctg G/C gggaggcaggctgggggcca   2341               ABCA7   62   3′untranslated + 6580   aaggctggagagaagccgtg G/C tggtgaaaccgtgtgcatgt   2342               ABCA7   63   3′flanking + 108   caagctgagtgtgcacatac G/A ggccaagtggcgattcatag   2343               ABCA7   64   3′flanking + 376   cttacaggagcccggtgtcc C/T ggagcacaggccagggccgg   2344               ABCA7   65   3′flanking + 687   cagcagggagacttggggag G/A ggggagagagttcacactgc   2345               ABCA7   66   3′flanking + 688   agcagggagacttggggagg G/A gggagagagttcacactgcg   2346               ABCA7   67   3′flanking + 1169   cctcgacctgacccacttca C/T ggggctgcagggcgggtgat   2347               ABCA7   68   intron 9 + (398-422)   aagagatggagtctcactct   2348               ABCA7   69   intron 12 + (175-184)   ggggactctgagggtctggt (G) 8-10 actctgagggtctgggggcc   2349               ABCA7   70   intron 30 + (81-87)   ccccctgggagctctcccgg (C) 6-7 ggccctcagctccccttccc   2350               ABCA7   71   intron 34 + (349-361)   cagaaatgtgctttgggtga   2351               ABCG1   1   5′flanking − 1772   cctgggcttcagcaggggcc T/C cacacctgcaatgggtgcct   2352               ABCG1   2   5′flanking − 1754   cctcacacctgcaatgggtg C/T ctggggagagggtgcagatg   2353               ABCG1   3   5′flanking − 1450   tccaaagcccagatttggtg T/C ttttggggctcttttggaat   2354               ABCG1   4   intron 1 + 4   ctggtggaggaagaaaggta G/A ggagggcggctgctttgtgt   2355               ABCG1   5   intron 1 + 576   agctcaggaggtgtctggaa C/T gccacacagtgcaggagttt   2356               ABCG1   6   intron 1 + 1426   aattctccttctcaacttaa A/G gaaatattttatagaaaaat   2357               ABCG1   7   intron 1 + 2342   agagcctgcaatgggccgcc G/A agggacctgcccatgactca   2358               ABCG1   8   intron 1 + 2399   gaggggttgacagacaggat A/G tgtctgctgtgttccagctg   2359               ABCG1   9   intront + 2406   tgacagacaggatatgtctg C/G tgtgttccagctgctggttt   2360               ABCG1   10   intron 1 + 2911   ccctctctgtgcccactgtt G/C tcccaacaccagcctgttct   2361               ABCG1   11   intron 1 + 4363   tataatagattcctagcaga A/G aacataattgtgagaggaac   2362               ABCG1   12   intron 1 + 4752   gctttcagagcccattcaca C/T aagggtctcattttattagg   2363               ABCG1   13   intron 1 + 5026   ccaggtctgtgggatttcag G/A ccaaaaaggagcgtagcaag   2364               ABCG1   14   intron 1 + 5532   gggttaaatattccgggcag C/T gccaagtcagattatctgta   2365               ABCG1   15   intron 1 + 5681   gctaaagtgcatggaaggca T/C catgaataaatcctttcagg   2366               ABCG1   16   intron 1 + 6290   tcacagcagattcatgagag T/A tgaatgtttagccgccatgt   2367               ABCG1   17   intron 1 + 6386   agatgctcccctccagccag C/T acattttctccctgtgagca   2368               ABCG1   18   intron 1 + 6758   acctgcatggtgggtgcccc C/G ctgccttcctctactgcctt   2369               ABCG1   19   intron 1 + 7029   tgggtcagattaaatatatc C/T tgaaggactaaaccgtaaaa   2370               ABCG1   20   intron 1 + 7176   ttgctcacattgtgaaaaaa C/G gcaaaaagatgggttttcag   2371               ABCG1   21   intron 1 + 9243   gcctgagagcgctggcagta G/A gaagggtcgccagtgtggac   2372               A8CG1   22   intron 1 + 11224   tctggtttagagaggaaaat G/A ggcagcatcattttgtcacc   2373               ABCG1   23   intron 1 + 11371   gggctctcttggagcccttt T/G tctctcccagccctgcgtct   2374               ABCG1   24   intron 1 + 12420   gggatttcgaatctcaacac T/C ctgagctctgtgctttcccc   2375               ABCG1   25   intron 1 + 12484   gagttgtcctccaagagaat C/T tttgtatggttccttttctg   2376               ABCG1   26   intron 1 + 12955   ctggggttggtgggagccac A/G gtctcacacctattggcagg   2377               ABCG1   27   intron 1 + 12985   ctattggcaggtcgtgaaca T/C tgttcttggatttgcaaata   2378               ABCG1   28   intron 1 + 20041   acatggccggcttcccttct T/C cctcggaatggcctggaatt   2379               ABCG1   29   intron 1 + 20046   gccggcttcccttcttcctc G/A gaatggcctggaattcgatc   2380               ABCG1   30   intron 1 + 21058   acaagacttagaatttgacc G/A tgattttaaaactattctaa   2381               ABCG1   31   intron 1 + 26189   ttcttggatgtggccatgca C/T gggggcaagggtttgatgag   2382               ABCG1   32   intron 1 + 27453   atcatgtggtttgggggaaa G/C ctgggaccccacttggtaca   2383               ABCG1   33   intron 1 + 28098   caggaaggagacagctgctg G/C tgctgcttagagttaggcgc   2384               ABCG1   34   intron 1 + 29670   ccttcagttgtaataggcag A/G aggagcgcacgaggaggctg   2385               ABCG1   35   intron 1 + 29810   attgtttctcctggttttgt T/C tgtgttgactttccctttaa   2386               ABCG1   36   intron 1 + 36220   cagatcccttggttgctggg C/T aggtagtaggagaggttttt   2387               ABCG1   37   intron 1 + 36341   aaacagggcttgagtcctcc G/A taagggacaggagaccttcc   2388               ABCG1   38   intron 1 + 36370   aggagaccttcccacatcct G/A gcaagaattcttcttttttc   2389               ABCG1   39   intron 1 + 36662   cagactaaatgcacaattct G/A gattgagctgactgtattga   2390               ABCG1   40   intron 1 + 36914   tgtaaaagatggagaagaac A/C cagtagtcgcttgctgtgag   2391               ABCG1   41   intron 1 + 37029   tgtgactcatggcctctgcc A/G ggggactgggctggccctgc   2392               ABCG1   42   intron 4 + 1196   tgaaaagaaaatggatgagt C/A gaaaccaaaagagagaaaat   2393               ABCG1   43   intron 4 + 1200   aagaaaatggatgagtggaa A/C ccaaaagagagaaaatgtgg   2394               ABCG1   44   intron 4 + 2041   aagcagaggcttttccaccc G/A gagactcaagaagctgctcc   2395               ABCG1   45   intron 4 + 2490   gtggtgaagtagagctgagc A/T cacgggggagccctccatcc   2396               ABCG1   46   intron 4 + 2552   atggccttgggccactgcct G/A ctgtgccccgagccgagctt   2397               ABCG1   47   intron 4 + 2822   cagcaggctccgtgctgaag T/C cacagcaagccaggcccttg   2398               ABCG1   48   intron 4 + 2850   agccaggcccttggcctgcc G/A gagctggaagacccagaaca   2399               ABCG1   49   intron 4 + 2919   gcctcccaggagtagctaca C/T gggacccgaaggcagatggc   2400               ABCG1   50   intron 4 + 3506   ggcagcctgggctgccgaga T/C cctccctggagcgcccgccg   2401               ABCG1   51   intron 4 + 3538   cgcccgccgggaagccccag G/A ggggctggagctacaagtgg   2402               ABCG1   52   intron 4 + 3554   ccaggggggctggagctaca A/G gtggccttgcaggttttttg   2403               ABCG1   53   intron 4 + 3721   ccagctcatgggcaggggtg C/T ggagggaaaggcacccacag   2404               ABCG1   54   intron 4 + 3852   caccagagccactcagtcgg C/T Caagagcgtcgcccagtggt   2405               ABCG1   55   intron 4 + 3921   gaagaccagcagtcgatgcc A/G gctgggaagagggctctgcc   2406               ABCG1   56   intron 4 + 3979   acccaccagccttttccaga C/T agccttccagaagctgtttc   2407               ABCG1   57   intron 4 + 4291   gagccgctggagtagggtcc G/A cttgctatggctcccagggg   2408               ABCG1   58   intron 4 + 4922   gaaaccaccagaaattgtgc A/G tcctctcatgtgtccattca   2409               ABCG1   59   intron 4 + 4968   tattgactggacaccttctc C/T gtatggggcactgggctagg   2410               ABCG1   60   intron 7 + 672   atcagtaacgggtcactaac G/A gatgctgctgagtggggcag   2411               ABCG1   61   intron 7 + 840   atttcatttcctCaatgtcg T/C ctgaccagagagcgggaggt   2412               ABCG1   62   intron 7 + 891   tggcccactgttgagggtgt G/A ggtgaccagaggggcctgga   2413               ABCG1   63   intron 7 + 997   tgtgtcctggtttgtggctt C/G atctaggaggtgtggtggcc   2414               ABCG1   64   intron 9 + 1616   ctggaggagaagacaggata A/C agtctaagacgtgctgtcac   2415               A8CG1   65   intron 9 + 1630   aggataaagtctaagacgtg C/T tgtcacagagttcagggtcc   2416               ABCG1   66   intron 9 + 1674   tcttccaaaggccgcatccg G/T gttgttctctgagccgagga   2417               ABCG1   67   intron 9 + 1689   atccgggttgttctctgagc C/T gaggacggctttgcgaacgc   2418               ABCG1   68   intron 10 + 446   tggctgacagtgaacacagc G/A gctgcttctccagaacttta   2419               ABCG1   69   intron 10 + 581   atgcagagtttcagaagagg C/G agactcaggaagagtaaggc   2420               ABCG1   70   intron 13 + 243   tcccggagagccatggcagg A/C ccaagtgttctggacgttgc   2421               ABCG1   71   3′untranslated + 2370   gcctctcagctgatggctgc A/G cagtcagatgtctggtggca   2422               ABCG1   72   3′flanking + 1124   ctcagaactacatcgagtga G/A gtcagtgttgaaaacgccca   2423               ABCG1   73   3′flanking + 1252   atggggcccacagccctgcc T/C cagaagcagctttggtctcg   2424               ABCG1   74   3′flanking + 1433   gggggaagagcttgggaacc A/G tgagggctgttaggctgcaa   2425               ABCG1   75   3′flanking + 1513   tgaagggtgaactggagtag G/C tgaggattctgcagttgacg   2426               ABCG1   76   intron 1 + (19909-19944)   ccgatgaggaggggatgggg (CACCAGGCAGCAGACTCTGA   2427                   TGAGGAGGGGAGGGGG) caccaggcagcagactctga               ABCG1   77   intron 1 + (19909-19944)   ccgatgaggaggggatgggg   2428                   ca                   ccaggcagcagactctga               ABCG1   78   intron 1 + (25136-25137)   catgaacttgcctgaccata (G) ccctgtgaggagctagggct   2429               ABCG1   79   intron 1 + (25136-25137)   catgaacttgcctgaccata     ccctgtgaggagctagggct   2430               ABCG2   1   intron 1 + 152   tcatttgaaagtgggtatgc G/A gtttaaaactgacagttcaa   2431               ABCG2   2   intron 1 + 614   agctagtcataaataaatac G/A ccagagtagtaaggaagaga   2432               ABCG2   3   intron 1 + 10002   cctcatgaatggtatacatg T/A cccaacatatctctttcgat   2433               ABCG2   4   intron 1 + 10123   acagtggtccctttgggtgc G/A tatacccaaatccctgcata   2434               ABCG2   5   intron 1 + 10768   ataggaataattgagaacag G/A gtctgaagaactctgcagga   2435               ABCG2   6   intron 1 + 10791   ttgaagaactctgcaggaaa T/C gaaaatagttccctgctttt   2436               ABCG2   7   intron 1 + 10792   tgaagaactctgcaggaaat G/A aaaatagttccctgctttta   2437               ABCG2   8   intron 1 + 14183   tcacttaaggctttgcaggg T/G gtctaggacacagaaagaga   2438               ABCG2   9   intron 1 + 14934   aaagtgtctttaaaatttcc A/G tcttgagtcagtgagctatt   2439               ABCG2   10   intron 1 + 14955   tcttgagtcagtgagctatt G/T aaattcaagcaataagttat   2440               ABCG2   11   intron 1 + 17251   ctgtttgggaacageaactc A/C atcataggcagagagaaagt   2441               ABCG2   12   intron 1 + 17347   atttcaaacctgtttcacaa G/A ttgttaagctcatcttaagg   2442               ABCG2   13   intron 1 + 17626   gaaggtgcataacaacttcc T/G acataaagtctggagctata   2443               ABCG2   14   intron 1 + 18271   aaatgaagctgcttattgcc A/G cacatttaaaaatggacttg   2444               ABCG2   15   intron 1 + 18369   ctattgcttttctgtctgca G/T aaagataaaaactctccaga   2445               ABCG2   16   exon 2 + 34   atgtcgaagtttttatccca G/A tgtcacaaggaaacaccaat   2446               ABCG2   17   intron 2 + 36   tgtaaaaagacagcttttta A/G tttacctacagtgaacctca   2447               ABCG2   18   intron 2 + 4230   caaccctaaattggagggcc C/T gggcgtggtgattgagaaag   2448               ABCG2   19   intron 2 + 4518   gttgacagacttttatagtg A/C gggacactgacctgcatgca   2449               ABCG2   20   intron 2 + 6278   atgtatgtaccacgtcttca T/C attcttaaaggatgacccta   2450               ABCG2   21   intron 3 + 10   ggcaaatcttcgtgagtata A/G gagagtataagtaagcgttt   2451               ABCG2   22   exon 5 + 421   tgacggtgagagaaaactta C/A agttctcagcagctcttcgg   2452               ABCG2   23   intron 6 + 3158   actattctagttgattctag A/G ttgtcaatacaacacactga   2453               ABCG2   24   intron 6 + 3203   tcctattctgttttaataaa A/G gcattgaatttaggtttgct   2454               ABCG2   25   intron 6 + 3287   gtcaggctgaactagagcaa A/G caatctaaaggcaagaatag   2455               ABCG2   26   intron 7 + 179   ttcatttttgtagcaccagc T/C tgttatttaggtatctttct   2456               ABCG2   27   intron 9 + 5677   gcacttggactttgctttgc T/C acatacttgcattgctctgc   2457               ABCG2   28   intron 9 + 5974   tatactaataaatggtgtgt A/T taagtttttatctctaattg   2458               ABCG2   29   intron 10 + 1908   gacgcttatgtgcagcctat G/T ttgatgtctggaaaggctga   2459               ABCG2   30   intron 10 + 2094   ccctgagggctgaggtatct G/A gattatttccagacttgcta   2460               ABCG2   31   intron 11 + 20   tgtgagtaggtctttgttct A/G ggaacggggctgtccagcag   2461               ABCG2   32   intron 11 + 1447   tgttcttcaaggaaagcccc C/T gtcaaagaaggaaaagaagc   2462               ABCG2   33   intron 12 + 49   atgtctttagtcttgcctat G/T ggtgaagtcagttgcacctt   2463               ABCG2   34   intron 12 + 1566   tatgcagttacatggacaga C/T acaacattggagaccgaggg   2464               ABCG2   35   intron 13 + 40   gctctgataaggaattgttt C/T tttccttcatttcttcctgc   2465               ABCG2   36   intron 13 + 1823   ttactcaagcaggcctgact C/T ttagtatttgctttttgtag   2466               ABCG2   37   intron 14 + 497   ttaatgaaaacaaacaagaa T/C gaaagattgtcactgtaaat   2467               ABCG2   38   intron 14 + 815   taactctttggaaacttctt A/G aaatttaaaactgtttacct   2468               ABCG2   39   intron 15 + 110   ccaggggcactgaatttttc C/T gagcctacgttttctcatcc   2469               ABCG2   40   intron 15 + 566   gccgcatagtcatgtgttgt T/A gtttttaaattaacttggaa   2470               ABCG2   41   intron 15 + 639   aacaagaaacacttgaataa G/A ttgagaaaaaaccccgtttt   2471               ABCG2   42   intron 15 + 1197   tgagtagctgggattacagg C/T gcccaccaccacacctggct   2472               ABCG2   43   intron 16 + 520   catcaattcaggtcaagaaa T/C agaagattgtagcacacaaa   2473               ABCG2   44   5′flanking − (998-995)   gttgggatggctacactcac TCAC/Δ aaagcctgatggcccgtttc   2474               ABCG2   45   intron 13 + 405   ctgctagtttattttttttt T/Δ aacatttttaatttatgttt   2475               ABCG2   46   intron 13 + (692-702)   tcaatatgtttctgcttatc (T) 9-11 aatggttacttaatcctaat   2476               ABCG2   47   intron 15 + (645-650)   aaacacttgaataagttgag (A) 7-8 ccccgttttcacataatgtt   2477               ABCG4   1   intron 1 + 84   ggcctgggtgtcccatgttC G/A gaaagtcctgcaccagtggg   2478               ABCG4   2   intron 2 + 77   gaacacagaaggtattctga A/G agggcattgacccccatcct   2479               ABCG4   3   exon 6 + 679   tggtgtccctcatgaagtcc C/T tggcacaggggggccgtacc   2480               ABCG4   4   intron 7 + 95   ggcctcctaggggtagagat C/T tcaccgtcgcctgccttccc   2481               ABCG4   5   intron 7 + 158   cttgcccttgggaagtgagt G/A tgaatctaaactgagctctc   2482               ABCG4   6   intron 8 + 106   ccccagaggcattgcaacca A/G tgggtgctaggaagaaccta   2483               ABCG4   7   intron 8 + 1089   aggtacacaacttaatggta C/G aagattctctgtagacctgg   2484               ABCG4   8   intron 11 + 1113   acgtgagacgagataagtga T/C ggtcatatggccagggagga   2485               ABCG4   9   intron 11 + 1120   acgagataagtgatggtcat A/G tggccagggaggaaggggac   2486               ABCG4   10   intron 11 + 1173   gggggacagcttgaacaaga A/G tgtggaggcaggatggacac   2487               ABCG4   11   3′untranslated + 2758   gagtgacaggcacatacatg A/C gaacaggccatctcagccct   2488               ABCE1   1   5′flanking − 158   aactcagattctcggcacct C/T cagcagctggcttcgccaac   2489               ABCE1   2   intron 9 + 237   ctgaaattatatgcaaattc C/T gtagctttataggaagcaga   2490               ABCE1   3   intron 9 + 4203   ttgtgtaggaagctgataca T/G taatttgacatatgagatgt   2491               ABCE1   4   intron 10 + 1811   ccaagaaacttcagctttct C/T ttcacttaaatataggaaac   2492               ABCE1   5   intron 17 + 2301   atatccagaaacagatggta T/C gtgcagaacaggttgtacag   2493               ABCE1   6   3′untranslated + 1810   tggatgattagactgactct G/C agaatattgataagccattt   2494               ABCE1   7   intron 1 + (5349-5363)   aagactgggtctgactctca   2495               ABCE1   8   intron 1 + (5845-5854)   tacatttgtcaaaatttata (T) 9-10 gcagataatcatttcatctc   2496               ABCE1   9   intron 5 + (836-851)   aggatcctcctgactggcag   2497               ABCE1   10   intron 8 + (1153-1169)   catagtttcatgtttgatga   2498               ABCE1   11   intron 9 + (1023-1024)   ttgctctgtttcaaatctct (T) attcatgggccagcagctcg   2499               ABCE1   11   intron 9 + (1023-1024)   ttgctctgtttcaaatctct     attcatgggccagcagctcg   2500               ABCE1   12   intron 9 + (2338-2346)   agtgtagatggacctcgggg (A) 8-9 ctagttaaggaaaagtaata   2501               ABCE1   13   intron 9 + (3213-3221)   ttccaattttccattgttac (T) 8-9 cttgccagattactcctgaa   2502               ABCE1   14   intron 10 + (284-299)   tcctctgcattttggcttct GCAGTATACTGTAGT/Δ atttg   2503                   tcattttcaaattaa               ABCE1   15   intron 10 + (840-853)   aatcttggaggaatcttttt   2504               ABCE1   16   intron 16 + (1163-1172)   aattagaaatccaggttaaa (T) 9-10 gttttgcacaaaaatattac   2505               ABCE1   17   intron 16 + (1372-1382)   ctcttagtcctcaaaccctt   2506               CHST1   1   intron 1 + 2475   taaatggagaaaataacacc G/A acctgatagcattgttgtga   2507               CHST1   2   intron 1 + 2612   aaactccccaagcatgctca C/A ctagatccttaccctaggtc   2508               CHST1   3   intron 1 + 3900   gccctgcccccactcccaga C/G ttgcggccctccagcccctt   2509               CHST1   4   intron 1 + 6520   cctcccccagaggagctggg C/T acactggggccttgtgttgt   2510               CHST1   5   intron 1 + 7534   attgtgtgttggcatactgc T/C cacatggaaggatgctctag   2511               CHST1   6   intron 1 + 7911   ttttccttaggaagaaaaac G/A ccttgctgttttatgcattt   2512               CHST1   7   intron 1 + 7963   aaaacattcatgggggatta G/C tgctggctacgtcagagtca   2513               CHST1   8   intron 1 + 9173   gcgctgccacagatcaggcc G/A aggtgggggacagaaatgcc   2514               CHST1   9   intron 1 + 9701   cccagaattctgaatacagc A/G gcgatgacgggactacgagg   2515               CHST1   10   intron 1 + 12132   aacagatccacaggaccaga C/A agcaaaggggaggaacatgc   2516               CHST1   11   intron 11 + 12465   atgcagggaaggggcttggc G/A caaaactgtcaactgagata   2517               CHST1   12   intron 1 + 12561   atgctccctggtccactttc G/A ctttgagtttcaggtagctg   2518               CHST1   13   intron 3 + 529   ccatggtctgcaggggtcct T/G catgctcaggggattggggt   2519               CHST1   14   intron 3 + 617   agaggacagaggaaagagga C/A cacctggagaactgggcgcc   2520               CHST1   15   intron 3 + 796   aagaggcttccgcagctgtc C/T gcaggttaaatcctggggtg   2521               CHST1   16   intron 3 + 818   caggttaaatcctggggtgc A/G aggaatgtttgttcagctcc   2522               CHST1   17   3′flanking + 762   ataactggtacaggtttact G/C gtgtctacactggcagagaa   2523               CHST1   18   intron 1 + 7874   gttttccccttgccttgcct T/Δ cattttcatcacctcatttt   2524               CHST1   19   3′flanking + (335-349)   ggattttagtagagacgggg   2525               CHST3   1   5′untranslated − 294   tccagcgtgccgaccggccc C/G gcagcgcctccatccctccg   2526               CHST3   2   intron 1 + 96   gcgtccaggcgcgcgcgcca G/A actttggagggagaaggggg   2527               CHST3   3   intron 1 + 4467   agagaagaatggggcagagc C/G ggagcagccaggggaggtga   2528               CHST3   4   intron 1 + 4853   ggatgagcactgcccagctg A/G tccctgcccaccttccacag   2529               CHST3   5   intron 1 + 4965   tccactgcagaggggacaca G/C tgaccaggacggaagttggg   2530               CHST3   6   intron 1 + 5046   gggctgtccatctttgtacc C/T ctggttccatcccagtgcct   2531               CHST3   7   intron 1 + 5300   ccttttcttctctaaggcct A/G aagagatgacagaatgctgc   2532               CHST3   8   intron 1 + 5354   agcgcgtggactccacagcg G/A ggtgtggggtggcccctggc   2533               CHST3   9   intron 1 + 5428   gacacgcttcagccctctgt C/G tctattgccccaaatctggc   2534               CHST3   10   intron 1 + 5621   ctgtggcttccctgggccct A/G ggaaatttatcactgaggtt   2535               CHST3   11   intron 1 + 6555   gagtggggcactgctggaag G/C ttctggttcctgctttgttc   2536               CHST3   12   intron 1 + 6990   aaacacactgggccaccccc G/A tccccgcactgtgactacac   2537               CHST3   13   intron 1 + 7133   ctgagggcctgtcctgcagg T/G ttgatgtgtctgaagaggcc   2538               CHST3   14   intron 1 + 7161   gtctgaagaggccccgagaa T/C agaaatctagaacctgccag   2539               CHST3   15   intron 1 + 7199   cagtcacgaagcagtgtcac C/T caccagaggatgaagaactg   2540               CHST3   16   intron 1 + 7316   cttgcatctggtgtaggtgc C/T tgggggtagcgtgcccagga   2541               CHST3   17   intron 1 + 7967   gacaygaaccccaccccgag T/G gatytctggccctgtgacct   2542               CHST3   18   intron 1 + 11412   gcttgcacttctgattcatt C/T tgcagtcactggctctttgt   2543               CHST3   19   intron 1 + 11591   ccctggaagggcctcactgc G/A gtgactcattacccagcatg   2544               CHST3   20   intron 1 + 12541   acccacacagcatgaatggg G/C ccagccccagcctgcccgct   2545               CHST3   21   intron 1 + 12672   gtagccacagctggggctgt G/C gggtcagggcatggcaaggg   2546               CHST3   22   intron 1 + 14809   ggatgtgtagggtttgggct C/T ggccttaagggatgggtgga   2547               CHST3   23   intron 1 + 16161   gatgctggtcaggcattgtc G/A ttgggatctttaacaccacc   2548               CHST3   24   intron 1 + 16385   tatttagcatgtgggtttca A/C ctttctgttttttcaaaggg   2549               CHST3   25   intron 1 + 33638   gacttgggccacgtccttgg G/C catgaatcttggtctatgtc   2550               CHST3   26   intron 1 + 33878   agcaagaaagtgtgctcccc C/T acagccccactcaggcataa   2551               CHST3   27   intron 1 + 34690   agcacacatggagctttccc G/A cagtgggtttcagcgctccc   2552               CHST3   28   intron 1 + 35145   agggaagccgaagcctcact T/C gctggggcttgcctggcctc   2553               CHST3   29   intron 1 + 35340   tgtgaagttttgcccacagt T/C ggtggccatggttcgcaccg   2554               CHST3   30   intron 1 + 35436   gccactcatgtatggagcaa T/C tgcctttttttcttcctctt   2555               CHST3   31   intron 1 + 36150   ccatagaagaggctgggcct G/T aggaagccagggaagcagga   2556               CHST3   32   intron 1 + 36194   ggtgtggggaggccagcagg G/A gtgtgggcctcagcggggag   2557               CHST3   33   intron 1 + 36561   ctctggtgtttgctgtcaat A/G tgcagagtgctggacaaaac   2558               CHST3   34   intron 1 + 37602   ctggaacagcaacttaaaaa A/T agaaatagtccctggaaggg   2559               CHST3   35   intron 1 + 37725   gggtagccagggcagctccc C/T gacccgcacctgcctttt   2560               CHST3   36   intron 1 + 37734   gcagctccccgacccgca C/G ctgccttttcacccctctcc   2561               CHST3   37   intron 1 + 38208   gccattctagatgcgagtcc C/T gactttggggtgcttgca   2562               CHST3   38   intron 1 + 38219   cgagtcccgactttgggg T/C gcttgcattctgggaaggga   2563               CHST3   39   intron 2 + 255   ctacagctgtgaaaggttag A/G caagatacttaacatttctg   2564               CHST3   40   3′untranslated + 2202   acacctcagaggagcctgtg C/A ttaacatttgtaggattatt   2565               CHST3   41   3′untranslated + 2569   aggcctcatctggggtaggg C/G caagaggaaagtacagagtg   2566               CHST3   42   3′untranslated + 2717   ctggaattcctccttagggc C/T ctgggaagagtattgcttaa   2567               CHST3   43   3′untranslated + 2753   cttaacgcaggatgtgctgg G/A tgttttgtttcgggctttta   2568               CHST3   44   3′untranslated + 2800   gcttggtgtctttcttgttt C/T atggctgtgtttttgctttt   2569               CHST3   45   3′untranslated + 3283   ccgagggctgcccagctctg C/T ttctggtttcctggacaatt   2570               CHST3   46   3′untranslated + 3327   ctgtcagatacggcccattg T/C aaacccagagggctgcattt   2571               CHST3   47   3′untranslated + 3787   gttccccatgtggaggtcgg A/C ggggctgggactggggaggg   2572               CHST3   48   3′untranslated + 3860   ggccctgctaatgtggacag T/C agactttatccctccttctt   2573               CHST3   49   3′untranslated + 4915   ccagatgtgcatagaagcca G/A tctctgtcacatacaccgca   2574               CHST3   50   3′untranslated + 4993   taaagcaaatttaggctttt G/A tccttctgcaatacatgcac   2575               CHST3   51   3′untranslated + 5223   ggaaggagcttcagcaggag G/A tccttcccagaaggttgatt   2578               CHST3   52   3′untranslated + 5370   tcatacctgtaatcccagca G/T ttggggaggccaaggtggga   2577               CHST3   53   3′untranslated + 5545   ccattcccaaagtcagaaag T/C gaagccagatctcaagggct   2578               CHST3   54   3′untranslated + 5859   caaaagcacaaagcagaatt G/C gcaacttcacttgtctca   2579               CHST3   55   3′untranslated + 5870   cagaattggcaacttcac T/A tgtctcaagagctccaagat   2580               CHST3   56   3′untranslated + 5971   ttccaaggctacagacatgg C/T gccatcctcacaggcctagc   2581               CHST3   57   3′untranslated + 6208   atttcatgtctgcatggtac G/A agacaccccttcacggca   2582               CHST3   58   3′untranslated + 6223   tacgagacaccccttcac G/A gcatacactgccatggtatg   2583               CHST3   59   3′flanking + 281   agacaggagtgttgggccag C/T ggtcagggggcctggggatg   2584               CHST3   60   3′flanking + 997   acctcttaaagtatttgagc C/T ggtgcctgtcatcccaacct   2585               CHST3   61   intron 1 + 22595   cgggagcaggaaaaaaaaaa A/Δ gaataagaagaaaagaggct   2586               CHST3   62   intron 1 + (35423-35424)   gctcatgctcacagccactc AT/Δ gtatggagcaattgcctttt   2587               NDUFV1   1   intron 3 + 670   ctgggtggagtggggtggca T/C ggagttgaagacccagtcct   2588               NDUFV1   2   intron 6 + 160   tgtgccggccccagccctga C/C catgcatccctttggggacc   2589               NDUFV1   3   intron 9 + 27   accacccttctgcgtagcac C/A gagggtgggtggcatcaagg   2590               NDUFV1   4   3′flanking + 1111   tgtaggctgaggtcagcccc A/C atccagtccaaagcccaccc   2591               NDDUV1   5   3′flanking + 1658   gaatgcggaagtgctctgtg G/A gcacccaccatgctccgggc   2592               NDUFV1   6   3′flanking + 1713   gatctggggcggagggtaca C/T ggggctggcgctgggtgaag   2593               NDUFV1   7   intron 4 + 214   tggtgtaaattttttttttt T/Δ gcttcaaaaatatagtattt   2594               NDUFV1   8   3′flanking + (772-774)   tgaactcggggttcagggtc TTC/Δ ctgtgaacactggttttgaa   2595               NDUFV2   1   intron 1 + 526   ggaaatgctggctaaataaa C/T ggtatcaaactaactctgaa   2596               NDUFV2   2   intron 1 + 6689   tcgttggatggtagtattgt T/G tgaacaacagaagaaattca   2597               NDUFV2   3   intron 1 + 14767   ccaaatgcatgccagcagag C/T gtggcaggaaggtacacaag   2598               NDUFV2   4   exon 2 + 86   aaggaatttgcataagacag T/C tatgcaaaatggagctggag   2599               NDUFV2   5   intron 2 − 29   cagaagatcttactctctaa T/C gaagctggataacacttttt   2600               NDUFV2   6   intron 2 − 168   tttactttggtaatcatact T/C atcaaatgtgtgtttagaca   2601               NDUFV2   7   intron 4 + 677   aaaccacatactatttgatt C/A tgatgagaatcacataacca   2602               NDUFV2   8   intron 4 + 2295   tatgattcaactttcaaaag A/T gtattgtgatatgaaataga   2603               NDUFV2   9   intron 5 + 102   caacttctgccatcttattg C/A atctgtacttacctagtaat   2604               NDUFV2   10   intron 7 + 5466   tggtaagaggctttaagata A/C caaatgctcagctttcagga   2605               NDUFV2   11   intron 1 + (13562-13563)   tactcttaaaattaatcctt (CTT) ttattataagtatacagtct   2606               NDUFV2   11   intron 1 + (13562-13563)   tactcttaaaattaatcctt     ttattataagtatacagtct   2607               NDUFV3   1   5′flanking − 606   aattacgactaacgttgggg A/G cgaactctttgctaaataaa   2608               NDUFV3   2   5′flanking − 222   cgccgcgcccccgccacagc G/A cccaggcgcccgcagggcac   2609               NDUFV3   3   5′flanking − 111   tggccccaagggaggcactt A/G gccctactggggatgcgcgc   2610               NDUPV3   4   intron 1 + 137   ttgggccgctgaccccgctc C/T ctgggcccaggactgaccgc   2611               NDUFV3   5   intron 2 + 152   tatacaagacacaagatcta T/C aacagattttagaccaaaca   2612               NDUFV3   6   intron 2 + 6304   ttcacagatgaaggggttcc G/A aaatttttgtcaagaaagac   2613               NDUFV3   7   intron 2 + 6433   tcgccttcgtcttcatcctc T/G tccagctcctctgattctga   2614               NDUFV3   8   intron 2 + 6563   cctttgaaaacagagccccc C/T gagttacagtatcagcaaaa   2615               NDUFV3   9   intron 2 + 9619   actatcttctgtgcgcatgc G/A cagagcccaccttgcagagc   2616               NDUFV3   10   intron 2 + 9858   aggatgccagctctttaaat G/A agacatcgtttttgcttaac   2617               NDUFV3   11   intron 2 + 11673   cttggtaggtaagcgcctgt A/G tgtgagccaagtcattcata   2618               NDUFA10   1   5tianking − 1734   tgcaccttgaactgtttact T/C tcctgtaaccatttaccctt   2619               NDUFA10   2   5′flanking − 1492   aaaacatccacgcaaacagg T/C tgtgagaagttacgtctgcg   2620               NDUFA10   3   intron 3 + 370   aagactgtgcatgtgccatg C/A agacagagatgtggatgcca   2621               NDUFA10   4   intron 3 + 2485   ttgttattttcttttctctg G/A aatgcagtgatcagttgaca   2622               NDUFA10   5   intron 4 + 236   ctgtgaaagcagattggagc C/T ctggacctcaaacacacgca   2623               NDUFA10   6   intron 4 + 1742   tgtcggcatctgctgagtgt C/T tgctgaagtctgaggactgg   2624               NDUFA10   7   intron 4 + 2090   ggctgggggaaagcagatca T/C gttggctaaaggacaggtgg   2625               NDUFA10   8   intron 4 + 3054   cagctgattatactactgaa A/C cgggataaatgcagcttgat   2626               NDUFA10   9   intron 4 + 3066   ctactgaaacgggataaatg C/T agcttgatgattttcagctg   2627               NDUFA10   10   intron 4 + 3377   gtcacagtttaaatgctgct G/A ttttactctgtgtaagtagc   2628               NDUFA10   11   intron 5 + 46   aagcatctctattttgaatg T/C agatcagcactaaaagccct   2629               NDUFA10   12   intron 8 + 1465   gcaacgcccagttcctggta C/T aggcctcatatccagcgtgc   2630               NDUFA10   13   intron 8 + 1809   cctggaggcacaaggatggc C/A ggggcactcaacttccctct   2631               NDUPA10   14   intron 8 + 11226   gttgtgtgactgtgtggggc A/G tctcacctctcgggctgcag   2632               NDUFA10   15   intron 5 + 11319   atcttgccttccctcctgcc G/A tctgttcaggcttgaatcct   2633               NDUFA10   16   intron 8 + 11386   ccataatcctagcttgaacc C/T tcctttttccctgctgaccc   2634               NDUFA10   17   intron 8 + 12301   acataattattgtaaacatg C/T cgcttaccagtgacattcat   2635               NDUFA10   18   intron 8 + 13361   ccaggccactgattgctttc G/A cattttctagcattttctta   2636               NDUFA10   19   intron 9 + 183   tttctgtgtggaaagctgat G/A aagtcctcagatgacagccc   2637               NDUFA10   20   intron 9 + 6669   aataataatgaccatttctg G/T aaattcatagaattcctttt   2638               NDUFA10   21   intron 9 + 8028   gaggacattccacagaacgt G/A tgactattagagcagaaggt   2639               NDUFA10   22   intron 9 + 10742   ctggaggagaggggtggagc C/G agttcagccagcactggggt   2640               NDUFA10   23   intron 9 + 10985   agaaagggttacacaggagc A/G cacttctcagggagtggtgt   2641               NDUFA10   24   intron 9 + 10989   agggttacacaggagcacac T/C tctcagggagtggtgtgacg   2642               NDUFA10   25   intron 9 + 12601   ctgtgaatcctctcacctgc G/A tgaagggcctggctgcctct   2643               NDUFA10   26   intron 9 + 13908   cacattgttatgtaaccaag C/T ctggaattgcagtgtgaaga   2644               NDUFA10   27   intron 9 + 13911   attgttatgtaaccaagcct G/T gaattgcagtgtgaagaact   2645               NDUFA10   28   intron 9 + 14064   tcttgactattagaaaccct A/G tcagataaattttaaaacag   2646               NDUFA10   29   intron 9 + 14184   tggctttggttgggaacagc G/A agagatacagaaccgacggt   2647               NDUFA10   30   intron 9 + 16487   cttgaagctgatcgttccct C/A cttgaagctgatcgttccct   2648               NDUFA10   31   intron 9 + 16779   gccagacgtgactgctttag G/A ttcctcatgacattcagacc   2649               NDUFA10   32   intron 9 + 17663   ttccaaatcaccccagaact T/G tgcagtattttgaagctcct   2650               NDUFA10   33   5′flanking − (1668-1659)   gtaaaattgttttaactaga (C) 9-11 ttcctaaaccaaggtataaa   2651               NDUFA10   34   5′flanking − (1355-1334)   tgcaaaggaaacaaggcaaa   2652               NDUFA10   35   intron 1 + (46-61)   tggcggggtggcagggtggc GGGGTGGCGGGGTGGG/Δ gag   2653                   cagttccacatctcccc               NDUFA10   36   intron 4 + 2486   ctcactggaacttttttttt T/Δ aatttaatttttaaaatttt   2654               NDUFA10   37   intron 7 + (1600-1601)   cacttccattctgactgtta (A) cggtgtgattcttcctgcca   2655               NDUFA10   37   intron 7 + (1600-1601)   cacttccattctgactgtta     cggtgtgattcttcctgcca   2656               NDUFA10   38   intron 9 + 1054   gcgcgtgctgtttctccctt A/Δ tctgtccttgtacacgtgtg   2657               NDUFA10   39   intron 9 + (8161-8172)   aatgttgaaaatatgtgttt   2658               NDUFA10   40   intron 9 + (8646-8647   aattcccccattgcttctct (TT) ctgtagacattttaaaccta   2659               NDDUFA10   40   intron 9 + (8646-8647)   aattcccccattgcttctct     ctgtagacattttaaaccta   2660               NDUFA10   41   intron 9 + (16503-16523)   ccctccttgaagctgatcgt TCCCTCCTTG   2661                   AAGCTGATCGT/Δ gtccaagatagttgctagga   2661               NDUFA10   42   intron 9 + (17905-17936)   caaatatatgtatacatgta (CA) 12-18   2662                   tccttcatgaaaactctttc               MGST1   37   5′flanking − 1376   ttaataaatgtttattcaat T/G aaaccaactgctaatattct   2663               MGST1   38   intron 1A + 147   cctggagattttaactttct G/A cgaagtttttaaaaacaact   2664               MGST1   39   intron 1B + 36   ggagaaggggaccgcatgca A/G agggtggcaggcagggaggg   2665               MGST1   40   intron 1C + 456   ccccttgggacggttctcac C/T tgtgccccacttccccagtc   2666               MGST1   41   intron 1C + 719   gcccgcaagcattgctgtat A/G gcacccaggcctccagtgag   2667               MGST1   42   intron 1C + 985   cgagtaaaatttttctaccg C/G tttgttttagagtggtgtct   2668               MGST1   43   intron 2 + 3083   aaaaaatttgtagatatggg T/G actccctatgttgcccaggc   2669               MGST1   44   intron 2 + 3106   tccctatgttgcccaggctg A/G tcttgaattcttgggctcaa   2670               MGST1   45   intron 3 + 1703   ttctcttctaagaagaagtc T/C gtgcagatacttagcacaaa   2671               MGST1   46   intron 3 + 2557   tccagcatcttccctttcca T/C ttttaagttagacttttttt   2672               MGST1   47   intron 3 + 3032   agagacatttagaatatatt C/A cctttaaaggtagagaataa   2673               MGST1   48   intron 3 + 3045   atatattccctttaaaggta G/C agaataacccttcactgaga   2674               MGST1   49   intron 3 + 3289   ggtttatagtgttccccccc T/A ccccgcccccaaaagaccca   2675               MGST1   50   intron 3 + 3885   gaagctgccgctccaggaag G/C agtctgtcgttggagaagag   2676               MGST1   51   intron 3 + 3976   ggaaagctggggaactgttt C/T cctggaacagagtctcaaaa   2677               MGST1   52   intron 3 + 4298   tgtcaactgcgtaacacagg C/T gtagaagtggacattgtttt   2678               MGST1   53   intron 3 + 4519   tttaatagaaaatggtattc C/T tgtcttttctttcccatctc   2679               MGST1   54   3′untranslated + 603   gggtaaacccattttgaata T/C tagcattgccaatatcctgt   2680               MGST1   55   3′flanking + 147   tatttgctttccttctctct C/T tgttttctttttctctgaaa   2681               MGST1   56   3′flanking + 237   cagcacgtttttcctatgaa C/T aagacattctccaaataact   2682               MGST1   57   3′flanking + 1318   tggctctgtgtgcatgaaca T/C gcacgcgtgcacgcgcacac   2683               MGST1   58   3′flanking + 1331   atgaacatgcacgcgtgcac G/A cgcacacacacacacacaca   2684               MGST1   59   intron 1C + (904-923)   ggcaaatcagtccaaatttg   2685               MGST1   60   intron 1C + (3433-3434)   ccccttcaatactagaacaa (AA) gcagacacattaaatgttac   2686               MGST1   61   intron 1C + (3433-3434)   ccccttcaatactagaacaa     gcagacacattaaatgttac   2687               MGST1   62   intron 1C + 5146   actatttcaatttttttttt T/Δ ggagggggagacagagtctc   2688               MGST1   63   intron 2 + (552-563)   cccagcattataagaatgac (T) 9-13 aagtgcagatgtggggaggg   2689               MGST1   64   exon 3 + (172-173)   tagcatttggcaaaggagaa AA/Δ tgccaagaagtatcttcgaa   2690               MGST1   65   intron 3 + (152-158)   agaaaactggatgtctgaaa TTCACA/GTCCAATAT cactg   2691                   cacttgtatgtgttg               MGST1   66   intron 3 + (2198-2200)   ggattttagattcctcccta CTA/Δ ttctttccgaccttccaccc   2692               MGST1   67   intron 3 + (2571-2580)   tttccatttttaagttagac (T) 9-10 cacctctctcgttacttcag   2693               MGST1   68   intron 3 + (4682-4683)   tcctcttcatgtctctatgt (CACATCTTG   2694                   TCCCTCACAT) agtcatcctcrrtgtgagac                   tcctcttcatgtctctatgt               MGST1   69   intron 3 + (4682-4683)   agtcatcctctttgtgagac   2695               MGST1   70   3′flank + (1359-1360)   acacacacacacacacacac CC/Δ tgctctggagttgggcaact   2696               MGST1   71   3′flank + (1889-1891)   ttagaatagtttctaactat ACT/Δ tttactcccaagagaagctt   2697               HMG17L1   1   3′untranslated + 864   ctttctgatttttgatagtc C/C gttgaagaagggagtttgaa   2698               UGT2A1   1   5′flanking − 1602   ataacatcttctgcagagaa A/C cttcaatggaaatacactca   2699               UGT2A1   2   5′flanking − 1480   tacagattatctttggtgat C/C ggagagcttagaagagacat   2700               UGT2A1   3   5′flanking − 1406   atttcagaagatttattaac A/T tgaaaaygatcactctgctt   2701               UGT2A1   4   5′flanking − 1388   acatgaaaaggatcactctg C/T ttattcacagacatatgcat   2702               UGT2A1   5   5′flanking − 935   aaattattcaatctctttgg C/A cagtggtttctttttctttg   2703               UGT2A1   6   5′flanking − 287   cctgaatgtagagttgagat C/A tacagaagctttatccaatt   2704               UGT2A1   7   5′flanking − 128   gagaagtaagacacattacc C/T ataaatctgtaaatatccta   2705               UGT2A1   8   intron 1 + 535   cattgatcagggtgatttat C/T catgctaagcttatttaatt   2706               UGT2A1   9   intron 1 + 642   tatattgatcatgttgatac A/C tttatacacatatttgtcta   2707               UGT2A1   10   intron 1 + 1221   ttttaatctaataagcaatt C/C aggaccatctaaagggaaat   2708               UGT2A1   11   intron 1 + 1448   aggtgcttacaggcaacatc C/T acatagcagtctgtggctgg   2709               UGT2A1   12   intron 1 + 2000   gacacattagcttcttttct A/C cagatctctgttctaaaaca   2710               UGT2A1   13   intron 1 + 3118   cttaaaattctttaatgaaa T/C cattgcaacaaatttatatc   2711               UGT2A1   14   intron 1 + 3191   ataaatagaacaactcccta A/T gtttacttctctgcagtgga   2712               UGT2A1   15   intron 1 + 3770   atcaccagataatttactat C/T cattaaggagtaggtcatca   2713               UGT2A1   16   intron 1 + 4584   tgattggttagaatctttga A/C aaatcttctagtatcattcc   2714               UGT2A1   17   intron 1 + 4854   tactctgtgcattgttaata C/A cctatcacttgtggtctgcc   2715               UGT2A1   18   intron 1 − 19146   ctgtttaaattctcattcaa C/T ggccacatggttaaaataaa   2716               UGT2A1   19   intron 1 − 18346   atggcaatatttttagaaat C/A ttaactcccaataatgaata   2717               UGT2A1   20   intron 1 − 18218   tatatcattattttaactta T/C agatagcactagccctaatt   2718               UGT2A1   21   intron 1 − 17937   ctcctaataatttggactca C/T catacttattcagcactatc   2719               UGT2A1   22   intron 1 − 12585   ttccacacagggacaagtca A/C cagaggaaatttttcttgct   2720               UGT2A1   23   intron 1 − 11430   aacaaaggtttattttctta C/C agttctgatggctagacgtc   2721               UGT2A1   24   intron 1 − 10761   tttaaaatatgcatgtattt T/C ccacttttaaaaactatatc   2722               UGT2A1   25   intron 1 − 381   aaatcctccctccttccttc C/T tttcccaggccccactctac   2723               UGT2A1   26   intron 1 − 329   ttcCCtttctccttttctcc A/C tctctctctcttcctctctc   2724               UGT2A1   27   intron 1 − 41   ttttctcctcagcaaacata T/A aagctaatttcctccatcca   2725               UGT2A1   28   intron 2 + 263   caccttgatactggacttgg T/C gggacagaaaaccagatcat   2726               UGT2A1   29   intron 2 + 454   agaaagcccattgaaataag C/C cagggtttttaggttttaat   2727               UGT2A1   30   intron 2 + 554   aaaaacttttttgagttgac A/T atggtgagtttagtttctga   2728               UGT2A1   31   intron 2 + 1113   ctgcaggcaagctctagtga A/T tgtttattataggaaataat   2729               UGT2A1   32   intron 2 + 1304   gacaaatcagccatgtttta C/T aatagcagacattatgccat   2730               UGT2A1   33   intron 2 + 1305   acaaatcagccatgttttac A/C atagcagacattatgccatt   2731               UGT2A1   34   intron 2 + 1367   atcgatataggctttgggaa A/C tatgaataccaaccatgggt   2732               UGT2A1   35   intron 2 + 2074   aaattttttcttagacctat C/T aatcaaaggaggcatacagt   2733               UGT2A1   36   intron 2 + 2164   attttattagatataactgg A/C atgctaacaattttaaaagc   2734               UGT2A1   37   intron 2 + 2298   taacaatttcagttagcatg A/C gaagagttgtcccttattta   2735               UGT2A1   38   intron 2 + 2346   tttctgtaatggttttgctt T/C catgcttggacttgtaatca   2736               UGT2A1   39   exon 3 + 922   gtgttgtggtgttttctctg C/A gatcaatggtcaaaaacctt   2737               UGT2A1   40   intron 3 − 217   aagcttagaagtgataaata T/C caaaacaataatactatact   2738               UGT2A1   41   intron 3 − 194   aaacaataatactatactgg C/A tagactattagtacaagact   2739               UGT2A1   42   exon 5 + 1171   acggagtccctatggtggga C/A ttcccatgtttgctgatcag   2740               UGT2A1   43   intron 5 + 1546   tttttaaaattcagaaactc A/C gttatggtgtattcttacaa   2741               UGT2A1   44   intron 5 + 1547   ttttaaaattcagaaaCtca G/A ttatggtgtattcttacaaa   2742               UGT2A1   45   intron 5 + 2013   atcatattcattaccctccc G/T ctattattgtattttgaatc   2743               UGT2A1   46   intron 5 + 2318   aatttagtgctttttcttaa C/T ggaagtaacctgcttaaaaa   2744               UGT2A1   47   intron 5 + 2505   taattgacttttattaatac G/A tacatgttgtataagtcata   2745               UGT2A1   48   intron 5 + 2639   tagactattacaaagttgtt A/G gttgctgacaattttgttca   2746               UGT2A1   49   intron 5 + 4009   gaatccaggctggaactttt C/A ttccagacacaaaccaaaat   2747               UGT2A1   50   intron 5 + 4311   atacagacactgtccttttc G/A tcacaaacatacagatgtgt   2748               UGT2A1   51   intron 5 + 4545   agctcacacagtatcaaaat T/C atttttggaaaaattatgct   2749               UGT2A1   52   intron 5 + 4616   acttttttatgtctacattt G/C atcatactgtgttaagcata   2750               UGT2A1   53   intron 5 + 4717   tgcaagaattatattttctc C/A acgtaactatggccttaaac   2751               UGT2A1   54   exon 6 + 1524   gctatatttttggtcataca A/G tgttgtttgttttcctgtca   2752               UGT2A1   55   3′untranslated + 1683   aaggagtttaacaaaaacac G/A tctcccatcctgtttccaaa   2753               UGT2A1   56   3′flanking + 685   aatctagaaaataattatca T/C ttttataaaatttttagtca   2754               UGT2A1   57   intron 1 − (18967-18965)   ctcccaattagattgattag TAT/Δ gagttcctggggttactggt   2755               UGT2A1   58   intron 1 − (18862-18803)   aatacattcttcccccttca (AC) 14-17   2756                   atgcttactggcctatttat               UGT2A1   59   intron 1 − (17463-17447)   gtaaagaaaatggcagagaa   2757               UGT2A1   60   intron 1 − 10860   attcaatgcaactttttttt T/Δ gtaatggcagaattagaaca   2758               UGT2A1   61   intron 2 + (528-538)   ctgttaggaaacaattggtt (A) 8-10 cttttttgagttgacaatgg   2759               UGT2A1   62   intron 2 + (1514-1533)   tattttaatgaattaatatc   2760               UGT2A1   63   intron 5 + (916-917)   gcttagtatattatatatat AA/Δ gtctatatatatagcttagt   2761               UGT2A1   64   intron 5 + 1163   caatatttatgtcatttttt T/Δ ctcacatttactctgtttcc   2762               UGT2A1   65   intron 5 + (3819-3838)   tcaacacatgtaaactactc   2763               UGT2A1   66   intron 5 + 4785   tatcttcaatgaaaataaaa A/Δ caaaaattgtctaatttctg   2764               OATP1   1   5′flanking − 916   acagagtagatgttcaataa G/A tatttgttgtatctgtgaga   2765               OATP1   2   5′flanking − 843   tagtgcagcgactatgcctt G/A atgtgtgtgtgtttgggatt   2766               OATP1   3   5′flanking − 526   aaatgtgtgcctgtatgtta T/C acatctgtacatatatttcc   2767               OATP1   4   5′flanking − 172   acaaacacaactcaaagtat G/A tgtgttattaaaagtagcta   2768               OATP1   5   intron 1 + 206   ttgattcaggcaagttagtc C/G taaatggctttgagagactt   2769               OATP1   6   intron 1 + 454   caacataacaataatttcct G/A taagaaaaatggccattttg   2770               OATP1   7   intron 1 + 999   gtttagcaaggttagatatt A/G atgtggatgttaagacaaaa   2771               OATP1   8   intron 1 + 1223   ttgctagaagctagtaggac C/T agctttataaatacagagat   2772               OATP1   9   intron 1 + 1326   aactagttaggcaacccatg T/C gttttaggggaaaagcaatg   2773               OATP1   10   intron 1 + 1336   gcaacccatgtgttttaggg G/A aaaagcaatgaggtcatgat   2774               OATP1   11   intron 1 + 1498   atagtttgctcttaagaata C/T actctgagaaggtttatagt   2775               OATP1   12   intron 1 + 5041   ttatgctcccgaggagttag C/T tctctaaatgcataaggaga   2776               OATP1   13   intron 1 + 9532   aaagactgggagcacttccc A/G atgacaaatactagactaga   2777               OATP1   14   intron 2 + 198   ttacctcatattaacaCcta A/C atattgccacatatcctacc   2778               OATP1   15   intron 2 + 961   aaaaagttatatagaaatat A/G agtgtcactcctttctagtt   2779               OATP1   16   intron 2 + 1110   gtctactagtgttcaactcc T/C ttagatcttagcctgtatca   2780               OATP1   17   intron 2 + 1419   aaagcctaagaaggatgcag T/C gcaatagcctatgtgagaag   2781               OATP1   18   intron 2 + 3339   tatggtttgcaaaaaactta T/C tcgtatatttgtttttttca   2782               OATP1   19   intron 3 + 66   caggaaatgaagttgcactt T/C cctctctaggagcaatgctt   2783               OATP1   20   intron 3 + 205   tcagttttgtcaatttacac A/G atggggatttgggacctttt   2784               OATP1   21   intron 3 + 6377   aatgaatagactttgagtta C/T tggatttttagtggataaat   2785               OATP1   22   intron 3 + 7238   tgaatgtcacattttttaaa G/A tttgtgttccttatctcata   2786               OATP1   23   intron 4 + 1016   ttttattctggaitcatgtt T/C gtggaaattgcagtagtcca   2787               OATP1   24   intron 5 + 110   tccacaatgatgagtagagt A/G tcttggcacagttggccttc   2788               OATP1   25   intron 6 + 496   agtgtctgaattataagcca A/G ttttatagttggttgggacc   2789               OATP1   26   intron 7 + 1934   aaagtgaaaggaaattaaaa G/C tgagaacttgagcctgaatg   2790               OATP1   27   intron 7 + 2140   tagaatgtaccaaatgaatc A/G gcatctctgaggatgggacc   2791               OATP1   28   intron 7 + 2365   tgaaatcttctttatcaact C/T gattttcctccagactttac   2792               QATP1   29   intron 5 + 88   gcaaactcctaagttgaagt G/C ttttaggatattttttgact   2793               OATP1   30   intron 9 + 534   tcatattttgtattttaaag G/A ttatctgggttttactgaaa   2794               OATP1   31   intron 9 + 1286   tattcttctgagataaatca T/C tgaaggagtggctatgtggt   2795               OATP1   32   intron 11 + 215   ttcactcctattcctcgcta C/T ttttcttccttatttcttag   2796               OATP1   33   intron 11 + 663   ttcttcttcttttggagctc T/A aaagtagagttcagttaatc   2797               OATP1   34   intron 11 + 999   atcatcactgcatgagagtt A/G gaattatctaactttgtgat   2798               OATP1   35   intron 11 + 16727   tttcttttatttacaaactt A/G tttacttttcaggtgtatga   2799               QATP1   36   intron 12 + 48   ctatcagaacaatattatta T/G tattattttttattacactt   2800               OATP1   37   intron 12 + 686   tatgttttgataaactttgc C/A gtacaaataaagaaaattga   2801               OATP1   38   intron 12 + 708   tacaaataaagaaaattgaa A/G tatttccaaataaatcaagt   2802               OATP1   39   intron 13 + 418   tctctggtctccaaaatcat A/G tattttctccctctttacat   2803               OATP1   40   intron 13 + 436   atatattttctccctcttta C/A attttgctgaaacaatcttc   2804               OATP1   41   3′untranslated + 2130   gtctttaagaacctaaaaaa C/A ctcttaactcaaaataataa   2805               OATP1   42   3′flanking + 57   agtgactaaagtttttctta C/A aaacaagtgtctgaatcaaa   2806               OATP1   43   3′flanking + 572   aatacactatggttatttat G/A tgtactataaatggagtgag   2807               OATP1   44   3′flanking + 788   atttcctaaatgatcagatg C/T atcatatgaaaaaagaaagc   2808               OATP1   45   3′flanking + 1356   aggtgactgacataaatggg G/A gcagaggacataatgaggtt   2809               OATP1   46   5′untranslated − (189-188)   attttctaatctgtattaaa (A) gcgttccaggtatttttgta   2810               OATP1   47   5′untranslated − (189-188)   attttctaatctgtattaaa     gcgttccaggtatttttgta   2811               OATP1   48   intron 4 + (725-726)   tgatctttaatagcggggaa AA/Δ caggcaagtacgctatagtt   2812               OATP1   49   intron 4 + (1082-1083)   attgagtcaggaaaccaaaa CA/Δ gtttcaaaaatttgaaaaat   2813               OATP1   50   intron 4 + 2301   aatgtcatgtcttttttttt T/Δ aatgcagagtgtacaaagga   2814               OATP1   51   intron 9 + (241-246)   attgtatgtgcatgtgggtg TGTGTG/Δ   2815                   catgattgtctttgtgatat               OATP2   1   5′flanking − 2574   ggataaggcaacccctatgt A/G tcactgctgcaggagaggga   2816               OATP2   2   5′flanking − 2366   aacataggaatgtgcagagc C/T ctgtggggattagagaagag   2817               OATP2   3   5′flanking − 2244   tgatgatgccagagctttga T/G cattggtgggtatagaaaca   2818               OATP2   4   5′flanking − 1723   tctttcagacttcaaaggcc A/G tgatatttcatcagagctgt   2819               OATP2   5   5′flanking − 1180   tgcttatttaacaggcataa T/G ctttggtctcctgagccaga   2820               QATP2   6   5′flanking − 811   tatgtgcatatgtgtataca G/A gtaaaagtgtgtatatatgt   2821               OATP2   7   intron 1 + 7188   aatcatttgaaatttaagaa A/G aaaatatgttcagagaaaaa   2822               OATP2   8   intron 1 + 7331   gtgaaatgaggaacaaagtg T/C ccacctttttttcctgaata   2823               OATP2   9   intron 1 + 7391   agagagatgtgaaatagtat T/G tttctggggaagtaggggaa   2824               OATP2   10   intron 1 + 7886   ttgttagtagaaagaaaatc G/A aagcctaaaactaaaggaag   2825               OATP2   11   intron 1 + 7958   ttgctattatataatttttt T/A aaaaaaagatttcctaatat   2826               OATP2   12   intron 1 + 7959   tgctattatataattttttt A/T aaaaaagatttcctaatatt   2827               OATP2   13   intron 1 + 8036   ggaaaaaatggggtgaaatt A/T atcaaagggcagcttattac   2828               OATP2   14   intron 1 + 9164   acattatattctatataaaa G/T agtcagttgaagtaaaaagt   2829               OATP2   15   intron 1 + 10123   tctgtctttcctacttttgt T/G tccagcattgacctagcaga   2830               OATP2   16   intron 2 + 193   tgattaagtatttctttggc G/A aaatttttgatgcttaatag   2831               OATP2   17   intron 2 + 1020   ttgagtaacatttaggccaa G/A tggcagtcataaggaaaaag   2832               OATP2   18   intron 2 + 14865   agaggaattaatcataagag G/T tttatttggctaaagtgaca   2833               OATP2   19   intron 2 + 14931   gttagttaataacagaaaaa A/T tatcagaaattttaaaaaat   2834               OATP2   20   intron 2 + 15417   ttctaaaataagtaagctaa A/T tattctatattatactacta   2835               OATP2   21   intron 2 + 20823   ttgtataagagatacaaaac A/C aattcctactaggggaaata   2836               OATP2   22   intron 2 + 20852   ctaggggaaataaagcttca G/C taaggaggtggcattaagct   2837               OATP2   23   intron 2 + 20930   atggagagaagcagcagtgt A/G ccacagataaatgaagtgag   2838               OATP2   24   intron 2 + 21360   ttcaaaagctgtatttctca T/C tagtgctttttgtgaataaa   2839               OATP2   25   intron 2 + 21467   tatatacacaatacctgtcc A/G gaagatgtggtataagccaa   2840               OATP2   26   intron 2 + 21621   tatcaatacttatgaagaga A/G ctaactattctaactaggga   2841               OATP2   27   intron 2 + 22760   ttccccacctcctgttggtt C/G tcctcttaaacttctccttg   2842               OATP2   28   intron 2 + 23199   cctatctgcacataacatta C/T aaacttatggcaattataaa   2843               OATP2   29   intron 2 + 23218   acaaacttatggcaattata A/G aactcaatacatattatact   2844               OATP2   30   intron 2 + 23330   gcccttgttcctgttcctct G/A tacctgcctcaactacatag   2845               OATP2   31   intron 2 + 23673   ctggagacggtagctcaaac T/C gaggatgaaaatagacattt   2846               OATP2   32   intron 3 + 89   ggttatcaactggggtaaat T/G tatctctcacaggcaatttg   2847               OATP2   33   intron 3 + 224   tgctaaatattctataatgc A/G caaagaatgatgtaactgaa   2848               OATP2   34   intron 4 + 97   ccctttaaataggcagttac C/A ttttgagaagatacccacta   2849               OATP2   35   intron 4 + 5EB   ttcatgatccaaattgtggc A/G acgtatttccaggcaacaag   2850               OATP2   36   intron 4 + 599   aggcaacaagatagaagaag A/G aaagaataagaagcaacaaa   2851               OATP2   37   intron 4 + 753   aaaatagacattattccaag T/A taccaagttcccggttaaaa   2852               OATP2   38   intron 4 + 781   ttcccggttaaaaatcccaa G/C tataattactgtggaaggaa   2853               OATP2   39   intron 4 + 1196   aaggaccacaatctagatca G/T cattgctctaaatatgccat   2854               OATP2   40   intron 4 + 1229   tatgccataatatgtgacac T/C tttgcacctggtatttctac   2855               OATP2   41   intron 4 + 1623   catctagttgaaatggatta G/C attttatttttactacattt   2856               OATP2   42   exon 5 + 388   attctaaagaaactaatatc A/G attcatcagaaaattcaaca   2857               OATP2   43   exon 5 + 452   taatcaaattttatcactca A/G tagagcatcacctgagatag   2858               OATP2   44   intron 5 + 165   ttaatatacacagttcgccc A/T ttaacaacacaggtttaaac   2859               OATP2   45   intron 5 + 189   acaacacaggtttaaactac G/A cgttttcacttctatgcaaa   2860               OATP2   46   intron 5 + 191   aacacaggtttaaactacgc G/A ttttcacttctatgcaaatt   2861               OATP2   47   intron 5 + 507   atataactttgctttcattg C/T aaaaggcaaactgttatatc   2862               OATP2   48   intron 5 + 520   ttcattgcaaaaggcaaact A/G ttatatcatttaaagacttt   2863               OATP2   49   intron 5 + 856   agtcatgataaacctaatag A/G ataaaacaacaaaaaagaaa   2864               OATP2   50   intron 5 + 1157   acagataatttttacttgtt T/C gtgcttttctgtatgatatg   2865               OATP2   51   intron 5 + 1226   ccttgattgtaataatctcc A/C catgccaagagtggggccag   2866               OATP2   52   intron 5 + 1228   ttgattgtaataatctccac A/C tgccaagagtggggccaggt   2867               OATP2   53   intron 5 + 1304   actgttctcgtggtaatgaa G/T aagtctcacaagatctgatg   2868               OATP2   54   intron 5 + 1348   ttataaatgagagttcccct G/A caaaagctctcttgcctgcc   2869               OATP2   55   intron 5 + 1407   ttgctcttccttcatcttcc G/A ccatgattgtgaggcccccc   2870               OATP2   56   exon 6 + 521   gtcatacatgtggatatatg T/C gttcatgggtaatatgcttc   2871               OATP2   57   exon 6 + 571   gggagactcccatagtacca T/C tggggctttcttacattgat   2872               OATP2   58   exon 6 + 597   ctttcttacattgatgattt C/T gctaaagaaggacattcttc   2873               OATP2   59   intron 7 + 33   agaacaaggtaccatgataa C/T gtctttctaagcacacatgc   2874               OATP2   60   intron 7 + 267   caaaataaccaaatgtaaaa T/A gtctccctcccaaactgact   2875               OATP2   61   intron 7 + 1260   gtaatctcacatttctctgc A/G tttacacttggtaaaacttt   2876               OATP2   62   intron 7 + 1386   agtctcaaattaatagccaa G/A agcatgcctttattgtaacc   2877               OATP2   63   intron 7 + 1472   ctttaccacatgacagaatg G/A catgttcttagcaaataata   2878               OATP2   64   intron 7 + 1697   tttacatgttcaattttaga C/A atatgccttagagtagctac   2879               OATP2   65   intron 7 + 2273   ttctcacgtcctatctagcg C/T gattatgacccttagttact   2880               OATP2   66   intron 8 + 207   gtggaagagaattaggtttg T/C actttttagcagggagaaac   2881               OATP2   67   intron 8 + 546   tcgggagaagtttctcccta T/C gtaattagagtaatatttat   2882               OATP2   68   intron 5 + 565   atgtaattagagtaatattt A/C ttttggtaattatctatcta   2883               OATP2   69   intron 8 + 668   taagtaatgtaaattaggat G/T Catcagcatttgacagtgcc   2884               OATP2   70   intron 8 + 739   tggagaaccattgagagtca A/G taaacaaagagaatgacttg   2885               OATP2   71   intron 8 + 2193   tgatcacagatccaaatgac A/G taatttctaccatgaacaga   2886               OATP2   72   intron 9 + 112   attttagtaatacaggataa G/C tataattttcttgtattctt   2887               OATP2   73   intron 9 + 266   ttagaggtagtatctgtata A/G ttggatcttataatttagtg   2888               OATP2   74   intron 9 + 305   tgctaagatctgagacaaac C/G cttttgtaattataatcatt   2889               OATP2   75   intron 9 + 888   aggttctgtatgttttttaa T/C aaatgacaaagatatattaa   2890               OATP2   76   intron 11 + 10224   tacacttgttccataaaaaa T/C tcctctatattattcctagt   2891               OATP2   77   intron 11 + 10359   attaatagattcaacgtgag G/C ttcccttaaactttagccta   2892               OATP2   78   intron 11 + 10916   cttatatagaaagaaatcca C/G aaaactattttaccttttat   2893               OATP2   79   intron 11 + 10997   aatatattagtttgaacaag T/C gagacttcactaaatataat   2894               OATP2   80   intron 11 + 11018   gagacttcactaaatataat G/A caatgtatttgcagcactgt   2895               OATP2   81   intron 12 + 442   aacattccaaaacttttaat C/T gactcacagcatgactttta   2896               OATP2   82   intron 12 + 445   attccaaaacttttaatcga C/T tcacagcatgacttttataa   2897               OATP2   83   intron 12 + 447   tccaaaacttttaatcgact C/A acagcatgacttttataata   2898               OATP2   84   intron 12 + 907   aatgaaaagaagctggcaga T/C tgaaacatactgaatgagag   2899               OATP2   85   intron 13 + 65   tatatatatatatatatata C/T acacacacatacatatatta   2900               OATP2   86   intron 13 + 870   aattctgagtatcctatttc G/A atgtatccaatctgtggcac   2901               OATP2   87   intron 13 + 1935   taaaaaaaaaaaaagtctgc T/C tttacagcaattgagccaag   2902               OATP2   88   intron 13 + 2261   aacgaatcctccaaattttt G/C aacttttatttaatcaaaat   2903               OATP2   89   intron 14 + 248   tcaaggataataaccaactt G/A tcaaaaatcagagataatag   2904               OATP2   90   intron 14 + 2463   atttgtttactaatatggaa C/G cttcttcaagacatattttt   2905               OATP2   91   intron 14 + 2857   tcatcatgtatttccaggac A/T cctggcaagatgctcctcag   2906               OATP2   92   intron 14 + 11458   atctccagaggtcctgctgt C/T tccccaaagtccactgaccc   2907               OATP2   93   3′untranslated + 2243   ataataaaacaaactgtagg T/C agaaaaaatgagagtactca   2908               OATP2   94   3′untranslated + 2404   tcttaataaaacaaatgagt A/G tcatacaggtagaggttaaa   2909               OATP2   95   3′untranslated + 2515   cagagtttgaactataatac T/G aaggcctgaagtctagcttg   2910               OATP2   96   3′untranslated + 2539   gcctgaagtctagcttggat A/G tatgctacaataatatctgt   2911               OATP2   97   intron 1 + 457   taattggcaaacataaaaaa (A) caggtgtctcaaagtcacat   2912               OATP2   98   intron 1 + 457   taattggcaaacataaaaaa     caggtgtctcaaagtcacat   2913               OATP2   99   intron 1 + (7537-7538)   gatcagcattacaaccaaga (G) atggagaatgacattcagga   2914               OATP2   100   intron 1 + (7537-7538)   gatcagcattacaaccaaga     atggagaatgacattcagga   2915               OATP2   101   intron 1 + (10032-10035)   tgtgtgattctatattactt ACTT/Δ gtttcaaatttctctccaca   2916               OATP2   102   intron 1 + (10058-10061)   ttcaaatttctctccacaaa TTTA/Δ tttttctattaaattgtaat   2917               OATP2   103   intron 2 + (413-423)   caaaaaacaggatttaaaaa   2918               OATP2   104   intron 3 + (1595-1603)   ttgccaagtaattcaagtgc (T) 8-10 gtatttaaaacaacttttca   2919               OATP2   105   intron 4 + (10-23)   cctctgtgccactatcagta   2920               OATP2   106   intron 5 + (1567-1572)   gtgaatataaattacttgta CTTGTA/Δ    2921                   aattaaaaaaaaataagtag               OATP2   107   intron 5 + (1577-1585)   attacttgtacttgtaaatt (A) 9 10 taagtagaataattaagagt   2922               OATP2   108   intron 8 + (1939-1941)   ttctctaactccttctactc CTT/Δ atttcaagcagatgcaactg   2923               OATP2   109   intron 10 + (3077-3078)   aaattctttatctacttttt (CTT) ttccctctttctctgctttc   2924               OATP2   110   intron 10 + (3077-3078)   aaattctttatctacttttt     ttccctctttctctgctttc   2925               OATP2   111   intron 11 + 11011   aacaagtgagacttcactaa A/Δ tataatgcaetgtatttgca   2926               OATP2   112   intron 12 + (1160-1169)   agcatgacatggtagagatg (A) 9-11 gcatttttaacatttgttaa   2927               OATP2   113   intron 12 + (1310-1312)   tccatcttaatataaaatgt TGT/Δ ctactcaaaaggagaagtct   2928               OATP2   114   intron 13 + (9-34)   tatatatatatatatatata   2929               OATP2   115   intron 13 + (35-64)   aaaaaaaaaaaaaaaaaaaa (TA) 10-21   2930                   tacacacacatacatatatt               OATP2   116   intron 13 + (1379-1387)   aaaattattcaccacaatac (A)8− 10 caaagtaaagttatgaacac   2931               OATP2   117   intron 13 + (1916-1928)   gtctgcttttacagcaattg   2932               OATP2   118   intron 14 + (588-596)   caattatactttacctcttt (A) 8-10 ctaatttcaaattcatatat   2933               OATP8   i   5′flanking − 1413   aataggggcttaataactct G/C aaacttatgatttctcatat   2934               OATP8   2   5′flanking − 1345   gaatttatcctacagatatg A/G ccacacagaaaatgacatat   2935               OATP8   3   intron 1 + 38962   atgaaattagtttaaaaata G/A caaccttaactatactcctc   2936               OATP8   4   intron 2 + 253   acagacttaccaacaaagaa T/G tatccttcccaaaatgtcta   2937               OATP8   5   intron 2 + 329   actcatggtttgcaaattaa C/G tttttagyaaactttatctc   2938               OATP8   6   intron 2 + 2568   ccattctggtgctttctttc G/A tgaaactattttccatcagt   2939               OATP8   7   intron 2 + 2679   ctcttattgctcttcttcca T/C gttttaatctaaataattta   2940               OATP8   8   intron 2 + 2753   caggaaactttcacaaagcc C/A ctaattaatttaagctccct   2941               OATP8   9   intron 2 + 3132   tggtttaatgtaggagagtt T/C accttcacagttaaattaca   2942               OATP8   10   intron 2 + 3193   aatgtcttgggcatatttgc A/G ttcatttggggcattcagtt   2943               OATP8   11   intron 2 + 3207   atttgcattcatttggggca T/C tcagttctactagatacaaa   2944               OATP8   12   exon 3 + 334   gaactggaagtattttgaca T/G ctttaccacatttcttcatg   2945               QATP8   13   intron 3 + 76   agaattttatttttatactt G/A taagtgggcagttacctttt   2946               QATP8   14   intron 4 + 2443   tcaatttcatgttgctctta C/T agttataggtattctaaaga   2947               QATP8   15   intron 4 + 67   taatcacgtctataaagttt C/G tgatattctttaacaaaatt   2948               OATP8   16   intron 4 + 91   tattctttaacaaaattgat T/A taagaacaaataggaagaac   2949               OATP8   17   intron 4 + 197   ggtttgaactgcacctgttc G/A cttatatgcagcttttgtcc   2950               OATP8   18   intron 4 + 813   tttaacagaataaaaaaaaa T/A attttgtaacgacaaaagaa   2951               OATP8   19   intron 4 + 974   atatgcaccttaaaaataac C/G tggatttttaaatatgtaat   2952               OATP8   20   intron 4 + 1003   taaatatgtaatgtacataa G/T gaatattatgcatattttgt   2953               OATP8   21   intron 6 + 155   cattaataatcagaataaaa A/G agaaatttagctcctattta   2954               OATP8   22   intron 6 + 750   atccaactggggtttagatt T/G cctctttctgcctctcctcc   2955               OATP8   23   intron 6 + 760   gcctctcctccatctgcacc C/T tctcttttcctcagcaaaca   2956               OATP8   24   intron 6 + 1248   ctatgccctgtaatctcaca C/T ttccctttatttaaaattgg   2957               OATP8   25   intron 6 + 1500   tcgtgtctgtgttagcatat A/G ataactcatcagggtttgtg   2958               OATP8   26   intron 6 + 2008   ataacataaatgagtaaaga A/G tatcaagggcaggaaattag   2959               OATP8   27   intron 6 + 2087   actactctccccatacacac T/C aaaactcatgtgctccccag   2960               OATP8   28   intron 6 + 12305   tcatctatggaggactgcaa T/C cattatcattatttcccaga   2961               OATP8   29   intron 7 + 363   taacaaatgataccagccat C/G atactattctctggtaatag   2962               OATP8   30   intron 7 + 411   cctttattttttgagaacct G/A gtggatgatattaagacgta   2963               OATP8   31   intron 7 + 428   cctggtggatgatattaaga C/A gtatatagatcactgtaata   2964               OATP8   32   intron 7 + 634   aaaattatatatatacatat A/G taatcttacctaagtattca   2965               OATP8   33   intron 7 + 1791   tgtttttttaagggtagtga T/C gtgaatagtaaagcgaattt   2966               OATP8   34   intron 7 + 2000   agttgagcaaattgctctca G/A gtagcataatgtcacttgaa   2967               OATP8   35   intron 7 + 2043   gtttattgatccatttttta A/G tggatcaacattgtagtgag   2968               OATP8   36   intron 7 + 2171   atttattttgagcaaaggtc G/A cgactctcttagaaagcctc   2969               OATP8   37   intron 7 + 2173   ttattttgagcaaaygtcgc G/A actctcttagaaagcctcac   2970               OATP8   38   intron 7 + 2179   tgagcaaaggtcgcgactct C/T ttagaaagcctcacaaatca   2971               OATP8   39   intron 7 + 2219   atttgtaactttaagtctta T/G ataacttatatttacaaaat   2972               OATP8   40   intron 7 + 2261   cagatattaatatatatttt A/T ttattgaaatatgttatttt   2973               OATP8   41   intron 8 + 150   acaaaatttctccatcttgt T/C atatcatcgttgttctgcat   2974               OATP8   42   intron 8 + 154   aatttctccatcttgtaata A/T catcgttgttctgcatttga   2975               OATP8   43   intron 8 + 1303   ttttttttgagatggagtct C/T gctctgttgcccaggctggg   2976               OATP8   44   intron 8 + 1372   aagctccgcctcccaggttc T/G ccacccttctcttaaagaaa   2977               OATP8   45   exon 9 + 1272   tccttcttgtttcaacttct A/G tatttccctctaatctgcga   2978               OATP8   46   intron 10 + 63   tcacagatttgatttaataa A/T tacttatcaaatcttcctat   2979               OATP8   47   intron 10 + 911   cttgcccaatatcctaccaa C/T gtattattaaacggcatgga   2980               OATP8   48   intron 10 + 972   tcctagtttccttgaagata G/A gctacaactttagtaaactt   2981               OATP8   49   intron 10 + 1101   tccctggtcctgtgttgtcc A/T gtagtgaagacctgaaagag   2982               OATP8   50   intron 10 + 1103   cctggtcctgtgttgtccag T/C agtgaagacctgaaagagag   2983               OATP8   51   intron 10 + 2027   cccattttcatgagtggcta A/G gttttgtcccgtttcaaact   2984               OATP8   52   intron 10 + 2028   ccattttcatgagtggctaa G/A ttttgtcccgtttcaaacta   2985               OATP8   53   intron 10 + 2148   gtattttggaaagaaaatgt A/G ggtggaagagaaatatttta   2986               OATP8   54   intron 10 + 2214   atatacagaatttcatacac T/C aatttcttaaattcctaaat   2987               OATP8   55   intron 10 + 2316   taaatattttagtttgagac T/G tctttaaatataatggaatg   2988               OATP8   56   intron 10 + 2372   tgtatttggcaaatgtattt G/T ttaatatttcaaaaactatt   2989               OATP8   57   exon 11 + 1557   cagaacagaaattactcagc A/G cacttgggtgaatgcccaag   2990               OATP8   58   intron 11 + 147   tttcttagaattattttgat A/C tttcaataacatcattaata   2991               OATP8   59   intron 11 + 10339   aaaaaactgcattttagtgg G/C ttagctagaaaagatttgtc   2992               OATP8   60   intron 11 + 10358   ggttagctagaaaagatttg T/G ctcatatacacaataaatta   2993               OATP8   61   intron 11 + 10538   caacagaggatcaatgtaaa T/G gaaatctcttaaattaaaca   2994               OATP8   62   intron 12 + 55   ataaatattaatgttaaata C/T taaagactgaatgcaattaa   2995               OATP8   63   intron 12 + 1802   taaaatgaatcggtaaaaca T/G tcatgtataaatcactgtca   2996               OATP8   64   intron 12 + 2612   ataggcatataatactcttt C/A ttccctctgtatatagggag   2997               OATP8   65   exon 13 + 1833   aacagctgtggagcacaagy G/A gcttgtaggatatataattc   2998               OATP8   66   5′flanking (1590-1587)   atatacatascatataccta TATC/Δ tatgttatgtgtctgcttat   2999               OATP8   67   5′untranslated − (11-28)   agcatcagcaacaattaaaa ATATTCACT   3000                   TGGTATCTG/Δ tagtttaataatggaccaac               OATP8   68   5′untranslated − (4-7)   tattcacttggtatctgtag TTTA/Δ ataatggaccaacatcaaca   3001               OATP8   69   intron 4 + (213-214)   cctgttcgcttatatgcagc (T) ttttgtccaaccaaacagaa   3002               OATP8   70   intron 4 + (213-214)   cctgttcgcttatatgcagc     ttttgtccaaccaaacagaa   3003               OATP8   71   intron 4 + 505   tataactttctctttataaa G/Δ atgcaaaatgttatagcatt   3004               OATP8   72   intron 4 + 616   aaaaataaatgaagtggagg A/Δ aaaaaaatgatttcaagttt   3005               OATP8   73   intron 4 + (804-812)   acatccatgtttaacagaat (A) 9-11 tattttgtaacgacaaaaga   3006               OATP8   74   intron 4 + 855   gagattgtttaaccaaatta G/Δ gaaactattattcaacacac   3007               OATP8   75   intron 7 + (619-628)   ttttatatatgaattaaaat (AT) 4-5 catatataatcttacccaag   3008               OATP8   76   intron 7 + (1773-1779)   attttctatattatgaactg (T) 7-8 aagggtagtgatgtgaatag   3009               OATP8   78   intron 8 + (1270-1290)   gagatggagtctcgctctgt   3010               OATP8   79   intron 10 + 665   ttctttcttaactcaaaggc T/≢ tttttttttccatgtgacac   3011               OATP8   80   intron 11 + (247-250)   aaaaatcttaaggcacacac TGAT/Δ tgacagttgccttgattgta   3012               OATP8   81   intron 12 + (1622-1630)   aaataaattgttggcatcta (T) 8-10 atttttctaagggtcgctgt 3013               OATP8   82   3′untranslated + (2464-2465)   gagaaaagcctgatgccttt A/Δ aaaaaaaatgaaacactttg   3014               OAT1   1   5′untranslated − 127   gcagctcggactcagctccc G/A gagcaacccagctgcggagg   3015               OAT1   2   5′untranslated − 20   gaaggcctcagcccccagcc A/G ctgggctgggcctggcccaa   3016               OAT1   3   intron 3 + 150   caatagaacaaccttttctc G/A ggctcatgccgccctgaccc   3017               OAT1   4   intron 4 + 211   ttctctggcttcccccactc A/C gttctccagcctgcctgctc   3018               OAT1   5   intron 5 + 33   gagacttcccatgataacct C/T ccagggcttcacccccaaac   3019               OAT1   6   intron 6 + 168   gaaccagatgcccccagcct C/T gactcagtcccagtctccac   3020               OAT1   7   intron 1 + (58-71)   gtacatggagaaattaactg   3021               OAT1   8   intron 3 + (1306-1319)   tcaagagtgtggagggggca   3022               OAT2   1   intron 4 + 842   ttgacctccaaaagtgtttg G/A attacaggcatgggccattg   3023               OAT2   2   intron 5 + 33   gtgtgtgtgagcatgcatat C/A tgtgtgtggtggggagtggg   3024               OAT2   3   intron 5 + 183   ccacatccatcattcgagac A/C aactcgtctcagctgccatg   3025               OAT2   4   intron 5 + 184   cacatccatcattcgagaca A/C actcgtctcagctgccatga   3026               OAT2   5   exon 7 + 1269   actagactgctagtgtcctc C/T ggtgagcccagtcccatagg   3027               OAT2   6   3′untranslatad + 1792   ataaatgtgtacatgagtgt A/G tgaacacaaatacataaggt   3028               OAT2   7   3′flanking + 1386   tgtagcagcccacatcgcca G/A tgttcacacctgagagagag   3029               OAT3   1   5′flanking − 580   ctgtgtcagagacacagaca C/G ggaggtcctggctgccccag   3030               OAT3   2   5′flanking − 463   ttcctgagaggcaaatcccc T/C tcccctactcgggaggtgcc   3031               OAT3   3   5′untranslated − 16   cctgcccacagctctggctc G/A tcttgccccagtgccatgac   3032               OAT3   4   exon 2 + 153   cctgtccaccactgtcgccc G/A ccccacaatgcctccacagg   3033               OAT3   5   intron 2 + 177   gcaccaagacccttggcttc T/C tcccactcagagtccaagca   3034               OAT3   6   intron 2 + 6201   gctcatcctctctggtcctt T/G tgccccagcacaggttcctc   3035               OAT3   7   intron 3 + 79   tctgctccacccgtgcaccc G/C caaagaggcaaagagctggg   3036               OAT3   8   exon 5 + 723   tggcgttggctgcagttaac T/A gtgtccattcccttcttcgt   3037               OAT3   9   intron 5 + 524   tcgaagtacaaaggaaagtt T/C aaagagaagcctgagcctgg   3038               OAT3   10   intron 7 + 386   gaccaatgggtttcagactc G/A aagacaaaaattatgtttat   3039               OAT3   11   intron 7 + 754   gcccacgtcagacatgacca G/A tcaatcacagcactttctcc   3040               OAT3   12   intron 9 + 81   attgtcctgtcctctaccca G/A gggagccatcctttatgaac   3041               OAT3   13   5′flanking − (661-660)   tacatttggtccccaggggg (G) agcggctgatcaggagagaa   3042               OAT3   14   5′flanking − (661-660)   tacatttggtccccaggggg     agcggctgatcaggagagaa   3043               OAT3   15   intron 8 + (211-212)   tctgacttggactgggcaaa AA/Δ gtatggtggtatctggatag   3044               ALDH1A2   1   5′flanking− 716   cagggatcctcattctgagc C/G cgaggcgagggggactcgca   3045               ALDH1A2   2   intron 1 + 314   cggtcccgactgccgcgggg G/Δ aaggcgtcggaaccgcttag   3046               ALDH1A2   3   intron 1 + (664 -675)   ataacgaacgttgacatctt   3047               ALDH1A2   4   intron 1 + 1370   gcatgcagcttagaagtttt A/G ttttatgagggtctctaacc   3048               ALDH1A2   5   intron 1 + 1557   ggtacgtttttcagaattta A/Δ tttggaagctcttccagttc   3049               ALDH1A2   6   intron 1 + 1934   tcagctctttagtgagactt C/G taaattttctaagacaagca   3050               ALDH1A2   7   intron 1 + (1971-1980)   agcatagtggacaagcagta (T) 9-11 aaacgtgaagagcagaagct   3051               ALDH1A2   8   intron 1 + 2295   tactgtaagacaatatgtta T/C tgttttttgtcttgctaaac   3052               ALDH1A2   9   intron 1 + 2387   ttgggacccacatagagtca C/T tacttaaaataaatgaccag   3053               ALDH1A2   10   intron 1 + 2841   aggaatgtgctttttaaaac T/Δ agatggtgttagtcaaggag   3054               ALDH1A2   11   intron 1 + 3035   gacttttataattttgtata A/G ctgatattataggaatacac   3055               ALDH1A2   12   intron 1 + 3319   aaagagttatgttttttttt T/Δ ctgcatctgatattatatgg   3056               ALDH1A2   13   intron 1 + 3474   ttgtctttttatttattcat T/C taaacttctgttttctgggg   3057               ALDH1A2   14   intron 1 + 4186   cettccaaacctttacttaa G/C attgtctgttttggtcataa   3058               ALDH1A2   15   intron 1 + 4222   cataaattgtcagtcaaact A/G catgttaatagaggacttca   3059               ALDH1A2   16   intron 1 + 4254   aggacttcaggttttttttt T/Δ aaatactttttcataactat   3060               ALDH1A2   17   intron 1 + 4397   cccttccactacatgggcct A/G tgttaccatgtggaattatc   3061               ALDH1A2   18   intron 1 + 5935   aactccaggttgcaaataga T/C gtttctggtattttaagtag   3062               ALDH1A2   19   intron 1 + 6206   ttttgaaagccctcctagca T/G ttctttaatttctttattga   3063               ALDH1A2   20   intron 1 + 9559   agataaattgatgaattatt C/T actctgtgctgctgatagat   3064               ALDH1A2   21   intron 1 + (9631-9632)   taaaaagaatttctaaaaga (AAGA) ccttttttttgaataactct   3065               ALDH1A2   21   intron 1 + (9631-9632)   taaaaagaatttctaaaaga     ccttttttttgaataactct   3066               ALDH1A2   22   intron 1 + 12731   ctgaaatagaaacctttcag T/A gtaccttgcagagcagtgaa   3067               ALDH1A2   23   intrnnl + 13442   cagtgtcataaagatccagc G/A gaaatcaaaatgtttcatat   3068               ALDH1A2   24   intron 1 + (14173-14176)   tctaaaaaaataaataaata AAAA/Δ gagaaaattaagtttaagat   3069               ALDH1A2   25   intron 1 + 14586   actcatttattggttcaaag C/G cttcttcaaccttaggatat   3070               ALDH1A2   26   intron 1 + 14595   ttggttcaaagccttcttca A/G ccttaggatatgcattgagg   3071               ALDH1A2   27   intron 1 + 14711   gtttgagacattaacttcta A/G ttcaactgaagatgctagtt   3072               ALDH1A2   28   intron 1 + (15327-15337)   gaagagcacagtagaaagac (T) 9-11 aaccctagcaatactattga   3073               ALDH1A2   29   intron 1 + 17258   atcagtacaatgtgttgggc A/G tacaacacttaatttaaaat   3074               ALDH1A2   30   intron 1 + 18277   taatacaaatcatttgaagc A/G tttactattaaaaaaacaaa   3075               ALDH1A2   31   intron 1 + 18734   ctttgagcacctactgcatt T/A taagtgctgttaagatgtgg   3076               ALDH1A2   32   intron 1 + 19081   ttaatcacctcaatctttaa C/T gaatttcttgatttttcttt   3077               ALDH1A2   33   intron 1 + 21514   aatcaggatatggggggttc G/A ttctttattctgccacaaat   3078               ALDH1A2   34   intron 1 + 21732   cattttaaaatagtgcttta A/G taggacttggctgttaaagt   3079               ALDH1A2   35   intron 1 + 21865   tggcataggtttaaaaatgt C/T tgttgtaggactcttttcca   3080               ALDH1A2   36   intron 1 + 26282   taaagaaggagaaaaaaaaa A/Δ ctaatctgagactttgcagg   3081               ALDH1A2   37   intron 1 + 27805   ggatgatgctacccaaggaa T/C tgcacacttccagacagtac   3082               ALDH1A2   38   intron 1 + 28204   tcactccattttttaactgt C/G cttcctaatgtgtggttaa   3083               ALDH1A2   39   intron 1 + 28521   tctttgttacacttcttaaa T/C cggggtatcagataatcttc   3084               ALDH1A2   40   intron 1 + 49478   gaataaaaggatagggacat G/T ggtaagaccactttttccct   3085               ALDH1A2   41   intron 1 + 49834   gcctctcaattttctcatgt G/T taatagagagaaaaccctgc   3086               ALDH1A2   42   intron 1 + 50351   gactgactggttcataagtt C/G agaaatttcactgtggtgct   3087               ALDH1A2   43   intron 1 + 51181   tgttattaccatagtagttc C/T gtaacacttggccgttgact   3088               ALDH1A2   44   intron 1 + 654   ttaacctctcttgagtaaaa G/A gaatccttcagaaccagagg   3089               ALDH1A2   45   intron 1 + 668   gtaaaaggaatccttcagaa C/T cagaggggatggtacggacc   3090               ALDH1A2   46   intron 3 + 712   catacacttctgctccgttt G/T ccctgtcattctgtgagcca   3091               ALDH1A2   47   intron 3 + 1273   tattcatactgtgaaaaagg T/A gtttcatggtgaagaaattc   3092               ALDH1A2   48   intron 3 + 1743   ccacacctaaatgagattcc C/T gttttaaacactctcaagct   3093               ALDH1A2   49   intron 3 + 2891   tgcacatatatactcattgt A/G gtttttactaggaactagac   3094               ALDH1A2   50   intron 3 + 2919   ctaggaactagaccaaacig G/A cagtactagaaatcttttta   3095               ALDH1A2   51   intron 4 + 290   cattgtgctagattaggtgc T/C ggggtaggtatgaaggggca   3096               ALDH1A2   52   intron 4 + 380   ctccttgccctcctgaaaca T/C ataagatctactctttggaa   3097               ALDH1A2   53   intron 4 + 461   gattatggctgattttcagt G/T tctttttaatatttttctct   3098               ALDH1A2   54   intron 4 + 506   tctatatttctcgaacggcc G/A tgaattactttcataatcta   3099               ALDH1A2   55   intron 4 + 1952   ttggtccccactccacctgt C/G atttcattattaaaacaaca   3100               ALDH1A2   56   intron 4 + 2079   ctctatttggcctaacggta C/T cttggttttcttttacttcc   3101               ALDH1A2   57   intron 4 + 2519   ttgggtcataagagctctct C/G catggtgtctcaaacagatg   3102               ALDH1A2   58   intron 4 + (2840-2851)   cacagtgaagtctggaatat   3103               ALDH1A2   59   intron 4 + 7231   aataggatacaaatacacaa A/T gatagtgattcagatcctaa   3104               ALDH1A2   60   intron 4 + 7958   taaaatcgtttttattgtta C/T taggtatataaaatttgcta   3105               ALDH1A2   61   intron 4 + 8090   tctgattttatcactgttta C/T agattgcttagtcatactca   3106               ALDH1A2   62   intron 4 + 12823   tgttagcctgtagctaaatg C/T ttttcaaatatgtgaacggt   3107               ALDH1A2   63   intron 4 + 12939   atgaggtccgacttttaaga T/C ttttgtctacattttcttec   3108               ALDH1A2   64   intron 4 + 14935   tattgatggagticttttta T/G aaatggacttttaccttctt   3109               ALDH1A2   65   intron 4 + 15321   gcatttgggtgtctgagaga C/T atatccagaaatatgctatg   3110               ALDH1A2   66   intron 4 + 15412   tttcaagtttatttctgttt T/G tttttttttttttttttttg   3111               ALDH1A2   67   intron 5 + 1888   aatccaaacatctgtacttt G/T tagtggacaagatttatgtc   3112               ALDH1A2   68   intron 7 + 9166   gaaaagctactttattcaaa G/A ataaaagtattttaagaaaa   3113               ALDH1A2   69   intron 7 + 9914   aagctggagaaaatactagg C/T tttcctcaacagtgatttcc   3114               ALDH1A2   70   intron 7 + 18942   tttggaggggaactaatccc G/A tgacttctaggttatctctt   3115               ALDH1A2   71   intron 7 + 19820   ttcacccctcattttaggtt A/G ggggaggtggcttgctacag   3116               ALDH1A2   72   intron 7 + 19826   cctcattttaggttagggga G/A gtggcttgctacagttttag   3117               ALDH1A2   73   intron 7 + 19913   cgtgaatcattcagtatttt A/G tttaaaaataccagtttgaa   3118               ALDH1A2   74   intron 7 + (20110-20111)   catgatttattctctaacta (ACTA) tgctaagtcaaagattctgc   3119               ALDH1A2   74   intron 7 + (20110-20111)   catgatttattctctaacta     tgctaagtcaaagattctgc   3120               ALDH1A2   75   intron 7 + 21857   acaatgaaaattaagaaagg A/T gaagagggaagaagcagaga   3121               ALDH1A2   76   intron 7 + 21929   tacaagacacaggcatcttt A/G actagtttactgggatctct   3122               ALDH1A2   77   intron 7 + 23308   ggctttgacttcggaaacct G/T tgggttataacaaagtactg   3123               ALDH1A2   78   intron 7 + 23554   gacattggtgaaaaccaggg C/T tgtttaggagtgtcctgtcc   3124               ALDH1A2   79   intron 7 + (23701-23703)   catctgagatttgccttgtg GTG/Δ tttaccgagttagtgggtgc   3125               ALDH1A2   80   intron 7 + 26479   gatacatgaacaatttgttt T/C atcctcatgatatctttcaa   3126               ALDH1A2   81   intron 7 + 26561   taaaggccacaatgcagtga T/C tgaaatctccagttacattt   3127               ALDH1A2   82   intron 7 + 26662   tttccttagtccttccatca C/T gaaactaaagctgtcttcca   3128               ALDH1A2   83   intron 8 + 76   tttatatctccacttttgat G/A ggacactagcaaaagatatt   3129               ALDH1A2   84   intron 8 + (700-711)   ccctccacttgttgccaggc   3130               ALDH1A2   85   intron 8 + 724   ttttttttccctccacttgt T/C gccaggcagagctgctttcc   3131               ALDH1A2   86   intron 8 + 800   cagattgcttgaatttcagc C/A ccagcttggaatttgcagag   3132               ALDH1A2   87   intron 8 + 1251   gatttctgtgaaaattgaga G/A gatctggcaacctggggctc   3133               ALDH1A2   88   intron 8 + 1627   ggcccctccccaggcaaagc G/A gtgagaacatggctgtttcc   3134               ALDH1A2   89   exon 9 + 141   tggagcgggccaagaggcgc G/A tagtggggagtccctttgac   3135               ALDH1A2   90   intron 9 + 778   aaccagtctggacagatccc T/C tgtagcttgtgaaagtgtag   3136               ALDH1A2   91   intron 9 + 801   tagcttgtgaaagtgtagga A/G gtgaagggctggctcacttc   3137               ALDH1A2   92   intron 9 + 868   tctgaaggcctcgtgtactt T/C agtggggtggggagggccac   3138               ALDH1A2   93   intron 9 + 1338   aatttttgcctctttttact A/G tcaatacaacttgctaagtt   3139               ALDH1A2   94   intron 10 + (227-229)   ctatgtgcttatgattatta TTA/Δ gccaacagaacaatcagaat   3140               ALDH1A2   95   intron 10 + 316   ctaaatgtgggtcactggga T/C gttaaccaggagagagaatc   3141               ALDH1A2   96   intron 10 + 368   ctttacatctgtgcaagaga G/A ggacaaggagcaaatcagcc   3142               ALDH1A2   97   intron 10 + 660   gtaaacttgcattgaaatgt G/A gaaagcaggtaaaggaatga   3143               ALDH1A2   98   intron 11 + 104   tggggaataccaaaagcaac C/T aaagttcaccagaaaagggg   3144               ALDH1A2   99   intron 11 + 229   aaacttctaaaagaaatacc A/G tgccagtcagattatgtgct   3145               ALDH1A2   100   intron 12 + 117   catacattcaacaaacattt C/T gtggagcacatgctactata   3146               ALDH1A2   101   intron 12 + 691   gatagggaagatcactgtga A/G ctggaaaaatctgggaaacc   3147               ALDH1A2   102   intron 12 + 1934   catcttgtctagattgcatg T/C ttgtttgtttgtttgtctct   3148               ALDH1A2   103   intron 12 + 1973   ctacttacccccaaaacatg T/A tttctctttcttaaatgacc   3149               ALDH1A2   104   intron 12 + 2722   ccagagtgactccagtatac C/A tcactgcccaggacccacag   3150               ALDH1A2   105   intron 12 + 3855   cacttgaaagcaaccataat T/C gtgaggtttctgatgctgta   3151               ALDH1A2   106   intron 12 + 4185   ttgctttaagcgaaatgaac T/C atacggacaggagaacagcc   3152               ALDH1A2   107   intron 12 + 4991   acaggaacacttagacatgc A/G acccactcccaccctccgtc   3153               ALDH1A2   108   intron 12 + (5018-5019)   cccaccctccgtcttggggg (G) aggaaagcacactactgtcc   3154               ALDH1A2   108   intron 12 + (5018-5019)   cccaccctccgtcttggggg     aggaaagcacactactgtcc   3155               ALDH1A2   109   intron 12 + (5051-5052)   actgtcccaaagaactaata (A) ctgaaccagtgctgccttgt   3156               ALDH1A2   109   intron 12 + (5O51-5052)   actgtcccaaagaactaata     ctgaaccagtgctgccttgt   3157               ALDH1A2   110   intron 12 + (5300-5302)   ttaaagttttaaaaaaactt CCT//Δ taaaaactactcatgagatg   3158               ALDH1A2   111   intron 12 + 5405   catcccaggacttgctgttc G/C caggtgataaactgcacctc   3159               ALDH1A2   112   intron 12 + 5435   aactgcacctccccaggact C/A ccgctgcactcacatgcagc   3160               ALDH1A2   113   3′flanking + 449   tttgggccgggaacaatttt T/C caaggttgtaaagccaaatt   3161               ALDH1A2   114   3′flanking + 597   acctgggatattcctgaccc A/C atctggttttcttttaccca   3162               ALDH1A2   115   3′flanking + 669   atagagactggaagtcatca T/C gtgcagttcaccgcttctga   3163               ALDH1A2   116   3′flanking + 1122   cgtgctccactgagctcctc T/G gtcacaccccattcttgccc   3164               ALDH1A2   117   3′flanking + 2214   tgcagctgtaaaaagaaatc T/C gtaaatggtgaccgtactac   3165               ALDH1A3   1   5′flanking − 1425   cagtgttagccagccgatat C/T ggtcaaggctgccccgctcg   3166               ALDH1A3   2   5′flanking − 1379   ccattatcccctttccccgg C/T ctcagctgtgcactccaggc   3167               ALDH1A3   3   5′flanking − 1270   aacttacccctctatccagc T/A ctatccagaaggacaccagg   3168               ALDH1A3   4   5′flanking − (1214-1213)   tcggaggcctcaaaacagga (GGA) aaataaggagacccctcccc   3169               ALDH1A3   4   5′flanking − (1214-1213)   acggaggcctcaaaacagga     aaataaggagacccctcccc   3170               ALDH1A3   5   5′flanking − 1103   gcacagcttttgtcaggagt C/T cgtgcctccggtctttgttc   3171               ALDH1A3   6   intron 1 + 986   gccttaactttccccacctt T/G ggcttctcttgatttttgct   3172               ALDH1A3   7   intron 1 + 1462   gtacaggatttcaaaatact G/A tatatagaaaccagacagta   3173               ALDH1A3   8   intron 1 + 1661   cctgttgtcttggtgggtgc G/A caacctttgccagttaaagg   3174               ALDH1A3   9   intron 1 + 2360   agaggatagaagtcccttct A/G atttagagggcctctttctt   3175               ALDH1A3   10   intron 1 + 2516   tgaaaacatattctttttga G/A tttagctgagtggcctgttg   3176               ALDH1A3   11   intron 1 + 2624   cctgagacaccttacagctc C/T gtcctgcttccatgtcattc   3177               ALDH1A3   12   intron 1 + 3255   tttcatctttctacaaatgg G/C Cccctcttcctggctgcact   3178               ALDH1A3   13   intron 1 + (3643-3656)   aacattctatcaacttttaa   3179               ALDH1A3   14   intron 1 + 4265   ccaaaagccctctcttttaa T/C atgacattaataagacaatt   3180               ALDH1A3   15   intron 1 + 5187   caagatggataagacgtcac C/T taaggtccttagcatgttga   3181               ALDH1A3   16   intron 2 + 43   ctctaagtaattcaattatg G/T atgaccaaaggataaggaaa   3182               ALDH1A3   17   intron 2 + 127   cagggcctgggctagctgcg T/C gaattggcatgtggttctca   3183               ALDH1A3   18   intron 2 + (285-300)   atcaattatttggacctgga   3184               ALDH1A3   19   intron 2 + 778   cgtgtgcagagtaggcttgg A/G ttttatcttgcccatgagtt   3185               ALDH1A3   20   intron 2 + 1216   actcggtagagtcactcctg A/C ctggtgtcccacatccactc   3186               ALDH1A3   21   intron 3 + 81   accatggggtatgggaaaaa A/C gatcacggtcctggttttgt   3187               ALDH1A3   22   intron 3 + 236   gctcagcttcttgaccaagt T/G gttgtctataggcagttgag   3188               ALDH1A3   23   intron 3 + 1467   ggcccggttgtaggggagga G/T atctcctttctggcctttga   3189               ALDH1A3   24   intron 3 + 1725   ccacatgttccccgggtgag A/G gtagctccctcccagggtaa   3190               ALDH1A3   25   intron 3 + 3777   gccagaagtagatgccccca A/G ttcagctgctgcattactgg   3191               ALDH1A3   26   intron 3 + 3829   caagtcactgggccgttagc G/C tccgtgcctgcaccttgaag   3192               ALDH1A3   27   intron 3 + 4299   tcactttccacagccacact G/A gccagcctggccgagaagga   3193               ALDH1A3   28   intron 4 + 84   agagccccccctgactgttt C/G cctaaggcaccattcccaac   3194               ALDH1A3   29   intron 4 + 126   ccactccctctccaaatggt A/G ctgccaattcttcttctaag   3195               ALDH1A3   30   intron 6 + (290-291)   tagagaattttcaggggggg (G) tcaaccaagagggagccaaa   3196               ALDH1A3   30   intron 6 + (290-291)   tagagaattttcaggggggg     tcaaccaagagggagccaaa   3197               ALDH1A3   31   intron 6 + 705   aacagctggtgatgagccaa T/G tttccactttcctttggtga   3198               ALDH1A3   32   intron 7 + 56   ggggcgtgttatttgacacc C/T gtgagcttttcctttgacag   3199               ALDH1A3   33   intron 7 + 1107   gatgctgttactctccttgg A/G gacagacactgccctgtgga   3200               ALDH1A3   34   intron 7 + 1610   aagagccacacagaaccacc C/G ccctactgggctgttggaat   3201               ALDH1A3   35   intron 7 + 1820   cacctgtaagtggagcggct T/C agaccaaggatcccaggatg   3202               ALDH1A3   36   intron 8 + 963   gagaaaggacaggaggagga C/T acaggctctcaggaaggaaa   3203               ALDH1A3   37   intron 8 + 1824   accattcttatccactaagc G/A tgtcccccaagatcttattc   3204               ALDH1A3   38   intron 8 + 2384   cgcctccctcgcccctcccc C/A tccagtggacttggcagtgg   3205               ALDH1A3   39   intron 9 + 24   atccccctggtgtgtgtgaa A/C ccatggtgcttgtctagggg   3206               ALDH1A3   40   intron 9 + 91   gcctacagggtccctctccg T/C gaaaggaatgccgacctgtc   3207               ALDH1A3   41   intron 9 + 219   actgaggcatgggaggaggg C/G gctattcccagggcagaagg   3208               ALDH1A3   42   intron 9 + 435   ccagacggagagagcctggg G/A caggagaatgtatctccagg   3209               ALDH1A3   43   intron 9 + 1472   ttgacttttgaggccagata C/T accgatttcttccaagagaa   3210               ALDH1A3   44   intron 9 + 2038   taaacaatgtgttcctacgg G/A ctctccagggagtgtggagt   3211               ALDH1A3   45   intron9 + 2124   caaacagggtctgccagatg G/A catatgcccagcagccaggg   3212               ALDH1A3   46   intron 9 + 2154   agcagccagggaggacctgc G/C gttgggcgaagcccctgtgt   3213               ALDH1A3   47   intron 9 + 2197   cttttggcccctcagggagg G/A gaagagcagctcagcagcat   3214               ALDH1A3   48   intron 9 + 2466   ttcttagttcctcatgtttc C/T ctctagaatgttttcgtgtg   3215               ALDH1A3   49   intron 9 + 3655   gattggtcaagtggcatgca C/T ggtttatgccctctctcctg   3218               ALDH1A3   50   intron 9 + 3954   gggtgcgcttttgacaactg C/G tcagtagcgtgttcacaagc   3217               ALDH1A3   51   exon 10 + 88   tggaatgcgggggctcagcc A/G tggaagacaaggggctcttc   3218               ALDH1A3   52   intron 10 + 8   tgccaaagaggaggtacaag G/A gggctgtggcaaggctacga   3219               ALDH1A3   53   intron 10 + 307   ctctctgattttctaacaca A/C ccggtccccgagtcagtcat   3220               ALDH1A3   54   intron 10 + 378   gtgggttttgccaggaatca G/A ttcaagaacctgtggattca   3221               ALDH1A3   55   intron 10 + 975   aatattgtgtcattccttcc C/G ctggtagttattatggaaac   3222               ALDH1A3   56   intron 10 + 1088   cagtgccaggagccaggggg C/T cttctccagatgactctgag   3223               ALDH1A3   57   intron 11 + 105   ttgtttacattgtatattat A/G taccaagccctgtctcagtg   3224               ALDH1A3   58   intron 11 + 274   agggctccagtacctgtgcc T/G gtggcccctgtgctgtactg   3225               ALDH1A3   59   intron 11 + 1088   cagtgccaggagccaggggg T/A cttctccagatgactcigag   3226               ALDH1A3   60   intron 12 + 96   ctccaatctgctgacacccc G/A tcccccccacaccgccgctc   3227               ALDH1A3   61   intron 12 + 5642   tctgtgctaacgtctgcttc T/C ctcatgccccctaggctggc   3228               ALDH1A3   62   exon 13 + 104   gggctccttcctcaaacatc G/C gacggcggaatgtggcagat   3229               ALDH1A3   63   exon 13 + 281   ataggttgtctgtgaaatcg C/T agtcctgcctggggagggag   3230               ALDH1A3   64   3′flanking + 743   gtgagcaggaaactgtagga G/A aaggatattttccctcattt   3231               ALDH1A3   65   3′flanking + 1145   gcctcccagctaccccaccc A/G cctcaggaggggtcattcca   3232               ALDH1A3   66   3′flanking + 1185   aacctagggtgctgagaatc T/C gggtgggattaccagcaaaa   3233               ALDH1A3   67   3′flanking + 1600   acaccacgccctgcaaattg T/C tgggaacttgtcggtggcaa   3234               ALDH1A3   68   3′flanking + 1847   caggagccctgcggctgccc C/G ggttctgtgaaatggcagtg   3235               ALDH1L1   1   intron 1 + 252   cgcagcgccaggactggccc G/C ccgaggatctggccggccgc   3236               ALDH1L1   2   intron 1 + 544   ctcaggggctgcgctggagt C/T ccagctccagccactgcgct   3237               ALDH1L1   3   intron 1 − 6596   cagatttttcttaaggtgca C/C tagccactgaggatattitt   3238               ALDH1L1   4   intron 1 − 6513   caattatggtttatcttagg C/A acatgtttatagagatagta   3239               ALDH1L1   5   intron 1 − 6478   atagtattcttacttagctt G/A cattctaaattttgttccct   3240               ALDH1L1   6   intron 2 + 240   gtggcattagggtcctggag A/G agggctatagagaagcccag   3241               ALDH1L1   7   intron 2 + 1326   gaggaggagaccygagagga G/C agccagtccagtcagggccc   3242               ALDH1L1   8   intron 3 + 386   gtcctactctaacttccact G/A ccgctgctctgggcagcaca   3243               ALDH1L1   9   intron 4 + 271   gggcccgttcaatagacaag C/C aaggctaaaggcagggactg   3244               ALDH1L1   10   intron 4 + 356   taggattctatttctctctc C/T ttcactcgttgattctcctt   3245               ALDH1L1   11   intron 4 + 608   gtgctctgataggctgtctc A/C gtcacatgcttcctgctggg   3246               ALDH1L1   12   intron 4 + 664   ggtcacatggcctgagcggc A/C gggcggctcagtcacctggg   3247               ALDH1L1   13   intron 4 + 785   gagggctgcttgcccctgcc C/C gaggacaggctggcagggac   3248               ALDH1L1   14   intron 4 + 874   ccctggggagcccttgctgt T/C tgggcgcagcaggaagagca   3249               ALDH1L1   15   intron 4 + 1349   tccctcaggctcttgctcac C/A tgggcccagactccctggct   3250               ALDH1L1   16   intron 4 + 1799   ctggggctgggaaggaggca C/A ggtcctattgctggggatag   3251               ALDH1L1   17   intron 4 + 1815   ggcagggtcctattgctggg C/A atagcaacccactggatctc   3252               ALDH1L1   18   intrOn5 + 272   aaagcccacagggagataag A/C gtgggagttagggggcaaaa   3253               ALDH1L1   19   intron 5 + 301   tagggggcaaaacgtcagcc C/A tagtgcgagcagtcttaaag   3254               ALDH1L1   20   intron 5 + 343   caaggtgtgagggacagtgc C/A ggtctctggagcaatagcca   3255               ALDH1L1   21   intron 6 + 926   cctgcctgggctactggctt C/T gggggcttcttctcacccac   3256               ALDH1L1   22   exon 7 + 41   aacgctgaacacttcaggcc T/C ggtgcccgagggagacgctt   3257               ALDH1L1   23   intron 7 + 305   cctagaatcagagagaagcc C/T tcccagggagcctgggtica   3258               ALDH1L1   24   intron 7 + 837   gtccggacaaaccccatggg C/T gtggtacccccagccgtgtt   3259               ALDH1L1   25   intron 7 + 866   cccagccgtgttgctgtgtc C/T ggcctaccagagtgaggcgt   3260               ALDH1L1   26   intron 7 + 884   tccggcctaccagagtgagg C/T gtggcagtatggggcctggc   3261               ALDH1L1   27   intron 7 + 1118   aatgttccagaaaatcatgc C/C aggcagtaagggcagaggaa   3262               ALDH1L1   28   intron 7 + 1168   aaagtaaaggttcaggagaa C/A tctagcctggggctgctccc   3263               ALDH1L1   29   intron 7 + 1451   cagggcacccacagcatctg T/C ccagagacctgcaaagacag   3264               ALDH1L1   30   intron 7 + 1489   caggaatgcaaagaaggcaa T/C taagtgtcttaagaggaagc   3265               ALDH1L1   31   intron 7 + 1579   tcagggtgggaggggagtga C/A gagagaccagctgagcacac   3266               ALDH1L1   32   intron 7 + 1691   ctggctgggctttagcttgc A/C gaaagctccagaacatcttt   3267               ALDH1L1   33   intron 8 + 2627   aaagaggagagccgggggtg C/T ttgtgccaggggttggggga   3268               ALDH1L1   34   intron 8 + 2646   gcttgtgccaggggttgggg C/A aactggttctgattgggcct   3269               ALDH1L1   35   intron 8 + 2925   ctgctgccctccataggtcc C/C agactgaatccttcagagga   3270               ALDH1L1   36   exon 9 + 4   caggtcttgctttgcagagt C/T tttggcagcggatcctcccc   3271               ALDH1L1   37   exon 10 + 109   cagctgttagtgaggaagct C/T cgaggggacgatgaggaggg   3272               ALDH1L1   38   intron 10 + (671-672)   tggcattttcctctgtctga (AG) gtcctcttagcccaccctaa   3273               ALDH1L1   38   intron 10 + (671-672)   tggcattttcctctgtctga     gtcctcttagcccaccctaa   3274               ALDH1L1   39   intron 11 + 8   caccgatggaagtgtgagtg C/A aggcccagcaccccttctcc   3275               ALDH1L1   40   intron 11 + 447   atgagccaaagcacgcctat C/A gtagatacacacgtgaacat   3276               ALDH1L1   41   intron 11 + 601   ctcaaaatgagtcatttgag A/C ggagttaatgaaagactcat   3277               ALDH1L1   42   intron 11 + 639   catctgcaaagggagaggga C/A ggggtagggacacagacagg   3278               ALDH1L1   43   intron 12 + 684   tcctgggagaagagagggtg C/T ggccagatgagccgagaaca   3279               ALDH1L1   44   intron 12 + 767   cgtctaggggtgcgaagcca A/C gttatggcgtggtcccaacg   3280               ALDH1L1   45   intron 12 + 1014   tcataggttccagtcccctr C/T gcaagcccctcaattctaga   3281               ALDH1L1   46   intron 12 + 1359   ctggttctgcctcagctcag C/T acagcagaggctgggtctag   3282               ALDH1L1   47   intron 12 + 1734   ggtggtccaggctgctggtg C/T tcagtagggccggccgagcc   3283               ALDH1L1   48   intron 12 + 1901   ttcagcagcctaactgaatt C/A acaatagaatagtcctgcaa   3284               ALDH1L1   49   intron 12 − 470   gggatggggccacctctcca T/C ctctggagatgccaggctca   3285               ALDH1L1   50   intron 12 − 334   aagggcagcctcttgggcca T/C gacccctttgctgtctgcag   3286               ALDH1L1   51   intron 12 − 325   ctcttgggccatgacccctt T/C gctgtctgcagcaagtgggt   3287               ALDH1L1   52   intron 12 − 221   taaggaagcgagggaagatc C/C aggaaaggagagagggacag   3288               ALDH1L1   53   intron 12 − 4   cccgcttcccctcaccctgg T/C caggttggcagatctcatgg   3289               ALDH1L1   54   intron 13 + 34   tcccacccagtgtgagcaca T/C gcagactggcccagccatat   3290               ALDH1L1   55   intron 13 + 58   gactggcccagccatatagg A/C gaactccaagggcagcacag   3291               ALDH1L1   56   intron 13 + 125   ccacaactggtggcttggaa T/C gacacctgtttattagcttg   3292               ALDH1L1   57   intron 13 + 126   cacaactggtggcttggaat C/A acacctgtttattagcttgt   3293               ALDH1L1   58   intron 13 + 281   acctgcatccagacgagttc T/C ggtgttgacagagttcagtt   3294               ALDH1L1   59   intron 13 + 299   tcgggtgttgacagagttca A/C ttccgtgtggatgcagggct   3295               ALDH1L1   60   intron 14 + 121   catttatcaaacagccatcc A/C tgtgcttcttgagcacctgc   3296               ALDH1L1   61   intron 14 + 167   gccaggcattgttgtaagga C/T ttgaggacaattgtatttaa   3297               ALDH1L1   62   intron 14 + 205   taatctcccagtaacactgg A/C tcagtcaggtccacggtggg   3298               ALDH1L1   63   irtron 14 + 219   cactggatcagtcaggtcca C/C ggtgggaaacaagagtaaac   3299               ALDH1L1   64   intron 14 + 2275   tctcatctgtgatgcatccg T/C cagacctctgctcccagcct   3300               ALDH1L1   65   intron 14 + 2431   tgaatgactgagtgatcaga C/C ctagagagccccagccccgg   3301               ALDH1L1   66   intron 14 + 2660   agccaagcatttcttgggga C/T accaagaaaccttgcttggt   3302               ALDH1L1   67   intron 14 + 2740   aactccaccctcaccgtcca T/C gcagctccccaggagcgtca   3303               ALDH1L1   68   intron 14 + 2756   tccatgcagctccccaggag T/C gtcagagggcagaggagggg   3304               ALDH1L1   69   intron 14 + 2805   ccgcacagcaggagaatggc T/C ccaagggagggagggacggg   3305               ALDH1L1   70   intron 14 + (3636-3637)   tctcctgggtgtgtgtgggg (G) tgtggggcagctcccctatc   3306               ALDH1L1   70   intron 14 + (3636-3637)   tctcctgggtgtgtgtgggg     tgtggggcagctcccctatc   3307               ALDH1L1   71   intron 14 + 4347   tccaggacagaaacagcagg C/T gtgagctgcctctcagaggg   3308               ALDH1L1   72   intron 15 + 380   atgtcccttatgtggcttcc A/G agaccagaagtcctggagag   3309               ALDH1L1   73   intron 15 + (1055-1056)   gccacaatctgcagctactc (C) tcccagcttgctgctgggct   3310               ALDH1L1   73   intron 15 + (1055-1056)   gccacaatctgcagctactc     tcccagcttgctgctgggct   3311               ALDH1L1   74   intron 17 + 15   gaaaaggtgcgtggctgggg G/C tggagcagaggaggggctgc   3312               ALDH1L1   75   intron 17 + 44   aggaggggctgctgtgagtg C/T gcctgggacatggcagtgct   3313               ALDH1L1   76   intron 17 + 51   gctgctgtgagtgcgcctgg G/A acatggcagtgctgtccaca   3314               ALDH1L1   77   intron 17 − (2224-2223)   ctggtgtcatctcccagact CT/Δ gtcactaaaccacaatatga   3315               ALDH1L1   78   intron 18 + 140   agcgtcatcacaagcatagc G/A tggcaggcagcaggcttagg   3316               ALDH1L1   79   intron 19 + (51-52)   tggttcactgggacagcagc GC/Δ ctggctggagggggttggag   3317               ALDH1L1   80   intron 19 + 399   tcaggtcagcctgggcctga C/A catggacaggggccctggag   3318               ALDH1L1   81   intron 19 + 1794   gtcctgtctgggggtcttaa G/C ggagtcatgagacttccaca   3319               ALDH1L1   82   intron 19 + 1969   tgatcggggtgcggtttggg G/T cgacaggacaggagcagaga   3320               ALDH1L1   83   intron 19 + 1972   tcggggtgcggtttggggcg A/G caggacaggagcagagaata   3321               ALDH1L1   84   intron 19 + 2083   tgagaagagcagaggggtgt G/T ccgggtgctcgagtcacacc   3322               ALDH1L1   85   intron 19 + 2119   acacctgtgtctgattaggg C/T tgattaggggtgcagagttt   3323               ALDH1L1   86   intron 20 + 1388   ttaccctcttcccactcccg C/T tggactgtgagttccatgag   3324               ALDH1L1   87   intron 20 + 1564   cccaggaaccaggaacagtg G/A ggagccatcaccccgccctg   3325               ALDH1L1   88   intron 20 + 1873   tcagtgttaaaacatcattt G/A tgtatgtatgaaaaatattg   3326               ALDH1L1   89   intron 20 + 2427   actaggattggatggacttg G/C gatcaggtctcagctctgtc   3327               ALDH1L1   90   intron 20 + 2458   cagctctgtcacctgccaac C/T ggcggccccatttccctcaa   3328               ALDH1L1   91   intron 20 + 2544   ccaggtgggagagccatctg C/T agcgtggtgacacccatcac   3329               ALDH1L1   92   intron 20 + 2573   gacacccatcacacgggtgc C/T gtgacccggtgcttatgtcg   3330               ALDH1L1   93   intron 20 + 2574   acacccatcacacgggtgcc G/A tgacccggtgcttatgtcgg   3331               ALDH1L1   94   exon 21 + 33   agccaactgttttcacagac G/A tggaagaccacatgttcata   3332               ALDH1L1   95   exon 21 + 87   ccttcgggcctgtcatgatc A/G tctctcggtttgctgatggg   3333               ALDH1L1   96   intron 21 + 323   ccatgcattaaaccaccccc C/G acactgagtggcttggaata   3334               ALDH1L1   97   intron 21 + 361   ataatcagagatttatttta C/G tcacggtctaggttcaatga   3335               ALDH1L1   98   intron 21 + 478   gtcttgcgggaggcttcctc C/A gcgtggcagcctcggggttg   3336               ALDH1L1   99   intron 21 + 1086   caacccaatcttgcccccgg C/T gctgcagcccggcacatttt   3337               ALDH1L1   100   intron 22 + 235   gggcctggaggagacactcc A/C gccaggaggcactgggggcc   3338               ALDH1L1   101   intron 22 + 313   atagcagggaggagttggcc G/A tgaagacccaggggcccgtg   3339               ALDH1L1   102   intron 22 + 1214   tgggcccacttatgaatcct G/C cccgagttccctcagctccc   3340               ALDH1L1   103   intron 22 + 1226   tgaatcctccccgagttccc T/C cagctccctcctaaccctag   3341               ALDH1L1   104   intron 22 + 1623   ggggcttcccactgtccaga C/G aaggcggtgggagctgggga   3342               ALDH1L1   105   intron 22 + 1698   attctggggagtcctggccc A/G ctatccactgccagggataa   3343               ALDH1L1   106   3′flanking + 145   gagagacaggaggaaatggg C/T gtgggtcatctcaggcccca   3344               ALDH1L1   107   3′flanking + 239   tgggaaacaggtgggaagac G/A gggattgagctgggtgagcc   3345               ALDH1L1   108   3′flanking + 288   ggaagcagctcagactccct C/T agcagatggggccgggccct   3346               ALDH1L1   109   3′flanking + 1513   agggtcggctcagaccccgg A/C gtgctcctggcatgtccagc   3347               ALDH1L1   110   3′flanking + 1707   cggtgggacttgccctagca C/T gtgccacttataccagaaca   3348               ALDH1L1   111   3′flanking + 1709   gtgggacttgccctagcacg C/T gccacttataccagaacaga   3349               ALDH1L1   112   3′flanking + 1745   acagatgagtccatgtcaac C/T gcttcctgagttccctttgt   3350               ALDH1L1   113   3′flanking + 1843   ctgcctctcagcccacagcc G/A ggccgctcacactcctccca   3351               CYP3A4   1   intron 2 + (754-763)   cacaaaatgagtttgtgggg (T) 9-11 acacaaaggcggaatcacat   3352               CYP3A4   2   intron 7 + 258   accactaatcaactttctgc C/T tctatggatttgcctattct   3353               CYP3A4   3   intron 7 + 894   tgctgatctcactgctgtag C/T ggtgctccttatgcatagac   3354               CYP3A4   4   exon 9 + (32-33)   ttccttcagctgatgattga (A) ctctcagaattcaaaagaaa   3355               CYP3A4   4   exon 9 + (32-33)   ttccttcagctgatgattga     ctctcagaattcaaaagaaa   3356               CYP3A4   5   intron 10 + 12   cccaataaggtgagtggatg G/A tacatggagaaggagggagg   3357               CYP3A4   6   intron 10 + 459   agacatgtgacttttttttt T/Δ gaaaggtaacaatcactttc   3358               CYP3A4   7   intron 10 + 608   agccgtctcgaatgtctccc C/T acttcataactcctccacac   3359               CYP3A4   8   intron 12 + 2467   ttttttgcccattactccat A/G gagatcagaatatcactctg   3360               ABCA1   1   (5′flanking region −99)   acataaacagaggccgggaa G/C ggggcggggaggagggagag   3361               ABCA1   2   (intron 1 159)   gcggtgttaaatggggagac G/T atgtcctagtacgagctctg   3362               ABCA1   3   (intron 1 506)   gaattggctatatgctcccc G/C ggactggagcggcacagtcc   3363               ABCA1   4   (intron 1 5897)   gtacaaaaccctttagcttt T/G gcaaacctcctttaagaccc   3364               ABCA1   5   (intron 1 5929)   ttaagacccgatttaaatgc C/T tccctcctcatgaagctctt   3365               ABCA1   6   (intron 1 5962)   aagctcttctggatccactc T/C ttcccatcactaagttgaaa   3366               ABCA1   7   (intron 1 5985)   cccatcactaagttgaaagt A/C agatccccttctctttactt   3367               ABCA1   8   (intron 1 11416)   ttacagtgccctttatagga G/A agaaagaagaaattgtgtct   3368               ABCA1   9   (intron 1 11935)   tctctgtggagcaaatagag G/A gctgtctgacacttggttcc   3369               ABCA1   10   (intron 1 12281)   gaatgtttgatttgtgaaaa T/A cttaataacagtagtttttt   3370               ABCA1   11   (intron 1 12924)   gtgctgacaatcttatactc T/C aggttgaacctccggggaag   3371               ABCA1   12   (intron 1 13002)   gagcctcaatcacagattct C/G tctagctcacatgaagttaa   3372               ABCA1   13   (intron 1 17715)   ggagcatgactttgtggaag C/T ctctcctcttccacccagag   3373               ABCA1   14   (intron 1 17848)   gagggctgactgtcaccctt T/C gataggagcccagcactaaa   3374               ABCA1   15   (intron 1 21384)   gtgggtgggaggaattggag G/C aggaagcttgcctaagtgtg   3375               ABCA1   16   (intron 1 23063)   ggaggcacctgtgacaccca G/A cggagtaggggggcggtgtg   3376               ABCA1   17   (intron 1 23131)   agtgtgcatatgtgctgacc G/A tgggagcttgtttgtcggtt   3377               ABCA1   18   (intron 2 2801)   aagaaaagtgatttatttca A/G gttgctgatgcttagattgt   3378               ABCA1   19   (intron 2 2830)   tgcttagattgttagagttg C/G aaagatctggcttgcatctt   3379               ABCA1   20   (intron 2 2856)   tctggcttgcatcttgtaca A/G ctgacagaactggggctcag   3380               ABCA1   21   (intron 2 3187)   tgatagctgttgcctgcagc A/G tacggacgttcattgcgcag   3381               ABCA1   22   (intron 2 3190)   tagctgttgcctgcagcata C/T ggacgttcattgcgcagttc   3382               ABCA1   23   (intron 2 3194)   tgttgcctgcagcatacgga C/T gttcattgcgcagttcctgt   3383               ABCA1   24   (intron 2 3204)   agcatacggacgttcattgc G/A cagttcctgtctcctgagat   3384               ABCA1   25   (intron 2 3401)   acataaagcctgtgtgctgc T/C gccaggaagactagaaacgc   3385               ABCA1   26   (intron 2 13927)   gtcaccacatacctggcact A/G tgctaaggctgggaatgcag   3386               ABCA1   27   (intron 3 4163)   ccagcccacttcatcttacc G/A tagttacctccttagagtat   3387               ABCA1   28   (intron 3 4262)   tgtcaaagaggaactaagga T/C gccagggactttctgcttag   3388               ABCA1   29   (intron 3 4306)   ccctctcatcacttctccaa C/T gctggtatcatgaaccccat   3389               ABCA1   30   (intron 5 490)   gatgggcatttgaacttgtt G/A tctttaaaaagtgaaatctt   3390               ABCA1   31   (intron 5 583)   tatctggggagtgggcattt T/G ctgactgaggcattggctgc   3391               ABCA1   32   (intron 5 1051)   ggctacaaaactgtgctttc C/T ttgggcagtaaaagaggcaa   3392               ABCA1   33   (intron 5 3051)   tagagaacaagtctaattct G/A ttttccttgaaatagtcgaa   3393               ABCA1   34   (intron 5 3127)   aagtccatgattttttaggc A/G aaatggcctcctttcctctt   3394               ABCA1   35   (intron 5 5924)   ctttctttcacaaaattgcc C/T cccagagctttctggaaggg   3395               ABCA1   36   (intron 5 6831)   ccagtccctcagccttgcca T/C tgcttatgctggtctggaaa   3396               ABCA1   37   (intron 5 12878)   gctcaccgctctgctcaccc G/C accctctggccatctcctct   3397               ABCA1   38   (intron 5 14214)   cagcttggtcccagaggcct G/A gacctgggtcccagaggtcc   3398               ABCA1   39   (intron 5 14257)   cctggttccccggcttggtc C/T cagaggcctggatgtgtggc   3399               ABCA1   40   (intron 5 18078)   cctaccacaccatgcacgtg C/T acagccaagggttgttgact   3400               ABCA1   41   (intron 5 18795)   ctgggctcttcctggacctg G/A ccagctaaaaggaaatctcc   3401               ABCA1   42   (intron 5 18948)   gcattggtggtactaagaac G/A catattccctatcctatagg   3402               ABCA1   43   (intron 5 19053)   ctcccccaacattaaaagtg T/C aagggatgcttattcaaatg   3403               ABCA1   44   (intron 5 19148)   ggcccaagaaactgcatttt C/A gcatgctccctaaatgaagc   3404               ABCA1   45   (intron 5 19229)   atgctaacagtgtagagtca C/T atgtgatgggaagcatcagg   3405               ABCA1   46   (intron 5 19405)   cttgctcaatttattctgtc T/C atataactcaatattactga   3406               ABCA1   47   (intron 5 19534)   catgtgaccctcttagctcc G/A cggattaactcctgtcctca   3407               ABCA1   48   (coding region   gaaaccttctctgggttcct G/A tatcacaacctctctctccc   3408               474 (Leu 158 Leu))               ABCA1   49   (intron 6 210)   gcaacctggcgtcatgggcc A/C gctggttaaaataaaattga   3409               ABCA1   50   (intron 6 334)   acagttctgaggcaataacc G/A tggttaagggttattgatct   3410               ABCA1   51   (intron 6 2288)   cttctttcaaagcttgtggt C/T cactggaccacgtatgaagt   3411               ABCA1   52   (intron 6 2322)   atgaagtagaatagtttagg T/C ccagaaaggcaattaagtaa   3412               ABCA1   53   (intron 6 2820)   gtgctttgatacattctgag T/G ttcagtaaagagacctgatg   3413               ABCA1   54   (intron 7 416)   catcataaagatgacattgt G/A ggctgtcacagttggaaggc   3414               ABCA1   55   (intron 7 471)   agaccacactatttagctta C/T ttagtaataacattgcaaag   3415               ABCA1   56   (intron 7 504)   ttgcaaagaaaaattccgac G/A aagttttttcagcctaggaa   3416               ABCA1   57   (intron 7 679)   gctctggtgaaattcctctc G/C ctaccccaaacatcatcatt   3417               ABCA1   58   (intron 7 1740)   acaaatgctcaccctttcag C/T tggaatgattgaaattttgg   3418               ABCA1   59   (intron 7 2122)   tgattaaggtggctactacc A/G ggtgctttctgcatatctcg   3419               ABCA1   60   (intron 7 7753)   taggaattccaagctgtgaa T/C tttttactgaagctctttgg   3420               ABCA1   61   (intron 7 8973)   atggaaatttgtttatattg A/T ctacagattgccaatattat   3421               ABCA1   62   (intron 7 8976)   gaaatttgtttatattgact A/G cagattgccaatattattag   3422               ABCA1   63   (intron 7 11327)   ctaacaatcttatttccatt G/C agtccttataaaagaagtgg   3423               ABCA1   64   (intron 7 11738)   ctgacgtttaagggagaccg C/T gtaggtccctttgaggactg   3424               ABCA1   65   (intron 7 12295)   agtctgtaaattattgttct T/A ttttttctttagcttatgct   3425               ABCA1   66   (intron 8 387)   tagcaaggccaatcatttta C/G caacacacatgcttgctaac   3426               ABCA1   67   (intron 8 697)   ggaactgtctggtgtccccc A/T gcataggaagctgagccagg   3427               ABCA1   68   (intron 8 3036)   ctttatgtgggaagaaattt T/G tttttttgattggggagtgg   3428               ABCA1   69   (intron 8 3176)   aaatggcctggttctctgtc C/A cctttctgtctgtatgcctc   3429               ABCA1   70   (intron 8 3364)   ggcagaaggcaaagcttagg A/T cctagagagtgctggaccac   3430               ABCA1   71   (intron 8 3373)   caaagcttaggacctagaga G/A tgctggaccacgccactcac   3431               ABCA1   72   (intron 8 3561)   cagggatttattaatgattt C/A ttgtgaaatgtttggaaata   3432               ABCA1   73   (intron 8 3654)   agtgccggaatacatttgca T/C gtaagacagaacgctgcctg   3433               ABCA1   74   (intron 8 4715)   ggcagaggggtctcagaatc C/T gcatttccaacaatgtctcc   3434               ABCA1   75   (coding region   cgtattgtctgcgggcatcc C/T gagggaggggggctgaagat   3435           936 (Pro 312 Pro))               ABCA1   76   (intron 9 2309)   cccctcaagagtcagtttaa A/G tgttggtcatgttagttgtc   3436               ABCA1   77   (intron 9 2392)   atgggagggcttgtgcttca T/C gaaaacatttttccagatca   3437               ABCA1   78   (intron 10 228)   tggggatggggaggactggc A/G cagggctgctgtgatggggt   3438               ABCA1   79   (intron 10 319)   ttctgcggtccctggctccc C/T acctgactccaggtgaacaa   3439               ABCA1   80   (intron 11 377)   gaaagaagtgtgggagcaaa A/C gcatgatgttacatgtagac   3440               ABCA1   81   (intron 11 521)   agtgctctagagacaattgg G/A ttcaaatgtggagcaggctg   3441               ABCA1   82   (intron 11 2850)   ctctatacaatcattatgct G/C ccattgaaataataaataca   3442               ABCA1   83   (intron 11 2976)   ctccaattcggtagaaccag A/G gcttcatcttctctgtcgaa   3443               ABCA1   84   (intron 11 3056)   gtttgcagctgctgtttttc C/T ggcagcacatctgtgcaggc   3444               ABCA1   85   (intron 12 340)   ggcattatttgtgaaactta T/C ctaaaatcgaattcgggtcc   3445               ABCA1   86   (intron 12 381)   aattaaatttttgaaatttt A/G tattaaaaattatattagta   3446               ABCA1   87   (intron 14 1728)   caggctcagaggccttggcc C/T atcaccctggctcacgtgtg   3447               ABCA1   88   (coding region   atgggcctggacaacagcat C/A ctctggtttagctggttcat   3448               2040 (Ile 680 Ile))               ABCA1   89   (intron 15 1382)   cttttagacagaaaagttac G/A tgggatattatctcccacag   3449               ABCA1   90   (intron 15 1453)   tatataaggagaaaccagtt G/A aaattacctattgaagaaac   3450               ABCA1   91   (intron 15 1567)   ttctgcgtagttttgggtaa G/A tcacttatcttctttaggat   3451               ABCA1   92   (intron 15 1617)   cagttgcctcatcagaaaga T/A gaacagcattacgcctctgc   3452               ABCA1   93   (intron 16 95)   agttgagaacagaagatgat T/A gtcttttccaatgggacatg   3453               ABCA1   94   (intron 16 452)   tggtgttttgcttgegtaat G/A ttttctgaactaagcacacc   3454               ABCA1   95   (intron 16 657)   ctgttgcctcagtctgggct T/C cataggcatcagcagcccca   3455               ABCA1   96   (intron 18 1730)   tgaaagttccagcgcagtgc C/G ctgtgtccttacactccact   3456               ABCA1   97   (intron 19 426)   aggaccttacagtgggtagt A/G tcaggaggggtcaggggctg   3457               ABCA1   98   (intron 19 468)   accgcaccagcgttagcctc A/G gtggcttccagcacgattcc   3458               ABCA1   99   (intron 20 876)   ccctcctcatctaacgtgaa C/T acatggggctcatgtgcagg   3459               ABCA1   100   (intron 22 118)   catgggatactcttctgtta T/G cacagaagagataaagggca   3460               ABCA1   101   (intron 22 560)   acagctttgccattctcggg G/A tcatagccatacagggtgaa   3461               ABCA1   102   (intron 23 102)   cccccttttgccatgttgaa A/G ccaccatctccctgctctgt   3462               ABCA1   103   (intron 23 287)   gtcacagaaaagcgacttgt C/T acgaggtaagagccttggct   3463               ABCA1   104   (intron 23 1063)   acctttcaccctcaggaagc G/A aggctgttcacacggccaac   3464               ABCA1   105   (intron 25 321)   ctctttacttaagtacagtg T/G gaggcacagcggcctccgga   3465               ABCA1   106   (intron 25 376)   gttagaaattcagcaacttg G/C gcccagctcagacctactga   3466               ABCA1   107   (intron 25 478)   catacataggaaatgacaaa C/T gtttatggatggatagtcta   3467               ABCA1   108   (intron 25 579)   tcatttaattctcaaaaaaa G/T atgaaaaaatgaacactcag   3468               ABCA1   109   (intron 27 153)   aatggtaaaagccactrgtt C/T tttgcagcatcgtgcatgtg   3469               ABCA1   110   (intron 28 1058)   actatcatgggagataatga C/T tatggttgtccatgattgga   3470               ABCA1   111   (intron 28 1317)   caggacccagtgttctgagt C/T accctgaatgtgagcactat   3471               ABCA1   112   (intron 30 372)   tatatgatttttaggttttg T/C ttatcagcttcttcgctttt   3472               ABCA1   113   (intron 30 506)   ccttttaaaaagtaagcagt A/G gataaataaattcagtgaag   3473               ABCA1   114   (intron 30 1033)   ctggatttcatggtgccttt G/C attttccacatgaaggttgt   3474               ABCA1   115   (coding region   tcttccctttgcagagacac G/A ccctgccaggcaggggagga   3475               4281 (Thr 1427 Thr))               ABCA1   116   (intron 33 626)   ggctccttgttactgatttc C/T gtcttttctctctgcctttt   3476               ABCA1   117   (intron 33 719)   taatagccctcatgctagaa G/A ggagccggagcctgtgtata   3477               ABCA1   118   (intron 33 726)   cctcatgctagaagggagcc a/A gagcctgtgtataaggccag   3478               ABCA1   119   (intron 33 889)   ctttcctcaatgtctcagct A/G tctaactgtgtgtgtaatca   3479               ABCA1   120   (intron 33 1097)   ctgtgcaccccactgtctgg G/C ttttaatgtcaggctgttct   3480               ABCA1   121   (intron 35 234)   aacctatctaeecctcagtt T/C cctcatctgtgaaatggaga   3481               ABCA1   122   (intron 37 411)   aactctgtacattttatcag C/T agcttatccatccattgcae   3482               ABCA1   123   (intron 37 1224)   caggcataggtgattcagag A/G tgaaaggtcaagtccctgaa   3483               ABCA1   124   (intron 37 1720)   aaattaaaattactctgact G/T ggaatccatcgttcagtaag   3484               ABCA1   125   (intron 40 251)   tgaaggtaaggaaaatagtg T/G tatttgcttggatccactgg   3485               ABCA1   126   (intron 40 252)   yaaggtaaggaaaatagtgt T/C atttgcttggatccactggc   3486               ABCA1   127   (intron 40 319)   agcactggaaaagtcaaacc A/G taactttgagaattaggtga   3487               ABCA1   128   (intron 40 957)   cttgttactcttttttcctt G/C tcatgggtgatagccatttg   3488               ABCA1   129   (intron 41 146)   tgatgtgggcatcccgcagc C/T ccctccctgcccatcctgga   3489               ABCA1   130   (intron 42 239)   cattggttttatatgcttac A/C tttatgtgttagttattaaa   3490               ABCA1   131   (intron 42 321)   aataaatggttgattttgag T/A ttgagtttcatagtccaaaa   3491               ABCA1   132   (intron 42 322)   ataaatggttgattttgagt T/C tgagtttcatagtccaaaae   3492               ABCA1   133   (intron 42 533)   agatgaaaaattatgtagat G/A ataatgaatgatacggttct   3493               ABCA1   134   (intron 42 546)   tgtagatgataatgaatgat A/a cggttctaaaaagacaggtt   3494               ABCA1   135   (intron 43 739)   tacagccacacttaaaatgg T/A cccattatgaaatacatatt   3495               ABCA1   136   (intron 44 18)   taggtgagaaaagaagtggc T/C tgtattttgctgcaaagact   3496               ABCA1   137   (intron 44 264)   acaatataatttgcttgttt T/C ttaagagtataatttagtga   3497               ABCA1   138   (intron 44 279)   tgttttttaagagtataatt T/C agtgatttttggtaaattga   3498               ABCA1   139   (intron 44 508)   tttacattgctacataaaat C/T cccctatgtacatgtaccta   3499               ABCA1   140   (intron 44 1477)   gatctcctctcctgtctctt A/T catttttgcagtagcaatgt   3500               ABCA1   141   (intron 44 1665)   tggttgtaagcactgatttg G/A ttggtatagctgtgagggcc   3501               ABCA1   142   (intron 44 1956)   gtgttgctcacactcaaaat T/G tctgggccttctcatttggt   3502               ABCA1   143   (intron 45 68)   aatatataccttatggcttt T/C ccacacgcattgacttcagg   3503               ABCA1   144   (intron 46 608)   ttatectgacttcaatagag a/C tttcagacaaaaagttgttt   3504               ABCA1   145   (intron 47 336)   ttcacaattgtaaacaccac T/C acactgaacagcatcatccc   3505               ABCA1   146   (3′untranslated region   aacaaaaatgtgggtgtctc C/T aggcacgggaaacttggttc   3506               7479)               ABCA1   147   (3′untranslated region   aggagcccactgtaacaata C/T tgggcagccttttttttttt   3507               8226)               ABCA1   148   (3′untranslated region   ttccagaatttgaatattaa C/T gctaaaggtgtaagacttca   3508               8697)               ABCA1   149   (3′untranslated region   aactattttgaagaaaacac A/G acattttaatacagartgaa   3509               9097)               ABCA1   150   (5′flanking region   tgacttaaatatttagacat (AT) ggtgtgtaggcctgcattcc   3510               (−1033) − (−1032))                       ABCA1   150   (5′flanking region   tgacttaaatatttagacat     ggtgtgtaggcctgcattcc   3511               (−1033) − (−1032 ))               ABCA1   151   (intron 5 6368)   ttctgatggggttgttgctg C/Δ tgagaatcatgactgggtgg   3512               ABCA1   152   (intron 5 9709)   cattttctgtctgaaccccc T/Δ cacccattcaggcagctgct   3513               ABCA1   153   (intron 5 13816)   tccctacttctccttttttt T/Δ catttgcctcctccacccac   3514               ABCA1   154   (intron 10 270-271)   cttttcagggaggagccaaa (G) cgctcattgtctgtgcttct   3515               ABCA1   154   (intron 10 270-271)   cttttcagggaggagccaaa     cgctcattgtctgtgcttct   3516               ABCA1   155   (intron 20 611-612)   tttagcccatcctctccccc (C) gccaccctccttattgaggc   3517               ABCA1   155   (intron 20 611-612)   tttagcccatcctctccccc     gccaccctccttattgaggc   3518               ABCA1   156   (intron 32 391-392)   gagtgccttgggtactctct (T) gatgggggactccatgataa   3519               ABCA1   156   (intron 32 391-392)   gagtgccttgggtactctct     gatgggggactccatgataa   3520               ARCA1   157   (intron 37 847)   gctgtatattgtgaatgtcc C/Δ gttttcaaaagcaaagccaa   3521               ABCA4   1   5′flanking region −   tgccatcataagcagaaact A/C tctctctcttcttggaagct   3522               1005)               ABCA4   2   5′flanking region −   gtctagagtctttcaaagag A/T acacattctgagatttgagg   3523               819)               ABCA4   3   (5′flanking region −   agcaccaccccattgcaggg C/A tggaatgacagtaatgggcc   3524               680)               ABCA4   4   (intron 1 208)   tgcccttcccaggaagatgt G/A tttctctgtcctcagccaca   3525               ABCA4   5   (intron 1 234)   ctgtcctcagccacatgaaa A/G tcttttgcctaccgtgcctg   3526               ABCA4   6   (intron 1 510)   agctcacgatcaagtcacag T/C ttaactggacacattatttt   3527               ABCA4   7   (intron 1 1527)   gcttaacaaccagcataaaa G/A agagcagcatgggacacgct   3528               ABCA4   8   (intron 1 2077)   caggactgtagctgctggcc T/C aeaatgagcccattcctgtg   3529               ABCA4   9   (intron 1 2174)   ccctctcaatctggcctttc G/C ctggcatgggtgggcgactc   3530               ABCA4   10   (intron 1 2246)   gctcccagggagatggagcc A/G ctcgggctgagggccttggc   3531               ABCA4   11   (intron 1 2364)   ttctgtctggcacgcctccc G/A atggctccccacctgctacc   3532               ABCA4   12   (intron 1 4243)   ctccctggggtatgcctgta C/G gcagttaagcgtcaaggaca   3533               ABCA4   13   (intron 1 4287)   atgccgctctggggagggga A/C gctgagcatgattttggaag   3534               ABCA4   14   (intron 1 4309)   ctgagcatgattttggaagc C/T ggcagaagaggctattgtga   3535               ABCA4   15   (intron 1 4416)   tgcagcaaccgcccccgccc C/T ccgccaaaaacaaacacact   3536               ABCA4   16   (intron 1 4996)   tttacccctggaacaggcag G/A ccaagctggc t/c ggtcccctc   3537               ABCA4   17   (intron 1 5007)   aacaggcag g/a ccaagctggc T/C ggtcccctccctgatacaca   3538               ABCA4   18   (intron 1 5080)   gtgtgtggctggtttcttag C/G aagcaccatggttccaagtt   3539               ABCA4   19   (intron 1 5152)   gggagatgaacgtaagtgga G/A ggcaggcctacaaggttgca   3540               ABCA4   20   (intron 1 7110)   ccactggatctgcttttgga A/G tcaagagtccttaagctcca   3541               ABCA4   21   (intron 1 7290)   gatttttgttggctttgcaa T/A ggatcacagtcatttattca   3542               ABCA4   22   (intron 1 7483)   tctgagcctctttccttaac T/C gcagagtgagtgg c/t tacaga   3543               ABCA4   23   (intron 1 7497)   cttaac t/c gcagagtgagtgg C/T tacagagaaatctttactac   3544               ABCA4   24   (intron 2 1067)   tcaegcagcagcagcaactg C/A gtggagtcttcttgaactaa   3545               ABCA4   25   (intron 2 1243)   cacccagcacagggactggc A/T cacatgagatgctcctgctt   3546               ABCA4   26   (intron 3 26)   tgttgagatccctaccatgc A/G ggggaggaagttgcacaccc   3547               ABCA4   27   (intron 3 101)   agcatggagcactgagtgtt C/T ttgtggctttgctgagcccc   3548               ABCA4   28   (intron 3 330)   tgcttgggtggagtgaatca T/C tgtaggagaaaaactcagtt   3549               ABCA4   29   (intron 3 470)   tgaagtcaggtttacaaagt C/G aagtttacttcttgggagaa   355O               ABCA4   30   (intron 3 634)   tgaaaaccaatgacccctct T/C ccaagaaaaatggccacata   3551               ABCA4   31   (intron 3 1016)   ccttgggggagctcagtatg A/G ttcttccaggagaagcctgc   3552               ABCA4   32   (intron 3 1554)   gaaagttgggtttcatgttt T/C gcactcacattatgagtgaa   3553               ABCA4   33   (intron 3 1686)   ctagacattctcacagagcc A/G agggcagcaaggcggggctc   3554               ABCA4   34   (intron 3 1823)   ttcacctctctccatggacc A/G gtctcccctgctcctcaatg   3555               ABCA4   35   (intron 3 1938)   caaattcctgggaacaaatc G/A ggttgacccagc t/g ttattct   3556               ABCA4   36   (intron 3 1951)   acaaatc g/a ggttgacccagc T/G ttattctccctgtcccatca   3557               ABCA4   37   (intron 3 2063)   ggctgtcagagcctacctgc G/T tgaatgggtggaagg g/a cagg   3558               ABCA4   38   (intron 3 2079)   ctgc t/g tgaatgggtggaagg G/A caggtctcagagaattgggt   3559               ABCA4   39   (intron 3 2186)   agacacacagagcatgggac C/T gagaggcgagcagaccctgc   3560               ABCA4   40   (intron 3 2214)   gagcagaccctgccaaaact G/A ggagactgaatagatcgctc   3561               ABCA4   41   (intron 4 3182)   cccccagagccacagcagcc C/G tgtctcctgggtggtcttgt   3562               ABCA4   42   (intron 4 3515)   agtatcataaaagcaggagc C/T atagcccccaactctcaaga   3563               ABCA4   43   (intron 4 3952)   agagaagccactgtgccact G/C tgtggtcgaacttcaagacc   3564               ABCA4   44   (intron 4 4637)   aatcacttgccccaaggtca C/T cttaactgttaggtgttctt   3565               ABCA4   45   (intron 4 5319)   acctctaggggctcccagag A/G ccccaagaacagaaccttcc   3566               ABCA4   46   (intron 6 2266)   cacccttgcagacctccgac G/A ggtcctgggggcttgctttc   3567               ABCA4   47   (intron 6 2857)   ccagaggagaaagctctgcc G/A tag t/c cggcctcagttaacca   3568               ABCA4   48   (intron 6 2861)   aggagaaagctctgcc g/a tag T/C cggcctcagttaaccacgga   3569               ABCA4   49   (intron 6 3078)   gcaggcattaaaatgggact T/G tgcctttattgctcctgggc   3570               ABCA4   50   (intron 6 3375)   ttaaetgccaaatgagttct c/a attaacaaagaaagagggaa   3571               ABCA4   51   (intron 6 3412)   ggaaaatctcagtaaaccac C/T gtgacggcatctacccactt   3572               ABCA4   52   (intron 6 4635)   ctttcgggtggatattgcta C/T gtcaagtgtctgggaaagcc   3573               ABCA4   53   (intron 6 −264)   aaacagcaattagaatcact T/C tgaaatagtgatagtattta   3574               ABCA4   54   (intron 7 828)   gatgtgggaaagttagagaa G/C agcccattgtactaatgctc   3575               ABCA4   55   (intron 7 1019)   aggcttcttgactgtctaga T/C agcaagtctaatcatttgtg   3576               ABCA4   56   (intron 8 374)   gtaaacacggctgtgggatg C/A ttttacaaacacaatatcgt   3577               ABCA4   57   (intron 8 874)   tgatgagcttgttattggtg G/A ggtacagcctattaatttag   3578               ABCA4   58   (intron 9 605)   tcgtgtctctgtcttgatct C/T tgtctggttttaggccaact   3579               ABCA4   59   (coding region 1268   aacttttgaagaactggaac G/A c/t gttaggaagttggtcaaag   3580               (Arg 423 His or His 423 His))               ABCA4   60   (coding region 1269   acttttgaagaactggaac g/a C/T gttaggaagttggtcaaagc   3581               (Arg 423 Arg or His 423 His))               ABCA4   61   (intron 11 5687)   atcatgtaatgtactttaga C/G tcagatatataaatatttgt   3582               ABCA4   62   (intron 11 7136)   gacttcccaacttaccttag T/C ggagctgtagtcacatagaa   3583               ABCA4   63   (intron 11 7180)   acgctcataaatgcttctct G/A ggctgtaaaggttgaatttt   3584               ABCA4   64   (intron 11 7701)   gttagacgcaggcattacct C/T gtggctttgccccagtgtga   3585               ABCA4   65   (intron 11 8073)   gggatgtttgcccacatcca T/C tggcatttctcaaaaggaac   3586               ABCA4   66   (intron 11 8586)   cagctgcctgcgctggagag G/A gctcaaacctcttccgccag   3587               ABCA4   67   (intron 11 11234)   cccaaataattttgtttttc G/A ttttaggaattaaatttcag   3588               ABCA4   68   (intron 11 11641)   aagaaacaaacatttattga C/G aacttttggtgtgtgacctg   3589               ABCA4   69   (intron 11 11808)   tggtatttcttaaagaaata C/T caattccatttccttttaac   3590               ABCA4   70   (intron 11 11923)   aagatcattattaatatctc A/G tcagcgtggtgtcacttaag   3591               ABCA4   71   (intron 12 305)   tcaccctgtggtcgggaggt G/A tgagtgagctatccaagccc   3592               ABCA4   72   (intron 13 1461)   ttgggtttcagtgtcagcat G/A tagctgtctactcagatccc   3593               ABCA4   73   (intron 14 1268)   ggagctgagccccttgtcct T/C atctaggtttcccttgttct   3594               ABCA4   74   (intron 17 23)   aagtcctttaaaacacaaat C/G ttaatgtttgaaatcaactc   3595               ABCA4   75   (intron 17 715)   tggactcccctagagctgaa G/A tactctcccatctgtttgtt   3596               ABCA4   76   (intron 18 1282)   ggaagatgaagaacctaagc C/T gcttccagaaattcatgagg   3597               ABCA4   77   (intron 20 −195)   acagattattccattgtatg C/A atgaactatgtaagccatcc   3598               ABCA4   78   (intron 23 755)   ctggctgccgctggggtttc C/T tatgtccatccacggggagg   3599               ABCA4   79   (intron 26 702)   tatcaaatacaactcagacg T/G cagtctcctggcccctttga   3600               ABCA4   80   (intron 27 156)   cctgctttccaaacccttat C/T ttgattcttggtaacatgaa   3601               ABCA4   81   (intron 27 385)   tttaaagaacagtgagtcac G/A tgacttgctctttgaaatgc   3602               ABCA4   82   (intron 28 299)   gacatgccatcagaccactg C/T gagtgttcaggcagcctacc   3603               ARCA4   83   (intron 29 168)   ctccttccacacttgtgtgc A/G gggacattcactacctccta   3604               ABCA4   84   (intron 29 497)   gctgtcaataaggaccaaaa C/T agactaatttcaaatccctc   3605               ABCA4   85   (intron 29 567)   agctgctaggaataaaaagg G/A agacaaaac g/a atccacaagc   3606               ABCA4   86   (intron 29 577)   aataaaaagg g/a agacaaaac G/A atccacaagctagagatggt   3607               ABCA4   87   (intron 30 −2494)   aatcacagctcatctgctgc A/G tcatagggatcccaaaagaa   3608               ABCA4   88   (intron 30 −2169)   aatgtaacagccaaagtcct A/G gaaaaaggcaagccagttcc   3609               ABCA4   89   (intron 31 535)   ctaactgtgaattatcatct T/G tgatcactgccctttgagat   3610               ABCA4   90   (intron 35 209)   tctccccaacatttatgtgg C/A aagtaagtttacatttggtt   3611               ABCA4   91   (intron 37 525)   taaatttgaatgagtaattc A/G tccatctcggcctcagtttc   3612               ABCA4   92   (intron 37 766)   tgttgcaggctggagaaccc T/G cctatgaattgtacagggct   3613               ABCA4   93   (intron 37 856)   aaaaccccatgaagtggtca A/G ggcaggcatcattatctcca   3614               ABCA4   94   (intron 38 62)   tagtagagtatgtgttggtc G/A agcagagccaggggcaagca   3615               ABCA4   95   (intron 38 761)   tccttgggcaagttaatctt G/A atgaagagactgggtgttct   3616               ABCA4   96   (intron 38 1315)   cagagtcagactctggaaag G/T c/a ggggggataagaacacagc   3617               ABCA4   97   (intron 38 1316)   agagtcagactctggaaag g/t C/A ggggggataagaacacagcc   3618               ABCA4   98   (intron 38 1561)   gtattttcatgtaaattatc C/A g/a atacacagctgctatggaa   3619               ABCA4   99   (intron 38 1562)   tattttcatgtaaattatc c/a G/A atacacagctgctatggaaa   3620               ABCA4   100   (intron 38 2874)   ctagacaaagggg a/c agctcc C/T gcccactagaaacttgcagg   3621               ABCA4   101   (intron 40 1904)   gacactgtacagccagccca A/C tcctgaccccttttcttcat   3622               ABCA4   102   (coding region 5814   ggaaataaaactgacatctt A/G aggctacatgaactaaccaa   3623               (Leu 1938 Leu))               ABCA4   103   (intron 41 122)   atttggttcccagttttatg T/G agggtcatcatccctgtgtt   3624               ABCA4   104   (intron 41 411)   cctcttcccctccttgctct C/A accctgtctcagttctcagt   3625               ABCA4   105   (intron 41 443)   gttctcagtccggtttcttc G/A tatcttgcagatttatcc a/g g   3626               ABCA4   106   (coding region 5844   c g/a tatcttgcagatttatcc A/G ggcacctccagcccagcagt   3627               (Pro 1948 Pro))               ABCA4   107   (intron 43 328)   tttgtagcctattcctataa A/G aatgcaccattgcttc c/g cat   3628               ABCA4   108   (intron 43 345)   taa a/g aatgcaccattgcttc C/G cattacctccctccacacat   3629               ABCA4   109   (intron 43 370)   acctccctccacacattttt A/G caaaa c/t gtttcagggagttt   3630               ABCA4   110   (intron 43 376)   ctccacacattttt a/g caaaa C/T gtttcagggagtttactgag   3631               ABCA4   111   (intron 43 670)   ttaaacagactggtccccta T/C gggcaggacagagaggatga   3632               ABCA4   112   (intron 43 822)   gttaggtgctgctgacatct G/A tccagcatctgcttgactgg   3633               ABCA4   113   (intron 43 915)   ggcaggacgagtcctgagca C/T gcttcactggctcagacagg   3634               A5CA4   114   (intron 43 1242)   actgagctggacgctagaaa G/T aaactataggcttaagacac   3635               ABCA4   115   (intron 43 1671)   tagagaagtttacttccatc G/A ggacacatgcatcttttcta   3636               ABCA4   116   (intron 43 2036)   ttgaaggatactcagtaatt G/A ctttttttcttgcagtattt   3637               ABCA4   117   (intron 45 176)   gtgtttggttcacacagctc C/T ggagaaaaacaagtca c/t ggc   3638               ABCA4   118   (intron 45 193)   ctc c/t ggagaaaaacaagtca C/T ggcacagccttgacttggga   3639               ABCA4   119   (intron 47 238)   cccaagtctctggatggggc A/G tctgatcaggatgcatgcag   3640               ABCA4   120   (intron 47269)   atgcatgcagagcctggctg G/A gatgagggagggctgctacc   3641               ABCA4   121   (intron 47326)   accacttatctcaacagatc C/G gggacctgtggcctatttac   3642               ABCA4   122   (intron 47715)   aagtcactaagctggttggt G/A ggaggaacagcacataac ctt c   3643               ABCA4   123   (intron 47734)   t g/a ggaggaacagcacataac C/T caccttatctatgctgaggt   3644               ABCA4   124   (intron 47931)   ggacactgcatagatatcta T/C agaaatagcagcatgtcagg   3645               ABCA4   125   (intron 471260)   acactctctggtggaccatc A/C ctcatccaagagagggtaac   3646               ABCA4   126   (intron 461663)   tctcgctcttctcttacctc T/C aggtgtttgtaaattttgct   3647               ABCA4   127   (intron 49127)   agagagccccacccacacca C/T ggtccctaccaagtccccac   3648               ABCA4   128   (5′flanking region   gtaaatctcagttgaatcag (TCA) 14-16   3649               (−1441) − (−1400))   atttttcagtctggttcctg               ABCA4   129   (intron 1 4712-4720)   gaggggcggggactataggc (A) 8-10 cagcctaattcaaggatgag   3650               ABCA4   130   (intron 1 7295-7304)   ttgttggctttgcaa ttc ggat CACAGTCAT/A   3651                   ttattcactcattcattcac               ABCA4   131   (intron 2 951-952)   cctgtccatcagactcttct TT/Δ acctctccccgaggagccca   3652               ABCA4   132   (intron 3 2642-2653)   cctgggtgacagagcgagat (A) 10-12   3653               ABCA4   133   (intron 4 5202)   cacaaagcatctgacacccc C/Δ atccagccctggctaacttt   3654                   cactaaaaacaaaaatttac (A) 16-18   3655               ABCA4   134   (intron 6 3029-3044)   cctgaaagaaatcgcaggca               ABCA4   135   (intron 6 5138-5139)   ttcatgacagatcagatgtt (G) cttttatggatttacaaaga   3656               ABCA4   135   (intron 6 5138-5139)   ttcatgacagatcagatgtt     cttttatggatttacaaaga   3657               ABCA4   136   (intron 6 5985)   tttccttcttcaaacccccc C/Δ agactaggagaaggtctgtc   3658               ABCA4   137   (intron 6 6094)   gggacggacagaaaaagacc T/Δ agtttctgttgagccaaaga   3659               ABCA4   138   (intron 6 −161)   tattttttcaattaaataaa A/Δ gagttttttgtttctaaaag   3660               ABCA4   139   (intron 7 809-810)   gggccgagtatgcacactga (TG) tgtgggaaagttagagaa g/c   3661                   a               ABCA4   139   (intron 7 809-810)   gggccgagtatgcacactga     tgtgggaaagttagagaa   3662                   g/c a               ABCA4   140   (intron 8 472-484)   atcttccccacctttcacta (T) 10-13   3663                   ggtcttctatggggtaaagg               ABCA4   141   (intron 9 48-71)   gtaccctggacctcccagaa (GT) 11-13   3664                   gagagagatgtgccttcctg               ABCA4   142   (intron 9 554)   ataggggcagaaaagacaca A/Δ ccaaaagttctctctcactt   3665               ABCA4   143   (intron 10 11)   catgatcagagtaagggggg G/Δ ttggaggatggggaggggag   3666               ABCA4   144   (intron 11 4242)   ggagaggaaatgatgttagt G/Δ cctcctgtaaataggcccag   3667               ABCA4   145   (intron 11 13743-13753)   tgctcttttgtgggtaatgg (T) 9-11 cctcttccaggagaagaaaa   3668               ABCA4   146   (intron 13 636-637)   cggggtggagggttgggagg (G) ctcatttgtcattatagatg   3669               ABCA4   146   (intron 13 636-637)   cggggtggagggttgggagg     ctcatttgtcattatagatg   3670               ABCA4   147   (intron 18 569-570)   tgctgccctcatcttctctc T/Δ aaactagttctgtatttctc   3671               ABCA4   148   (intron 20 (−304) − (−297)   tataacctgacttttttttc (A(7−∩ggattgcttttttaaacata   3672               ABCA4   149   (intron 22 1236-1246)   gctgaattagttcccttggg (T) 9-11 agttaactcctgatttttgc   3673               ABCA4   150   (intron 26 4626-4635)   gataatcaatgctgtaaggg (A) 9-10 tggcattagagatccagacc   3674               ABCA4   151   (intron 33 115-116)   taaaaccgtcttgtttgttt GT/Δ ttacatggtttttagggccc   3675               ABCA4   152   (intron 36 1078)   taagcagctatcacttaaca A/Δ tacaaaaccagagattatca   3676               ABCA4   153   (intron 37 290-291)   ccttgaccaaagcctggggg (T) cagccattcccca a/g cccctc   3677               ABCA4   153   (intron 37 290-291)   ccttgaccaaagcctggggg     cagccattcccca a/g   3678                   cccctc               ABCA4   154   (intron 38 896)   ataaaaagagggggaaaaaa A/Δ gaaggcagtcgctgcagggc   3679               ABCA4   155   (intron 38 1209-1210)   gtggacccctgagactgact CT/Δ ttccagatcttgttagggtt   3680               ABCA4   156   (intron 38 1322)   agactctggaaag g/t c/a ggggg G/Δ    3681                   ataagaacacagccccagca               ABCA4   157   (intron 38 3107)   gggccccacctgctgaagag A/Δ gggggggtggggtttgcccc   3682               ABCA4   158   (intron 40 152)   ttttctccaataatacaagt A/Δ gaggatcgggttaaaatagg   3683               ABCA4   159   (intron 43 330)   tgtagcctattcctataa a/g a A/Δ tgcaccattgcttc c/g   3684                   catta               ABCA4   160   (intron 43 1354)   tttaattggcccagccatgc C/Δ tttggtggcttttgtcattg   3685               ABCA4   161   (intron 47 1305-1308)   catcctgctgaaggagaaag AAAG/Δ caccaatggcccaagcccta   3686               ABCA7   1   (5′flanking region −1596)   agaatgttggccccctcccc C/T t c/t ctgcatcctctgcagaag   3687               ABCA7   2   (5′flanking region −1594)   aatgttggccccctcccc c/t t C/T ctgcatcctctgcagaagcc   3688               ABCA7   3   (5′flanking region −1180)   ggccagtgagtgacgggcag G/A tcgcccaaatagcagcgtgc   3689               ABCA7   4   (5′flanking region −460)   agagctggggtcgtgcctcc A/G gctgggcaactgcctgtctc   3690               ABCA7   5   (5′untranslated region −9)   ctctgtcccgtcccctgccc A/G gtctcaccatggccttctgg   3691               ABCA7   6   (intron 5 91)   ccccgggccaaggacctccc G/A ttccaggcatccaggctgtc   3692               ABCA7   7   (coding region 563   cagcttgttggaggccgctg A/G ggacctggcccaggaggtac   3693               (Glu 188 Gly))               ABCA7   8   (intron 8 103)   gccggagggtcacggaaact A/G tttgaagaagtaggagttag   3694               ABCA7   9   (intron 8 166)   tgcggaggatcagaggcaca C/T gcaggagcaaggcagagggg   3695               ABCA7   10   (coding region 955   accggaccttcgaggagctc A/G ccctgctgagggatgtccgg   3696               (Thr 319 Ala))               ABCA7   11   (intron 9 421)   tttttttttttttttttttt T/A taagagatggagtctcactc   3697               ABCA7   12   (intron 9 463)   gttgcccaggctggactgca G/A tgg c/t gagatcttggctcact   3698               ABCA7   13   (intron 9 467)   cccaggctggactgca g/a tgg C/T gagatcttggctcactgcaa   3699               ABCA7   14   (intron 9 488)   gagatcttggctcactgcaa C/T ctccgcctcctggattcaag   3700               ABCA7   15   (coding region 1184   cgcacacgctgatgtggggc A/G cctggtgggcacgctgggcc   3701               (His 395Arg))               ABCA7   16   (intron 10 10)   gagtgacggaggtgagggcc T/C gtccacctgcggggtctgtt   3702               ABCA7   17   (coding region 1388   cctgggccccggccacgtgc G/A catcaaaatccgcatggaca   3703               (Arg 463 His))               ABCA7   18   (intron 12 115)   caggctgcgaactttgcacc T/G ttacaccactccacgtgacc   3704               ABCA7   19   (coding region 1824   cccttcctgctcagcgccgc A/G ctgctggttctggtgctcaa   3705               (Ala 608 Ala))               ABCA7   20   (intron 13 55)   ggtgcgctggagggtgacag A/G caggggcggccccacgtggg   3706               ABCA7   21   (intron 13 78)   ggggcggccccacgtgggtg C/A gcgcccccaggccaatccag   3707               ABCA7   22   (coding region 1851   cgttgcctctcacagctggg A/G gacatcctcccctacagcca   3708               (Gly 617 Gly))               ABCA7   23   (coding region 2153   cgagggcgcgcagtggcaca A/C cgtgggcacccggcctacgg   3709               (Asn 718 Thr))               ABCA7   24   (intron 15 34)   ggcggggctccgggccgggt C/G gcacctgctttgcgggaggc   3710               ABCA7   25   (intron 16 8)   ctggacccaaagggtgaggc A/C ctacgaggcttaatagctgg   3711               ABCA7   26   (intron 16 161)   tcccgcagcttttataggcc C/T cggcccagcaggtcccggat   3712               ABCA7   27   (coding region 2385   caccccatctctgcagtgct G/A gtagaagaggcaccgcccgg   3713               (Leu 795 Leu))               ABCA7   28   (coding region 2421   cccggcctgagtcctggcgt C/A tccgttcgcagcctggagaa   3714               (Val 807 Val))               ABCA7   29   (intron 20 166)   cgagacagtaagagttgggg A/G tagacagaggttcccctgga   3715               ABCA7   30   (coding region 3027   ctgctgggagaccgtgtggc C/T gtggtggcaggtggccgctt   3716               (Ala 1009 Ala))               ABCA7   31   (intron 22 1386)   gggtggggcgtgagccgggg C/T tccctgaagcacccctttgt   3717               ABCA7   32   (coding region 3417   gggatctccgacaccagcct C/G gaggaggtgtgaggcctggg   3718               (Leu 1139 Leu))               ABCA7   33   (intron 23 147)   ggagctctggtggctcagat G/A tcccttgggaaggcctgggg   3719               ABCA7   34   (coding region 3528   gctggcctagacgtaaccct A/G cggctcaagatgccgccaca   3720               (Leu 1176 Leu))               ABCA7       (coding region 4046   cccagcctgccagtgtagcc G/A gcccggtgcccggcgcctgc   3721               (Arg 1349 Gln))               ABCA7   36   (intron 30 81)   ccccctgggagctctcccgg C/A ccccccggccctcagctccc   3722               ABCA7   37   (intron 32 1)   caaggagcagctgtctgagg G/C tgcactgtgagtccctccac   3723               ABCA7   38   (intron 33 54)   ccactgcttgccactgccct G/A tctggccccttgtaggcagg   3724               ABCA7   39   (intron 34 245)   cagtactttgggaggccgag G/A caggaggactgcttgtggcc   3725               ABCA7   40   (coding region 5057   ggtgagccggatcttgaaac A/G ggtcttccttatcttccccc   3726               (Gln 1686 Arg))               ABCA7   41   (intron 38 65)   ggcccactcacctttctgaa A/G gacctgcactctcccaggta   3727               ABCA7   42   (intron 40 154)   ttctacctcccacacgcgga C/G caggccctgagacacccctg   3728               ABCA7   43   (intron 40 277)   ctgagcccccggcgccccca T/C ccccagcgtggcccgggaac   3729               ABCA7   44   (coding region 5592   gtggcccgggaacccagtgc T/C gcgcacctcagcatgggata   3730               (Ala 1864 Ala))               ABCA7   45   (intron 41286)   ctccttgactctgccttctg T/C ggccctgcccacttgctcct   3731               ABCA7   46   (intron 41389)   tggccgttcccagtttgcag C/T cgtttcactgcctcttccat   3732               ABCA7   47   (intron 41 991)   cacactatggccctgcccca C/T ac c/t cat c/g cc a/g   3733                   gctccaccca               ABCA7   48   (intron 41 994)   actatggccctgcccca c/t ac C/T cat c/g cc a/g   3734                   gctccacccacac               ABCA7   49   (intron 41 998)   tggccctgcccca c/t ac c/t cat C/G cc a/g   3735                   gctccacccacaccatg               ABCA7   50   (intron 41 1001)   ccctgcccca c/t ac c/t cat c/g cc A/G   3736                   gctccacccacaccatggcc               ABCA7   51   (intron 411051)   actcatgctggctccaccca C/T accatggccccgccccatac   3737               ABCA7   52   (intron 41 1131)   tgccctgccccatgcccatt A/G tgcccctgctccacactcaa   3738               ABCA7   53   (coding region 5985   gaagcgctctgctcgcgcct G/A gccatcatggtgaatgggcg   3739               (Leu 1995 Leu))               ABCA7   54   (intron 44 201)   ggcgcaggaccaggaggcgt G/C agccgggggctctgggtgga   3740               ABCA7   55   (intron 44 233)   ctgggtggatttagaagaca C/T aatcaggtgtgcgttggagt   3741               ABCA7   56   (intron 44 313)   agttaggggagggcctggtt A/G gtgggcggggccataggaaa   3742               ABCA7   57   (coding region 6133   tggcggccgagttccctggg G/T cggagctgcgcgaggcacat   3743               (Ala 2045 Ser))               ABCA7   58   (coding region 6159   ctgcgcgaggcacatggagg C/T cgcctgcgcttccagctgcc   3744               (Gly 2053 Gly))               ABCA7   59   (intron 45 27)   acggcgccggggtcgggctg G/C gggaggcaggctgggggcca   3745               ABCA7   60   (3′flanking region 108)   caagctgagtgtgcacatac G/A ggccaagtggcgattcatag   3746               ABCA7   61   (3′flanking region 376)   cttacaggagcccggtgtcc C/T ggagcacaggccagggccgg   3747               ABCA7   62   (3′flanking region 687)   cagcagggagacttggggag G/A g/a gggagagagttcacactgc   3748               ABCA7   63   (3′flanking region 688)   agcagggagacttggggag g/a G/A gggagagagttcacactgcg   3749               ABCA7   64   (3′flanking region 1169)   cctcgacctgacccacttca C/T ggggctgcagggcgggtgat   3750               ABCA7   65   (intron 9 398-422)   cgtgaactaccacgtcctgc (T) 22-26   3751                   aagagatggagtctcactct               ABCA7   66   (intron 12 175-184)   ggggactctgagggtctggt (G) 8-10 actctgagggtctgggggcc   3752               ABCA7   67   (intron 30 81-87)   ccccctgggagctctcccgg (C) 6-7 ggccctcagctccccttccc   3753                   agaaagagaaagagagaaag (A) 12-14               ABCA7   68   (intron 34 349-361)   cagaaatgtgctttgggtga               ABCA8   1   (intron 1 204)   ctggtaattaatattagata A/G ataaaaacattgagttagaa   3755               ABCA8   2   (intron 1 266)   aacattatgttgttttaaac A/G taactgagtgtagaaataag   3756               ABCA8   3   (intron 1 733)   ttgccatatgtataataaag T/A attcatgtttttgctagcct   3757               ABCA8   4   (intron 1 861)   agactggagtttgcatgcta C/T ctaagactgtagctgattcc   3758               ABCA8   5   (intron 1 907)   gaggagatcatcctcttggc C/T aatgtctattaacttcgcca   3759               ABCA8   6   (intron 1 1262)   cagaaacttttgccctctct G/A taggctagctcactgtgaaa   3760               ABCA8   7   (intron 1 1537)   agctctcttaaaagtatcca T/C gctgaattttctgcacctta   3761               ABCA8   8   (intron 1 7622)   tcgttaacagcaatgataat T/C tagcccatccttatcc c/t a   3762               ABCA8   9   (intron 1 7639)   t tic tagcccatccttatcc C/T agaaacaacaggctcataag   3763               ABCA8   10   (intron 1 7720)   tccatgtgttacaaactgcc C/T tggagaacagaaaaagagaa   3764               ABCA8   11   (intron 1 9397)   cataatatatatacatatgc G/A cacacacacacatatacaca   3765               ABCA8   12   (intron 1 9519)   agtagttcatgttggaacaa T/C atgcttgagaaatgcagaaa   3766               ABCA8   13   (intron 1 12973)   ttgataacaggcacagggca T/C cacaaataaatgatggaaca   3767               ABCA8   14   (intron 1 13100)   cattggagtattaggctacg T/C ttttttgttgtttgcaggat   3768               ABCA8   15   (intron 1 13128)   ttgtttgcaggatatttctt T/C ttcttaagaacttcatatta   3769               ABCA8   16   (intron 2 420)   caattagttttcttcaaaaa A/G gtagaaaagttggaattgta   3770               ABCA8   17   (intron 2 505)   catataaaaaatcttgatta A/T actttggtatattttaaaaa   3771               ABCA8   18   (intron 2 819)   gcaatgccttggaactatct C/T ttaaaacacattgactttca   3772               ABCA8   19   (intron 3 915)   ttgtgttcgatagatcagta G/A ggtgactagttaacaatgat   3773               ABCA8   20   (intron 3 1539)   aaagggaaatctgtggtgat C/T gccctgtcattcattcatag   3774               ABCA8   21   (intron 3 2341)   ttcctttctttgtcaacttc C/T gtccaaattccactcaagct   3775               ABCA8   22   (intron 3 2882)   tattctatattctgtactct A/G ttaatattctataataataa   3776               ABCA8   23   (intron 3 3314)   atttaaatatctatctctct A/G tatttaccatttcaaattta   3777               ABCA8   24   (intron 4 89)   gaggttagtatgccaaacta G/A agcatcactatctgtcataa   3778               ABCA8   25   (intron 4 3264)   ttccattggcctattatgcc C/T gtgttatatccagtgttaga   3779               ABCA8   26   (intron 4 3403)   aagagaccaacaaaattctt C/G atcagcagaaaagcacagga   3780               ABCA8   27   (intron 5 389)   gcttactgaatatataaatt G/C agaaaagccatgccaagcaa   3781               ABCA8   28   (intron 5 479)   tgagagtggtgagtaactca A/G aatgcctggactcc g/a aggtc   3782               ABCA8   29   (intron 5 494)   actca a/g aatgcctggactcc G/A aggtcccagcaggtcaatga   3783               ABCA8   30   (coding region 792   atgggtcttcgggattcagc G/A ttctggtgagtcaaacgcag   3784                       (Ala 264 Ala))               ABCA8   31   (intron 6 200)   cctcccaagtagctgggact G/A caggtgccg a/g ccaccatgcc   3785               ABCA8   32   (intron 6 210)   agctgggact g/a caggtgccg A/G ccaccatgcctggataattt   3786               ABCA8   33   (intron 6 1751)   gtgagttattattgtgttgg C/T tttgcagctgttttgttttt   3787               ABCA8   34   (intron 6 1808)   atttcattatagttttcaaa G/T aatattgtaaaacaaaagaa   3788               ABCA8   35   (intron 6 2412)   tattcctaattctaaagaat T/C ctgcccaaaacttttacctt   3789               ABCA8   36   (intron 6 2506)   tggatgaataagtgaatgaa G/A agttatcttaga a/g tccattt   3790               ABCA8   37   (intron 6 2519)   gaatgaa g/a agttatcttaga A/G tccatttcaggtcttccttt   3791               ABCA8   38   (intron 7 28)   agtgaattaaatatctttcc A/G tccacctatagcctaaaaat   3792               ABCA8   39   (coding region 991   taaagaaatctttcctcacc G/A gcctggtcgtgttcctcctc   3793                       (Gly 331 Ser))               ABCA8   40   (intron 8 74)   tggaatccataggctgtaat C/T atttacaaactcagcattgt   3794               ABCA8   41   (intron 9 1417)   acacatacttaaatatattt T/C ctctgttctacttttgtttt   3795               ABCA8   42   (intron 9 2504)   agaggaaaattatggtttgg G/A aatgaaataaagcagaaata   3796               ABCA8   43   (intron 10 2013)   tggccaaagatctttccaac C/T tgtgccagtggttcacagga   3797               ABCA8   44   (intron 10 2378)   ctgaagaaaattgtcacttt G/A aagtatcttttctttttttc   3798               ABCA8   45   (intron 11 −697)   aaaaaaaaaaaaaaagagag A/T gagaaagaaaatatttgtta   3799               ABCA8   46   (intron 11 −528)   tataaaagttagaaaaaaat G/T a a/g tatgttttagaaatagat   3800               ABCA8   47   (intron 11 −526)   taaaagttagaaaaaaat g/t a A/G tatgttttagaaatagatgt   3801               ABCA8   48   (intron 11 −342)   ctcaaaggagttttagccat G/A taataacttactattaatct   3802               ABCA8   49   (coding region 1632   ggttcagtcaccatctataa C/T aataagctttcagaaatggc   3803               (Asn 544 Asn))               ABCA8   50   (intron 14 252)   cttattgcaaaataagtgaa G/A ttgagtttctaagagatcaa   3804               ABCA8   51   (intron 15 130)   ttttgtttttgagacggagt A/C tcgatcatctcggctcactg   3805               ABCA8   52   (intron 16 534)   acatatacattcattcaaat A/G cacattttatggtgacaaca   3806               ABCA8   53   (intron 16 588)   gaatcatcaggaaagtgtta C/T gcaaattctgattagtactt   3807               ABCA8   54   (intron 16 645)   atttaaagaaaatttgtaga C/T gttttaggtggaatgaagaa   3808               ABCA8   55   (intron 17 431)   tgtcaggtttttcttttttt T/A ttctttatgttagaaattgg   3809               ABCA8   56   (intron 17 1390)   gctgtaaactcgttttgtga C/A ttaggtaccccatgattcta   3810               ABCA8   57   (intron 17 2452)   cacgttatacctatagtaac G/A cggaaga g/c tctaatcatgag   3811               ABCA8   58   (intron 17 2460)   acctatagtaac g/a cggaaga G/C tctaatcatgagat g/c   3812                   cttag               ABCA8   59   (intron 17 2475)   gaaga g/c tctaatcatgagat a/C cttagcagagccaatctcta   3813               ABCA8   60   (intron 18 152)   gaagaagcacaggagagagg C/T agaatcttgacatccaaagg   3814               ABCA8   61   (intron 19 7477)   aaaatctattttgaaagaca C/T ttggaactaaaaaaatcttt   3815               ABCA8   62   (intron 21 196)   ttgtttaaagtaaaataaaa T/C g/c aacaaaacatttttcaaag   3816               ABCA8   63   (intron 21 197)   tgtttaaagtaaaataaaa T/C G/C aacaaaacatttttcaaaga   3817               ABCA8   64   (intron 21 287)   actgtggtggggtgggggga G/T gggggagggatagcattggg   3818               ABCA8   65   (intron 21 403)   cctgcacaatgtgcacatgt A/G ccctaaaacctaaagtataa   3819               ABCA8   66   (intron 21 1207)   cccagcc c/a gagtgcagtggc A/G ggatcatagctcactgtaac   3820               ABCA8   67   (intron 24 692)   ctcctagatatagacaaaaa A/C caaggtgcacaatggccatg   3821               ABCA8   68   (intron 25 212)   CCtgattaatatatgggaag G/A aagggtaaggggtagtggga   3822               ABCA8   69   (intron 26 67)   aataattttcagtcctgtac A/G cactgtgaaacttcttttat   3823               ABCA8   70   (intron 27 515)   gtgtCtcccaaaccacatca G/T tttcatcttttgctattaca   3824               ABCA8   71   (intron 27 661)   cctggatattatcagactta G/A aatggagaggaaaagtcaat   3825               ABCA8   72   (intron 30 1967)   caaaaattagatacaagggg G/C tgaaattgactttaattgta   3626               ABCA8   73   (intron 31 112)   ctctaaatgctgacccaggt C/G acactgggtagatttacaac   3827               ABCA8   74   (intron 33 401)   cttctcactaggttgtgaga C/T gctgttgttaaattttatgt   3828               ABCA8   75   (intron 35 484)   taacagcatcatcctg a/t tgt A/G tttattttcatagacagaaa   3829               ABCA8   76   (intron 36 258)   tttgcatgtatgttggtaaa A/G cctaagtcaaaactcagtta   3830               ABCA8   77   (intron 36 375)   atattattttactgtcttag C/G ctgtatattaagaaactgac   3831               ABCA8   78   (3′flanking region 674)   tcggtggacatagaaagccc G/A gaagcttcttgatgtgctta   3832               ABCA8   79   (intron 1 56-57)   ttttgcttttgtgtgtgagt TT/Δ gtttcagaggttttgtcttt   3833               ABCA8   80   (intron 1 1180-1191)   taaagtataataataaaacg (A) 9-11 gaaattcctcctgtacagag   3834               ABCA8   81   (intron 1 9877-9885)   ctcctgcaaataggtatgac (A) 8-12 tcaactgagtacaaaaagct   3835               ABCA8   82   (intron 1 12588)   gtactagagtgcactccttt T/Δ gcaacaggacggccaaagga   3836               ABCA8   83   (intron 6 78)   tcaatgcatctttttttttt T/Δ gaaatggagtctcgctctgt   3837               ABCA8   84   (intron 9 265)   gtatatggtatttttttttt T/Δ agacctcttagaaagctagt   3838               ABCA8   85   (intron 9 2666)   attttttttaaaggratcca A/Δ tagtcattctcaatttcttc   3839               ABCA8   86   (intron 11 −447)   ggatattctgggtttttttt T/Δ ctacaaactcaagttttttg   3840               ABCA8   87   (intron 15 8407)   gtggaataatttttgactta T/Δ gcatttggtcaaataaaatt   3841               ABCA8   88   (intron 15 9458-9470)         3842                                     ABCA8   89   (intron 16 54-56)   tgaataatagtcatcatcat CAT/Δ aattattatcattacaacta   3843               ABCA8   90   (intron 17 433)   tcaggtttttctttttct t/a t T/Δ ctttatgttagaaattggac   3844               ABCA8   91   (intron 24 1462)   actccatctcaaaaaaaaaa A/Δ gagagaaaaaaattcrgcat   3845               ABCA8   92   (intron 33 155)   caatactttgcaaaaaaaaa A/Δ gatctttccctgatgatatt   3846               ABCA8   93   (intron 34 184)   atactgaatggttttttttt T/Δ ctcctttctcatatgacctc   3847               ABCA8   94   (3′flanking region 1240)   atccttggaccaaaaaaaaa A/Δ ctttatctgtgctttgcgtg   3848               ABCB1   1   5′flanking − 196   gctttggagccatagtcatg T/C actcaaaatttattttatct   3849               ABCB1   2   5′flanking − 16   tactctttacctgtgaagag T/C agaacatgaagaaatctact   3850               ABCB1   3   intron 1 + 71660   cttgctggaggaagggtgct A/C gaaaatataccaaatccaag   3851               ABCB1   4   intron 1 + 80091   gaaataatattcaagttctg A/C aataatatcatgacctatag   3852               ABCB1   5   intron 1 + 103126   gatatgaatcagaattcatc T/C gtgtctcaagaaaaggtcat   3853               ABCB1   6   intron 1 + 103148   tgtctcaagaaaaggtcatg C/T gataaattaagttctgctag   3854               ABCB1   7   intron 1 + 108428   aattaatttatcatcatctg A/G tcaccatttcacacaactca   3855               ABCB1   8   intron 1 + 112042   cataagttgaaatgtcccca A/C tgattcagctgatgcgcgtt   3856               ABCB1   9   intron 2 + 491   gctctctggcttcgacgggg G/Δ actagaggttagtctcacct   3857               ABCB1   10   intron 4 + 36   attaactattcaaaatactt C/T ggaaatttgacatctcctta   3858               ABCB1   11   intron 5 + 1596   ttagctctcttactgcttca T/C agtggaagaatcaaatactt   3859               ABCB1   12   intron 8 + 1759   aaacactctgaatattaaac C/T gctcctggaaccacagctca   3860               ABCB1   13   intron 14 + 24   agttgtccttgccctttgcc T/C ttctagaggtgcaaaaaata   3861               ABCB1   14   intron 14 + 81   tgcaggaagttaggaaacta C/T tataaatcggaagaagggaa   3862               ABCB1   15   intron 15 + 38   caaaccaacctgatttataa A/C cataagaacattctactact   3863               ABCB1   16   intron 17 + 73   gtttggtgggctagggctac A/G gtaggagtgggaacaagaga   3864               ABCB1   17   intron 18 + 564   caacagtaaagttacaatct C/A aaaggaatgctctctgttta   3865               ABCB1   18   intron 18 + 2062   tttccctgaggaatggttat C/T ctctgtgttccttgagtcca   3866               ABCB1   19   intron 18 + 2293   ccacatcaggttttccccag A/G caccttgggacagtttgaaa   3867               ABCB1   20   intron 20 + 557   aaaaccctaaccattgacac G/A tgtgaatgttttcctgggga   3868               ABCB1   21   intron 21 + 24   cgtgcctcctttctactggt G/A tttgtcttaattggccattt   3869               ABCB1   22   intron 21 + 2725   ctgacctgtttttggctgac A/C ggttttagttcctcccctca   3870               ABCB1   23   intron 21 + 4725   tcttggtattaaaagatcca A/G agagataggaatatgtaatt   3871               ABCB1   24   intron 22 + 8507   tgcacttaggaaaaaaacaa T/C atggaaatgtgtaaaatata   3872               ABCB1   25   intron 22 + 8537   tgtaaaatatactttttttt T/A aaaaaaaaggacacatttat   3873               ABCB1   26   intron 22 + 8565   aggacacatttattcagcat T/C atgatcagactattacattt   3874               ABCB1   27   intron 22 + 8952   caccttggtttcatggtttg G/A caaagtactggcctgtacca   3875               ABCB1   28   intron 22 + 9520   caccaacaaatatctttttc A/G cagttgggtgggcatctggt   3876               ABCB1   29   intron 22 + 9836   agactctgacttagacatga C/T ggcaggggaaagagagactt   3877               ABCB1   30   intron 24 + 377   taaaatacagatgtgttgta C/A taagttctgcaagcctttgg   3878               ABCB1   31   intron 24 + 1493   ggggaggtgtccaggcacga A/Δ catggagagctggacttgat   3879               ABCB1   32   intron 24 + 1495   ggaggtgtccaggcacgaac A/T tggagagctggacttgatac   3880               ABCB1   33   intron 25 + 342   tgcagccttgatcttctggg C/T tcaagcgatcctcctgcctc   3881               ABCB1   34   intron 26 + 134   cttggataaagtctgagagc C/C taaatatggtctccaagtgg   3882               ABCB1   35   intron 26 + 1272   gtccttcaattttgtggtga A/C cttaaaaacaggactctaaa   3883               ABCB1   36   intron 26 + 1394   tattaagtggtgtgttaaag A/C ttgtgctataatgaattgta   3884               ABCB1   37   intron 26 + (1987-1988)   aagggctggaagagtgaaag (AAAG) gaggctatttgctcccagac   3885               ABCB1   37   intron 26 + (1987-1988)   aagggctggaagagtgaaag     gaggctatttgctcccagac   3886               ABCB1   38   intron 27 + 59   gcagcctctctggcctatag G/T ttgatttataaggggctggt   3887               ABCB1   39   intron 27 + 80   ttgatttataaggggctggt T/C tcccagaagtgaagagaaat   3888               ABCB4   1   exon 3 + 3   aacacccttattttatagat C/T Caatgactgagtcaagaatt   3889               ABCB4   2   intron 3 + 45   cagcatctctacttatacca T/C gctctgctttaaggttctct   3890               ABCB4   3   intron 3 + 498   actcaaataggtggtaggag C/T agagacaattcaatacagac   3891               ABCB4   4   intron 3 + 515   gagcagagacaattcaatac A/G gacagaagtcttagatgaga   3892               ABCB4   5   intron 6 + 1030   tagttttgccatgtagaatt G/C aaaaagtgatagatggtgtt   3893               ABCB4   6   intron 6 + 1437   attaagcctgcttcaatcaa G/A ttagttatattcttgttcta   3894               ABCB4   7   intron 6 + 2449   ttgacttagcgacactgtta G/A catacttatctttcctgtgt   3895               ABCB4   8   intron 7 + 451   ccttgctgcacctgtgctgt A/C taagtttggcttattatagt   3896               ABCB4   9   intron 7 + 530   agtagagacaggctggcgat C/G acaccggacagagctaactg   3897               ABCB4   10   intron 7 − 152   aacagaatcatgaaattaag T/C tgttaatgatttgaaggcct   3898               ABCB4   11   exon 8 + 40   aggataaattgtttatgtcg C/T ctgggtaccatcatggccat   3899               ABCB4   12   intron 8 + 130   ctggttgactccagatatca T/C agaaggagttgtaaaattct   3900               ABCB4   13   intron 8 + 248   aatacacaggaagcttctaa A/G taaagtaaggaagtcactct   3901               ABCB4   14   intron 8 + 531   ctaaagagtgaatggattca A/G tacgtcccttggaactcacc   3902               ABCB4   15   intron 8 + 4240   ctgaggttccagcttatctc T/A tagagatgtttacttagrct   3903               ABCB4   16   intron 8 + 4343   tgttagaagaaaaaaaggtt C/T atattacaagagggtctgac   3904               ABCB4   17   intron 8 + 4677   cccaagatatcttcataact G/C tccatagtgcctagggtgcc   3905               ABCB4   18   intron 9 + 113   tttacccagattcacctatt A/G ttatcatttttgctcccaaa   3906               ABCB4   19   intron 9 + 982   tgtcctatacagtttttgtt T/A taagtttagtaaattgatta   3907               ABCB4   20   intron 11 + 241   gcactttgggaggccaaggt A/G cataaatcacttgaggtcag   3908               ABCB4   21   intron 11 + 457   tccagcttgggtgacagagt A/G agacttcatctcaaaaaaaa   3909               ABCB4   22   intron 11 + 1337   tactcttggggagcctatca C/G cagggtgggtcagatatagc   3910               ABCB4   23   exon 12 + 3   tgtttcttttctgtccagat A/T ctctcggcatttagtgacaa   3911               ABCB4   24   intron 12 + 1288   cagaccacactaaccctcag T/C tggacctcaggatgtcagtg   3912               ABCB4   25   intron 13 + 206   tgtggataagaaaatagcat G/A tggttagaccatttgtgaaa   3913               ABCB4   26   intron 13 + 988   cagtcggtttggaagcttgc T/C accctttcttcacttcctca   3914               ABCB4   27   intron 13 + (1413-1414)   tttatcttcacttatgtttt (T) ctcagttaagttatgctaat   3915               ABCB4   27   intron 13 + (1413-1414)   tttatcttcacttatgtttt     ctcagttaagttatgctaat   3916               ABCB4   28   intron 13 + 1931   cttgcaaatgttgctcttcc A/G caaaaaaaaaaggaaaggat   3917               ABCB4   29   intron 22 + 767   acagtgggctgatgcataga A/Δ cctgtagcaatccaccagca   3918               ABCB4   30   intron 23 + 784   agtatctcctaaactcttgc T/C atgcaggaaaaattatttta   3919               ABCB4   31   intron 25 + 158   gaaatattttactgtattaa T/C gtctagaacttaaatataag   3920               ABCB4   32   intron 25 + 2920   ctgagtcttcctatacatct T/A ttccattcctcggatgctgt   3921               ABCB4   33   intron 29 + 411   cttctcttaccttgaattct A/C ggctctcgaactttgacttt   3922               ABCB4   34   3′flanking + 458   agaaaatgaaattgccctac T/C gagctaactctgaaagcaca   3923               ABCB7   1   intron 1 + 220   acggggcaggaggttctggg C/A agaggacacctggagcgctg   3924               ABCB7   2   intron 1 + 480   agttaactcccttgctgaca G/A gcgtgcttcttgataggcca   3925               ABCB7   3   intron 1 + (512-513)   gataggccaaaaccgtaact AT/Δ ctttccaaaacatagaccgc   3926               ABCB7   4   intron 1 + 1690   agttctccaataaggcagat G/A aagttaagataaaatttgta   3927               ABCB7   5   intron 1 + 5309   aattaatatcatttattgct G/A tattgttgtcagtgttatct   3928               ABCB7   6   intron 1 − 11274   tgcttcttttcaagccagcc A/G gctttaaaaaaaagttagct   3929               A5C87   7   intron 1 − 11085   caggttttcagggctcatgt A/G gacctgaagaaaaatgagag   3930               ABCB7   8   intron 1 − 10037   attctactttctcaacttct T/C ttattacattatctcatcat   3931               ABCB7   9   intron 1 − 21   ccactctgaaacttccccct G/A ctttttttccttgtcagcag   3932               ABCB7   10   intron 3 + (135-136)   ttctctaatgaaaaaaaaaa (A) catattaattgaccatagtt   3933               ADCB7   10   intron 3 + (135-136)   ttctctaatgaaaaaaaaaa     catattaattgaccatagtt   3934               ABCB7   11   intron 3 + 333   aaaacaatttgtgtgtgtgc G/A tgtgcttcaaggttaatgtt   3935               ABCB7   12   intron 12 + 524   taaccactctgccctcagta C/T gaaacacagtgccgaaccca   3936               ABCB7   13   intron 13 + 1543   atcctgtgaggtggggaagc G/A tatggctagcataaatataa   3937               ABCB7   14   intron 13 + 2400   tgttaccttactgcctcatt C/G tcattcttcccacctgctat   3938               ABCB7   15   intron 15 + 2201   ctccttcctaaccttagcaa G/C agtctggagatttacttatc   3939               ABCB8   1   5′flanking − 2272   ggcttaggcctaagggctga T/C gttggggccagtacccctga   3940               ABCB8   2   5′flanking − 2070   agctatgaaaacaagaccct G/A tccttctagaggtagcaaaa   3941               ABCB8   3   intron 1 + 25   aaacggaaaaacctactcag A/C gcgggccattgaccgcccgg   3942               ABCB8   4   exon 2 + 308   tgctggtcctgggggtagcc G/A tcgtggtgaggctttcccca   3943               ABCB8   5   intron 2 + 334   cccccacttaaaacatttgt C/G ccctctgtctccccattcca   3944               ABCB8   6   intron 4 + 12   cctgctccggtactgccagc C/T gcagggtgcagagttggggt   3945               ABCB8   7   intron 5 + 547   agttcatagcattctcgctc G/A gccccctcaggcctgctgct   3946               ABCB8   8   exon 7 + 57   ggcaatgtgcggactgtgcg A/T gccttcgccatggagcaacg   3947               ABCB8   9   intron 9 + 1231   tttccgcagctgcatggaca C/T cctcgcgtgccccgtttctg   3948               ABCB8   10   intron 9 + 2164   cctcttggaggtccttctag C/T gctgcctatgtggagattct   3949               ABCB8   11   intron 9 + 2645   ttcctgcctggtgcctcccc C/Δ ggctgcctttagcaagtgct   3950               ABCB8   12   intron 9 + 2646   tcctgcctggtgcctccccc G/A gctgcctttagcaagtgctg   3951               ABCB8   13   intron 9 + 3229   cagggccgagcagggagtcc G/A tgggtcagctgggctccctt   3952               ABCB8   14   intron 12 + (113-114)   tcctccactgccacaagggg (GG) ccttctttcctgggacaatc   3953               ABCB8   14   intron 12 + (113-114)   tcctccactgccacaagggg     ccttctttcctgggacaatc   3954               ABCB8   15   intron 13 + 128   tgctctcgggagaccctggc C/T gtcttcacatgtcctcagct   3955               ABCB8   16   intron 13 + 305   atccaggtctagagaagcct A/G tagtggaggtgctgagctgc   3956               ABCB8   17   intron 14 + 135   acagttgtgtcagggaagac C/G agaaccacagccaaagggga   3957               ABCB8   18   intron 14 + 159   accacagccaaaggggacag A/T gtcgttgtgtggggacaggg   3958               ABCB8   19   intron 15 + 747   gttggagccttgggctctgt A/G agggggacagagggaatcat   3959               ABCB8   20   3′flanking + 333   cctatcccctggctcacccc G/A ggacccacagtccccatctt   3960               ABCB8   21   3′flanking + 1168   ccctctttcaggggtgtgat C/A cagtgcattgatggagcagc   3961               ABCB8   22   3′flanking + (1719-1721)   tagaccgcaggagccgcgcc GTC/Δ ttcctaacctcgcctcggcc   3962               ABCB9   1   intron 1 + 69   agggtgccaggccaggcacg G/C gttggggggcgtctgggcac   3963               ABCB9   2   intron 1 + 8873   tgggcccagcacgtggggcc T/C ggaactacctcaaaggcttc   3964               ABCB9   3   intron 1 + 8940   accagctcagcctgcccagc G/A tgcacacggcaccaagctgg   3965               ABCB9   4   intron 1 + 11410   agatccaagggatccagagg T/C tggaatgtgaccctccgtgc   3966               ABCB9   5   intron 1 + 12863   tggaagccagatgcccacaa G/A gctctgtgacttcacttcca   3967               ABCB9   6   intron 1 + 19731   gccaagtgtcaagatcgagc G/A aggggagggcctgacgaggg   3968               ABCB9   7   intron 1 + 29649   cagaatccagatgcccgtaa T/C gttgttaagaagcctgcaca   3969               ABCB9   8   intron 1 + 31793   ggccaggcggggaggggtac C/T ggccagaccggtgggcaaaa   3970               ABCB9   9   intron 1 + 37537   agagtcacagggttggggtg C/A ccccgggaaggtggcatcta   3971               ABCB9   10   intron 1 + 38293   taccagccctgtgctttcag C/A gaccatgtgacctgtcaact   3972               ABCB9   11   intron 1 + 44661   cccgaggtgcctggcttcac A/C gcaggattgccgtcctgcag   3973               ABCB9   12   intron 1 + 49576   aaagtggccccgtggcttgt C/T ccctgaagccctaaagcacc   3974               ABCB9   13   intron 1 + 64669   ccacagacaagccgggtagc C/A cacctcgcagctcaacacac   3975               ABCB9   14   exon 2 + 448   cctggttttgggccctgttc G/A tgtggacgtacatttcactc   3976               ABCB9   15   intron 7 + 3364   ggtaccaggagtcgggtatc A/G gtgggacaggaacgcgtgtc   3977               ABCB9   16   intron 11 + 113   gggccccaggagctctccca C/T actatcagcctcctgggctg   3978               ABCB9   17   exon 12 + 370   cccaggcctgcagcactgaa A/C gacgacctgccatgtcccat   3979               ABCB10   1   5′flanking − 424   tcgcgtctgcgcgctccgcc C/T ggtctgccggcgtgagaaag   3980               ABCB10   2   exon 1 + 491   acaaggggcggttgcgcccc G/T cagcggccggactcccggag   3981               ABCB10   3   intron 1 + 37   ccacttccctccgccgggcc T/C ctccttctccacacgcgggg   3982               ABCB10   4   intron 1 + 217   actcgtttgcagattttaca C/T ttgttttcttgttgacacac   3983               ABCB10   5   intron 1 + 405   gcgtttatactttttttttt T/Δ aaccaaaaacacattatttg   3984               ABCB10   6   exon 3 + 185   agggccggggcccaggcttc C/T gtaggcatcagtatgatggt   3985               ABCB10   7   intron 6 + 1269   caaattcacaactgtgcctt C/G cacagaatgggttggaaaac   3986               ABCB10   8   intron 9 + 632   ccccactccacttgggtgag G/A gcaggtggatggtgatgggt   3987               ABCB10   9   intron 10 + 2373   tacctcagggcactcagaca C/C cctcaccaatcagaggctca   3988               ABCB10   10   intron 11 + 108   tccttttcctgttttttgtt T/G ttttttttttcttggagtgg   3989               ABCB10   11   intron 11 + 2379   cattggtttttagtgtattc T/A gtgttgtgcatccatcatca   3990               ABCB11   1   5′flanking − (2596-2595)   tgtggtttagagctttctct (TT) gagacatttttgctaaggtt   3991               ABCB11   1   5′flanking − (2596-2595)   tgtggtttagagctttctct     gagacatttttgctaaggtt   3992               ABCB11   2   5′flanking − 1746   agctgaagtgaattaagcac C/A atcaactcagtactcacact   3993               ABCB11   3   5′flanking − (326-314)   agggggaaagtttaaaggta (T) 9-12 gtcttgttatgtttttaagt   3994               ABCB11   4   5′flanking − 135   agagggtttcccaagcacac T/C ctgtgtttggggttattgct   3995               ABCB11   5   intron 1 + 511   aaatatagatgcaaaaaaaa A/Δ tgagctgtggatgcatgttt   3996               ABCB11   6   intron 1 + 581   aatttcagtttttaggtcac C/T caagccagtgggagtcacat   3997               ABCB11   7   intron 1 + (1938-1951)   gaaagaaaagaaaactgtag   3998               ABCB11   8   intron 1 + 4517   ggtttcccaacatctcatct C/A ataaaaaaaataatttgcca   3999               ABCB11   9   intron 1 + 5651   aaagagaataggttagtgga T/C tagtattcctgtgcttaatg   4000               ABCB11   10   intron 1 + (12200-12201)   aagagatggtctctagcccc CT/Δ gtttgatttggggcacttac   4001               ABCB11   11   intron 1 + 13023   gtttggctactttgattaaa C/A aagaaagaagagataataat   4002               ABCB11   12   intron 2 + 739   cctgcatctattctgaccta C/T actggggaaaacagtatgtg   4003               ABCB11   13   intron 2 + (921-922)   tattttgtagttcaaaaagt   4004                   (CACATCTTCTTCACCTAATTTACAAATCT)                   tgctgtccatttgatattca               ABCB11   13   intron 2 + (921-922)   tattttgtagttcaaaaagt   4005                   tgctgtccatttgatattca               ABCB11   14   intron 3 + 644   agccacacgtttcttattgc C/A tgggaagtttaaaaaatggg   4006               ABCB11   15   intron 3 + 2231   agtgaacctgagattgagct A/C tactgaaatctctagaagag   4007               ABCB11   16   intron 3 + 2406   aaagggtggtctttaaatcc T/C tatgtttttctcatcaggtt   4008               ABCB11   17   exon 4 + 10   tttctcatcaggttacaaga T/C gagaagaaaggtgatggcgt   4009               ABCB11   18   intron 4 + 434   acaatttatagtatttctca A/C tgccccacacagtttatcta   4010               ABCB11   19   intron 4 + 518   gtagatgagtagctaaaaac C/T aaagtcagctcctgaaataa   4011               ABCB11   20   exon 5 + 120   ggcacaatgacagatgtttt T/C attgactacgacgttgagtt   4012               ABCB11   21   intron 5 + 320   gggaggtgacccatgaattt T/C acttgagtatcatctccaag   4013               ABCB11   22   intron 5 + 16076   agaagaggtaaoagtaagcc T/C cctgatttacagcacacatc   4014               ABCB11   23   intron 6 + 303   atttgcaggtgtgtttgtag C/C gggcagttgagtagcttgaa   4015               ABCB11   24   intron 7 + 1141   aaaggattcagcaggcatga A/C gaaagaaaagctttgcaaga   4016               ABCB11   25   intron 8 + 2463   ccattggctaatagcaatga A/C ctatgacatggtctaactta   4017               ABCB11   26   intron 8 + 2677   tcaatgatgttacagtgaga A/C tctaatattgtattaaaccc   4018               ABCB11   27   intron 8 + 2699   ctaatattgtattaaaccca T/A gccacatgttaaatgaatct   4019               ABCB11   28   exon 9 + 24   gtgtccaagtttacggacta T/C gagctgaaggcctatgccaa   4020               ABCB11   29   intron 9 + 108   caccttggtctgtggcctcc A/C gaggaagtacttgttcaaga   4021               ABCB11   30   intron 10 + 2475   taatcattccaaaccacgga C/A tttatttcattaagaacatg   4022               ABCB11   31   intron 10 + 2478   tcattccaaaccacggactt T/A atttcattaagaacatgata   4023               ABCB11   32   intron 10 + 2711   tttacagattggaaaagcca C/T tgaagtattgcaggtccaga   4024               ABCB11   33   intron 10 + 3539   agtgactgtaattagtatca C/G ttgtgcacagagaaaaaatg   4025               ABCB11   34   intron 10 + 3623   tgcagaaggttgttctttca T/C gaccttcctgagtttcagaa   4026               ABCB11   35   intron 10 + 3661   gaattcattaataaaaataa A/T cacataatggagcgtgacat   4027               ABCB11   36   intron 10 + 5100   gggccactctttggcttggc A/G atagactgtggccaatgaaa   4028               ABCB11   37   intron 10 + 5292   actatttggtaggaacatct G/A ggcatgatcaggtagccttc   4029               ABCB11   38   intron 10 + 5912   gagtaatattcagtaaaaaa A/Δ taaagtggtattttaaatca   4030               ABCB11   39   intron 12 + 116   tgtttccagtaatagggaat G/A gaggtgtctttctctgaaag   4031               ABCB11   40   intron 12 + 326   gataaatgacaaggcaatta G/C aacaatcaggaagcacaggt   4032               ABCB11   41   intron 12 + 335   caaggcaattacaacaatca A/G gaagcacaggttcttcccaa   4033               ABCB11   42   intron 12 + 2572   cctcatccttgccaatgttt C/T cttttactggtttttgatgg   4034               ABCB11   43   exon 13 + 23   tctaaatgacctcaacatgg T/C cattaaaccaggggaaatga   4035               ABCB11   44   intron 13 + 70   atggcagtatattgatcaaa C/T agaaaggtgtagcatacatt   4036               ABCB11   45   intron 13 + (1578-1579)   ttattggcctctattttttc (C) tgcccattggtcaagtatga   4037               ABCB11   45   intron 13 + (1578-1579)   ttattggcctctattttttc     tgcccattggtcaagtatga   4038               ABCB11   46   intron 14 + 32   catacattcctgggagaaac C/T aagaggtcatagaaggaaaa   4039               ABCB11   47   intron 14 + 80   cacaattatacacatttctt C/T tcgtatgattcccaagtcat   4040               ABCB11   48   intron 14 + 439   tattgtgtcaaaaacaattc A/G ttgtatatctccattctaag   4041               ABCB11   49   intron 14 + (1262-1263)   cagcctttycattatatttt (T) gctgtgttgtctaacaggag   4042               ABCB11   49   intron 14 + (1262-1263)   cagcctttgcattatatttt     gctgtgttgtctaacaggag   4043               ABCB11   50   intron 14 + 1283   gctgtgttgtctaacaggag A/C aaagagacacggatttgctc   4044               ABCB11   51   intron 14 + 1339   tgagatagatatttaggacc G/A tgaccaatttttattttggt   4045               ABCB11   52   intron 14 + 1359   gtgaccaatttttattttgg T/C tgaaaaatcttatttgaagt   4046               ABCB11   53   intron 14 + 1480   tattgattagacaataaccc G/A tctggggaagggatatttct   4047               ABCB11   54   intron 15 + 370   ccttttctaatgtctgcaca G/A cctatttaagaatattccca   4048               ABCB11   55   intron 16 + (550-559)   aaagtttagtgtttctatca (T) 9-12 gctacttctgatggacttct   4049               ABCB11   56   intron 17 + 188   tttctctccccaattcatgg T/G tttttggttagcttctcatc   4050               ABCB11   57   intron 17 + 194   tccccaattcatgggttttt T/G gttagcttctcatcttcttg   4051               ABCB11   58   intron 17 + (197-198)   caattcatgggtttttggtt (T) agcttctcatcttcttgggg   4052               ABCB11   58   intron 17 + (197-198)   caattcatgggtttttggtt     agcttctcatcttcttgggg   4053               ABCB11   59   intron 17 + (289-296)   ggggacttcttttaaaaaaa G/A (A) 4 tctgtgtttagtgttcctct   4054               ABCB11   60   intron 17 + 1070   tcagacttgggttttcctat C/T tttcttcttgagaacaagtt   4055               ABCB11   61   intron 17 + 1651   tgttaaaatatctcattgta T/C atgctgacggatttttcttg   4056               ABCB11   62   intron 17 + 2226   ccttaagtctcctcctatca T/A gcaccttgttctcaccagct   4057               ABCB11   63   intron 17 + 2979   ctctctcttcctttctcagc T/A ctactatttcactgttggct   4058               ABCB11   64   intron 17 + 3288   aatccccatatcctacctta T/G ccatctcatccatgaatctt   4059               ABCB11   65   intron 17 + 3289   atccccatatcctaccttag C/T catctcatccatgaatcttg   4060               ABCB11   66   intron 18 + 97   aatatgagttttctaggtat A/G tatctagcagtgtttcaagt   4061               ABCB11   67   intron 18 + 98   atatgagttttctaggtata T/C atctagcagtgtttcaagtc   4062               ABCB11   68   intron 18 + 892   ctctgaaagttagtgataca C/T cttatttgtgtttgaatcaa   4063               ABCB11   69   intron 18 + 2681   atgtatgagatcaagtcagg A/G tcaaatattagacacccata   4064               ABCB11   70   intron 18 + 3780   ggaccatcctgtggggcaat C/G gttccagaaaatgctggtat   4065               ABCB11   71   intron 18 + 5741   ctcaccggtataaatacaac C/T gtagcaaaggttttcttttt   4066               ABCB11   72   intron 18 + (5882-5883)   tgcgtattccctcagttcag (C) tttttattcaagccacagca   4067               ABCB11   72   intron 18 + (5882-5883)   tgcgtattccctcagttcag     tttttattcaagccacagca   4068               ABCB11   73   intron 19 + 10022   tggctaagttaaaaaaaaaa A/Δ gagattcaactataattgct   4069               ABCB11   74   intron 21 + 322   caagattcaatactgccccc C/Δ agggggtgggtgaacagggc   4070               ABCB11   75   intron 22 + 257   ctgttcaatttcctctcgca T/C agtgattcattccacattcc   4071               ABCB11   76   intron 22 + 552   taattaatatcttgtccttg G/C ggggtaaatgagggatggta   4072               ABCB11   77   intron 22 + 569   ttggggggtaaatgagggat G/A gtagcataaacacttctcaa   4073               ABCB11   78   3′flanking + 243   aaacaccacagaatgacata G/A aactaaaggcggcaggaatc   4074               ABCC1   1   5′flanking − 1661   cattcacccttgggggaccc A/G ggccaataaaaaaatcacag   4075               ABCC1   2   intron 2 + 635   gatgtgccctacctgaccct T/C ggctcggggcagacttgggg   4076               ABCC1   3   intron 2 + 4769   gggcaggagtggactcaggg G/Δ ttcctggtccaaatgggttc   4077               ABCC1   4   intron 2 + 10069   tatggaggttttctcttcct T/C tctgtgagttttctctctga   4078               ABCC1   5   intron 2 + (11965-11984)   aaacaagccacgcatttgcc   4079               ABCC1   6   intron 4 + 4302   cacctgtaatcccagcacct T/G gggaggccaaggcaagtgga   4080               ABCC1   7   intron 4 + 4394   gtctttactaaaaatacaaa A/C attagctaggcatggtggcg   4081               ABCC1   8   intron 4 + 4524   ccactgcgctccagcctggg T/C gacaagagtgaaactctgtc   4082               ABCC1   9   intron 6 + 9045   aggtccttaaactaccctgc G/A ctccaagaatcagtgcctgg   4083               ABCC1   10   intron 7 + (3059-3071)   gccatttttcctgcatgacc   4084               ABCC1   11   intron 8 + (886-889)   ttctatgtaacagtaagaaa GAAA/Δ agcagctgccaattaaacaa   4085               ABCC1   12   intron 11 + 198   tgaattgtcaggttgatgtt C/A tccttggtggcatggcgttt   4086               ABCC1   13   intron 11 + 784   tgtggattgatccaggagat C/G aagcaatgttgtcagtactc   4087               ABCC1   14   intron 12 + 122   agccttgcctgccagttgga C/G tcacttggggagccttaaca   4088               ABCC1   15   intron 12 + (3138-3148)   tcaatataaaaaacatttac   4089               ABCC1   16   intron 12 + 3227   tggtgatgttgagtgatggg C/T tgatcccagggtcgccccag   4090               ABCC1   17   intron 13 + 2060   tgctcattacaactattcct T/C cttggtcaggttggcaaatt   4091               ABCC1   18   intron 13 + (2061-2062)   ctcattacaactattccttc (C) ttggtcaggttggcaaatta   4092               ABCC1   18   intron 13 + (2061-2062)   ctcattacaactattccttc     ttggtcaggttggcaaatta   4093               ABCC1   19   intron 13 + 11776   gccacctggggagggcccaa G/A cgcgtctccagggcctgtca   4094               ABCC1   20   intron 14 + 179   aaagaaagaaaacacatttg A/T cttcttgacagagaactcgc   4095               ABCC1   21   intron 16 + 219   ctagcacagagggttccctg G/T gattgtaagttacagcagcc   4096               ABCC1   22   intrOn 16 + 310   ggaagttctactttcaggtg C/T ggtgtgatccagggactctg   4097               ABCC1   23   intron 16 + 890   ctctccagagaaaacaatct G/T tagaaggcctgcattgaaaa   4098               ABCC1   24   intron 17 + 1171   aaccccaggctcaaagaagc 0/A tggyaaataatgcatactcc   4099               ABCC1   25   intron 17 + 1332   cacctctttagtgtctgtgc A/G actgcacatttgtctcttgg   4100               ABCC1   26   exon 18 + 53   gattcagaatgattctctcc G/A agaaaacatcctttttggat   4101               ABCC1   27   intron 19 + (3373-3379)   ccaagctaggcagtctcaca CA/A tgtgcactcacgtggccggg   4102               ABCC1   28   intron 20 + 2730   gcgtgaggtctgtctctcta C/T ccttccgtccaggtgagcaa   4103               ABCC1   29   intron 20 + 2789   cttggccccagataggttcc G/C cacccccgcctttctttccc   4104               ABCC1   30   intron 20 + 2919   gatgcaaatgccgcccacca C/T cctggcacctcgtgcgttca   4105               ABCC1   31   intron 20 + 3024   cttacatcaaactggggcac C/T ccCCtCtctcaccacccacc   4106               ABCC1   32   intron 20 + 9718   gtggctgcgctcagtgacga A/C caggagaagtgaaggctgag   4107               ABCC1   33   intron 20 + 9733   gacgaacaggagaggtgaag G/C ctgaggcttataggagggtg   4108               ABCC1   34   intron 20 + (9895-9896)   gctggttcccagtgtcacac AT/Δ gtgtgtgaggacaggctgca   4109               ABCC1   35   intron 20 + 9952   ggtatcattcttccttcctg G/A gtgatgtggctatttgtgtt   4110               ABCC1   36   intron 20 + 11120   gcggagtgggggcagtagtc A/G tcatcatcactgagttattg   4111               ABCC1   37   intron 20 + 11147   tcactgagttattgtgaacc G/A ggaaagagatatgatctgtg   4112               ABCC1   38   intron 20 + (11629-11631)   tattttgaatatcacttctt CTT/Δ tcaatgcttgggaatcacgg   4113               ABCC1   39   intron 20 + 11864   gagctccagataccacctgc C/T ccacaaccagacagcctgtt   4114               ABCC1   40   intron 21 + 3860   tggagagtgacatggtgggg G/A tgtggtgcatatattcatat   4115               ABCC1   41   intron 22 + 878   ttaaagatcgtctattttgg G/A caagtgttaataattctcca   4116               ABCC1   42   intron 22 + (4445-4446)   gggtgcgtgcatgtgctaag   4117               ABCC1   42   intron 22 + (4445-4446)   gggtgcgtgcatgtgctaag   4118               ABCC1   43   intron 23 + 62   gttgtggctttgtctaatta T/C agaaatggatccttagagtc   4119               ABCC1   44   intron 24 + 3171   aaccatgaggctcaccatat C/T tcaaaccacgctgcacagct   4120               ABCC1   45   intron 24 + (3349-3368)   ccctgcatttaccaaatatg   4121               ABCC1   46   intron 24 + 3369   tttttttttttttttttttt T/C ccctgcatttaccaaatatg   4122               ABCC1   47   intron 24 + 3584   ccaaggatttttatttttca A/G caacaaaggaaatgatttta   4123               ABCC1   48   exon 25 + 60   gagtcggtcagccgctcccc G/A gtctattcccatttcaacga   4124               ABCC1   49   intron 27 + 4539   tcttttttactcactgcagt G/A tgaggaacaaatcacattta   4125               ABCC1   50   intron 30 + (1708-1714)   gacccaacactatctcctgg (T) 6-7 cttccggtcaagtgtcgggc   4126               ABCC1   51   exon 32 + 652   tggagaaaatcattttctcc C/T cttggcagtgtcccagggcc   4127               ABCC1   52   3′flanking + 158   ctgatgctcttccaggacac G/A aaaagaacccatctttgaat   4128               ABCC1   53   3′flanking + (187-199)   aagtactgttccggggagaa   4129               ABCC1   54   3′flanking + 2227   cattagaataggtagtatca G/A ccagccgggcatggtggctc   4130               ABCC2   1   exon 1 + 77   catattaatagaagagtctt C/T gttccagacgcagtccagga   4131               ABCC2   2   intron 1 + 413   gataagttctagaactggca A/C ctaatgatatggactagaag   4132               ABCC2   3   intron 2 + 192   atcaaagtggctttgatttt T/G gcataagaatggtgactctt   4133               ABCC2   4   intron 2 + 1020   agtgctgcgattacaagcct G/C agccacctgcacagcctctg   4134               ABCC2   5   intron 2 + 3639   gttatatcccacccccaaat C/A gacccaataggtacaatgaa   4135               ABCC2   6   intron 2 + 3930   aaaactggcaggagaatttc A/G ctggagctgcatgcaggact   4136               ABCC2   7   intron 2 + 3989   agttatgaaaccgatttttc C/T gggactggttgttctagtct   4137               ABCC2   8   intron 2 + 4078   aggtttccagatgtgttccc T/C aggcattcctggtggtagga   4138               ABCC2   9   intron 2 + 4171   cttattctttggtcagttgg C/T tttctaccacctcttagctt   4139               ABCC2   10   intron 2 + 4257   gggtattggaaagttcttgc G/A gctgctggaggctgcggtgt   4140               ABCC2   11   intron 2 + 4436   ggactagtggaagaattaga C/G ctttcctgaataaatagatc   4141               ABCC2   12   intron 2 + 5227   taccataatttatgtgtcct A/G tatgacatgaatttcattgg   4142               ABCC2   13   intron 2 + 5373   gttaaggatatgtgaactca A/G gtgtgtctataggataaatt   4143               ABCC2   14   intron 2 + 5538   ttaatgaggttaagcacatg G/T tcatatgtttaaaagccttt   4144               ABCC2   15   intron 3 + 772   ygtataaggcaagatttttt A/T aaaaaattaattgcttaatc   4145               ABCC2   16   intron 3 + 1145   acatccttctcccctcagtc C/T tcggttagtggcagtattct   4146               ABCC2   17   intron 7 + 1658   ggactcttaccagcttagtt G/T cctggttttctaatctaaaa   4147               ABCC2   18   exon 10 + 40   tggccaggaaggagtacacc G/A ttggagaaacagtgaacctg   4148               ABCC2   19   intron 11 + 1672   aactttttaagtcttaagac T/A ggaaggcctgtgtcctaggc   4149               ABCC2   20   intron 12 + 148   ccctctcaccgccccatgcc A/G cttttcctcctttgtaccat   4150               ABCC2   21   intron 13 + 180   catgagttttctgagcccca 0/C tttatctaactataaaatga   4151               ABCC2   22   intron 13 + 1497   gtgcagggtccccctgatgc T/C atagccagttcctctttaga   4152               ABCC2   23   intron 15 + 169   atgagctgaaagcaaaggtt T/C tcagccccttcccctgataa   4153               ABCC2   24   intron 15 + 949   ttccaggtgacacatttagt A/G cctaatttgggaaatgttaa   4154               ABCC2   25   intron 15 + 984   tgttaatctagtccaatccc A/C ttagtaagaaaggaggggtc   4155               ABCC2   26   intron 16 + 4059   catcctgatgcacagttatt C/T aaatttaagctccatttgtt   4156               ABCC2   27   intron 19 + 10899   atgtatggagtatttatgga G/A taaagtattccatgctgtat   4157               ABCC2   28   exon 22 + 51   caagcaataggattgttttc G/A atattcttcatcatccttgc   4158               ABCC2   29   intron 23 + 56   tatactgagyatctttctga C/T agggaggaattattatgtcc   4159               ABCC2   30   intron 23 + 432   tggcagtagagcagggtgag G/A aggattattctgcagaggaa   4160               ABCC2   31   intron 23 + 734   tgagccaactactgtactag G/A cactggggcactcaatgaat   4161               ABCC2   32   intron 23 + 801   atgggccagacccaactcac T/G gattttttagtgtatctgag   4162               ABCC2   33   intron 26 + 154   ctggctccatcttttaccca T/C ggacgtattccttactcttc   4163               ABCC2   34   intron 27 + 124   gggtccctaaagtttccttt C/G ctctaactcaaaggacctaa   4164               ABCC2   35   exon 28 + 52   cagattggcccagcaaaggc A/C agatccagtttaacaactac   4165               ABCC2   36   exon 28 + 84   aacaactaccaagtgcggta C/T cgacctgagctggatctggt   4166               ABCC2   37   exon 28 + 129   agagggatcacttgtgacat C/T ggtagcatggagaaggtagg   4167               ABCC2   38   intron 29 + 154   ttccctaggatggacacgtc A/G tttccagaactttgaaatgt   4168               ABCC2   39   intron 30 + 91   gtgttaggtgatgcctggca T/C agaattttcatccaggtctg   4169               ABCC2   40   intron 31 + 170   tccaaaattttacatcacgc A/G aatgaaaacgaacaaggtta   4170               ABCC2   41   3′flanking + 371   gtgaatttttattataagct C/T gttctccttaaaactttatc   4171               ABCC3   1   5′flanking − 1064   tccttctgagccccaacaag C/T ggtgctgagttggcgtctgg   4172               ABCC3   2   5′flanking − (827-820)   ctggggcttcacctgtcctt (C) 7-8 aaccctgatcaggctgaagc   4173               ABCC3   3   intron 1 + 1226   tatttgtacatatatgccct T/G tgtgtgtgtacgcacacacg   4174               ABCC3   4   intron 1 + (1389-1399)   ctgtaaaaaggcatatttgg   4175               ABCC3   5   intron 1 + 2070   gcgcacttctccttgatgct C/T gtgagctatacacacctcct   4176               ABCC3   6   intron 1 + 4477   gcctgtagtccccagacagg G/A aaatggtcttgaaacactgg   4177               ABCC3   7   intron 1 + 6189   agtgaccatgaagtctgcca T/C gagggggcctctgccacgtg   4178               ABCC3   8   intron 2 + 268   ttgtattttragtagagatg G/A ggttttgccattttggcagg   4179               ABCC3   9   intron 2 + 376   tgtgcccagccagcattctg G/C ttttaatgaggccctctccc   4180               ABCC3   10   intron 2 + 446   ctcacctgacctgcttgggg C/T catgggaatctgacaactga   4181               ABCC3   11   intron 8 + 2323   gaggctggtggtgagagcgt C/G atcgatagggcgtgcagcag   4182               ABCC3   12   intron 12 + 85   ctcattggactctaccctga C/Δ accacctccacgctgctcag   4183               ABCC3   13   intron 19 + 1581   ttcttgttgccctttcaatc C/T ccctcattttattttcatgc   4184               ABCC3   14   exon 22 + 180   aacacttccctgaggctggg C/T gtctatgctgctttaggaat   4185               ABCC3   15   intron 30 + 1979   cctctgtctgttccatccct C/G tcctaccctcaccccccact   4186               ABCC3   16   intron 30 + 2340   atgcaccagccaggcctgaa A/C gaatgagtaagagttggagg   4187               ABCC3   17   3′flanking + (555-558)   ttttcttgagcaagccaaca AAGA/Δ gtttcttttctgcaggtcag   4188               ABCC3   18   3′flanking + 1455   aaccccctatgattagaact G/A tagtgctgtttaggaagcca   4189               ABCC3   19   3′flanking + (1650-1659)   aattcacagttaacaaagct (A) 9-11 tccttgttataaattacaca   4190               ABCC4   1   5′flanking − 644   attcatctgggtcatactct C/T gagttacccggctttcttga   4191               ABCC4   2   exon 1 + 67   ggagcggagcccgcggccac C/T gccgcctgatcagcgcgacc   4192               ABCC4   3   intron 1 + (864-865)   ctttgaccagcttctttccc CT/Δ gtttccaatactttcacttc   4193               ABCC4   4   intron 1 + 21255   ggatggaaatggtgagcaca A/G accttggcatttaaggaccg   4194               ABCC4   5   intron 1 + 21503   ctgttttctacccactgggg T/C cagcaaatcagcccctttta   4195               ABCC4   6   intron 1 + 21900   tgatgctcaaagcaatacaa C/G tagaaaatataggaggctgg   4196               ABCC4   7   intron 1 + 22005   aagggggagtcatactccag C/T gtgcattttagtttgtgctt   4197               ABCC4   8   intron 1 + (22256-22264)   tttgtgttgttatttgcgtc (T) 8-9 cctggaaggaagtgattggc   4198               ABCC4   9   intron 1 + 27784   ccagggaactggtggcacac C/G ctgagtctgctaggtgggct   4199               ABCC4   10   intron 1 + 27821   ggctaaagactcacaacctg A/T gggaaggggccaggaaagaa   4200               ABCC4   11   intron 1 + 27837   cctgagggaaggggccagga A/G agaaaggaagccatggccta   4201               ABCC4   12   intron 1 + 27880   gggtgttatttgggacccca C/T gcccatccaggccgacagag   4202               ABCC4   13   intron 1 + 40310   accaagcaggggaggtgaga A/T ttgtgcagactggggatatt   4203               ABCC4   14   intron 1 + 40372   ttgcttgaataaaaggatgc G/A agtcactgtattggtgaagt   4204               ABCC4   15   intron 1 + 40413   ttctttcaaatccaattcct G/A actgatttccttgccttcca   4205               ABCC4   16   intron 1 + 40958   gaagtttaccgaaaaacaaa A/G caagaaactccccagtaaaa   4206               ABCC4   17   intron 1 + 50060   tgtggctatggggaacatga G/A gctcatagaaactgaagact   4207               ABCC4   18   intron 2 + 181   gcctgggggaaactcctgtt G/T cctgtgcctccgtagaggtc   4208               ABCC4   19   intron 2 + 254   gaggtctgtccctctaggtg G/A aagtgttgtggttggaggag   4209               ABCC4   20   intron 2 + 290   aggaggttgtctggcttatc T/C gtgctactgatggggcttca   4210               ABCC4   21   intron 2 + 543   ttacgaagctttttcctcat T/C gtaggttctgggataaagaa   4211               ABCC4   22   intron 3 + 557   ggccttgcacctgggctggc G/A gtggtgccccagaggctgga   4212               ABCC4   23   intron 3 + 718   gtgtgtcttccttgttgtcg G/A agtggattgctggttggaag   4213               ABCC4   24   intron 3 + 801   acattccatgaaaaatcaaa G/A acagccagaagggcaataac   4214               ABCC4   25   intron 3 + 1022   aggggtggatgttgctgttg T/C tacaaaagggtggctttaaa   4215               ABCC4   26   intron 3 + 1471   tgctggggtgtcccagcgat A/G gtgtttccacatggccccga   4216               ABCC4   27   intron 3 + 1490   tagtgtttccacatggcccc G/A atcagtttcagttggaaaga   4217               ABCC4   28   intron 3 + (1833-1834)   gggctgccagccacttgggg (G) tggggtctctaacccacaga   4218               ABCC4   28   itron 3 + (1833-1834)   gggctgccagccacttgggg     tggggtctctaacccacaga   4219               ABCC4   29   intron 3 + 1870   cagatggtgactggactaca G/A tgagatttgggtaagctttt   4220               ABCC4   30   intron 3 + 1927   gaagtagaggctgtagaagc G/A tgaatttctcctgagacttg   4221               ABCC4   31   intron 3 + 1970   gacaggccccactctggtgc A/T aggagcatggtaatctttac   4222               ABCC4   32   intron 3 + 2039   gatcgaggggagctttaata T/C gggtacagttggtggagagc   4223               ABCC4   33   intron 3 + (2067-2068)   ttggtggagagctggtcttt (CTTT) tagcggggtggttattgggc   4224               ABCC4   33   intron 3 + (2067-2068)   ttggtggagagctggtcttt     tagcggggtggttattgggc   4225               ABCC4   34   intron 3 + 3563   cattgactgatggtctgggc G/A gatgtcaagttccctgtttt   4226               ABCC4   35   intron 3 + 3696   tgcttggcaaggatgaagac C/G ccagatgagtcactagtatg   4227               ABCC4   36   intron 3 + 4093   aagtaatccttggatttttt T/C ttttcttttccttctagcag   4228               ABCC4   37   intron 3 + 4097   aatccttggatttttttttt T/Δ cttttccttctagcagtgaa   4229               ABCC4   38   intron 3 + 9724   aaaaaccagcattactcacc A/G atgagcccatttgcttgact   4230               ABCC4   39   intron 3 + 9988   aaaggcaaagagcactgagc G/A tctggctgatagcccaggtg   4231               ABCC4   40   intron 3 + 10952   gttaaaattgcattccctac A/G tcttgttcagaaggtaagcc   4232               ABCC4   41   intron 3 + 11125   gctcaatttctgctgtgttt A/G atttttgactccacactacc   4233               ABCC4   42   intron 3 + 11244   ccaagagcctggaatcctcc C/Δ aagtctggttcttttcccca   4234               ABCC4   43   intron 3 + 11916   gtcttgaccaaaaaaaaaaa A/Δ tttagctctacatgatggtg   4235               ABCC4   44   intron 3 + 12047   actatactccagcatgggtg A/G cagagcaagcaatatctgaa   4236               ABCC4   45   exon 4 + 205   tgaggttacgagtagccatg T/G gccatatgatttatcggaag   4237               ABCC4   46   intron 4 + (412-414)   ttatggaaatttttgttgtt GTT/Δ cattaaaaccttcacttaca   4238               ABCC4   47   intron 4 − (9757-9756)   tgacatctgtcatttttttt (T) cctgctgcacaaatctcttc   4239               ABCC4   47   intron 4 − (9757-9756)   tgacatctgtcatttttttt     cctgctgcacaaatctcttc   4240               ABCC4   48   intron 4 − 6373   atgttttgttctagatagta C/G agttttcttgtaatctcaaa   4241               ABCC4   49   intron 4 − 6267   acttccaccattcacagtat T/C gttcttaatggcatgcggat   4242               ABCC4   50   intron 4 − 6096   agatccttcatttcctaggg T/C gtacaaatttcaaggctttt   4243               ABCC4   51   intron 4 − 6057   ttgctatgctagattgattt C/T ctccccaagagttgttaatt   4244               ABCC4   52   intron 4 − 5295   agttgtctggcttacagtag A/G tgcttactaaatggtagctt   4245               ABCC4   53   intron 4 − 803   agcttcacctgtttcagccc C/T gcttccatgagcttcacctg   4246               ABCC4   54   intron 4 − 736   attcagcagcctccacatcc C/T ccttctccgtacttctgtcc   4247               ABCC4   55   intron 4 − 728   gcctccacatcctccttctc C/T gtacttctgtcctagctagg   4248               ABCC4   56   intron 4 − 624   ccacccagtgtccctcagtt A/C gaactgtccccagttctctg   4249               ABCC4   57   intron 4 − 470   ttgatactccatatttgtca C/T ttcccattgaacacattgaa   4250               ABCC4   58   intron 4 − 411   ggtgaagagactaaggcccc G/A tgtgtttaataatgttgcac   4251               ABCC4   59   intron 4 − 323   tgttcctctgacagcctctc C/T gttcttccctaatttggctc   4252               ABCC4   60   intron 4 − 246   gtccttttgtacttgggggc A/G tgtccaaattcattaaatga   4253               ABCC4   61   intron 4 − 199   agatttttcttcttcctacc C/T ctcgctttgctgtcctgaca   4254               ABCC4   62   itron 5 + 73   ccttttattctttctggagg C/T aggggctcactctgttcaca   4255               ABCC4   63   intron 5 + 403   aagggatcacgccttgttgc C/A caggctggtctcaagattct   4256               ABCC4   64   intron 5 + 937   ccagaatggcttcacctgtg G/C tgggtgcttggctttctgct   4257               ABCC4   65   intron 6 + 150   ggctcagccaagggggcctc C/T gtccttatgctgaaggcaaa   4258               ABCC4   66   intron 6 + (380-381)   tgtgttagagctgttttcac (AT) gtgtatatatgtgtgttatt   4259               ABCC4   66   intron 6 + (380-381)   tgtgttagagctgttttcac gtgtatatatgtgtgttatt   4260               ABCC4   67   intron 7 + 894   tttgttgttgttgcccagga A/T ggtctcaaactcctgggttc   4261               ABCC4   68   intron 8 + 82   tatttagcatcactatgttc C/G agtgtaatgacatttaactc   4262               ABCC4   69   intron 8 + 100   tccagtgtaatgacatttaa C/T tctctcataaccaaaacgtg   4263               ABCC4   70   intron 8 + 5212   tcagggaattgtggtccaat A/T tgcagctayggaagaaatcc   4264               ABCC4   71   intron 8 + 5444   gaaaccttaatttcccctca T/C gtacatagtttctggtggga   4265               ABCC4   72   intron 8 + 8969   tcaccctcctgagtgactag A/G gaaagtccagctagcccctc   4266               ABCC4   73   intron 8 + 9106   ccagtgctcaataggtttac T/C gtgtgcatagttttttattt   4267               ABCC4   74   intron 8 + 9412   tgtttgtaagtgcaggatgg G/A ggacacatctctgccctgta   4268               ABCC4   75   intron 9 + 116   tggcttgcttatttactgaa A/G ctatgttacaaagattctca   4269               ABCC4   76   intron 9 + 1384   cacggcaggaagctgcaccc T/C ggggctggagatgatgtctg   4270               ABCC4   77   intron 9 + 1459   agatttgggagcagagggcg A/G gggtctcttctgagggtact   4271               ABCC4   78   intron 9 + 1632   agcagcactcctgcccagcc C/A cactgcctccgtcctcccct   4272               ABCC4   79   intron 9 + 3630   ataaatttttcattttgaag C/Δ ttatcttgatctcttattcc   4273               ABCC4   80   intron 9 + 3830   ggtgttccacccttcaggga C/T gccagattcattttgaagaa   4274               ABCC4   81   intron 9 + 3940   gagcatttaccaaagtgtgt C/T gtgcagaagaatagccactt   4275               ABCC4   82   intron 10 + 1504   gggcaaggctgcattgcagt G/A gcttattcttgtctcgagtg   4276               ABCC4   83   intron 11 + 1817   ttttagggagttgagaaaca G/C atggcaaattttgctagttt   4277               ABCC4   84   intron 11 + 3342   actggaattattctggcttg T/C aggtacagagattgcatgtg   4278               ABCC4   85   intron 11 + 3377   catgtgtaatcaaaacctgc T/C ggacagaaatgytcctgagc   4279               ABCC4   86   intron 11 + (3610-3625)   gtcctagaggaaaaaatagg   4280               ABCC4   87   intron 11 + 3737   ataagttcatcgagctaaaa A/C tatatttgagataaaataat   4281               ABCC4   88   intron 11 + 6953   agagtagagacaaagaaatg C/A caccttgatctgtaagaggg   4282               ABCC4   89   intron 13 + 442   ctatgacaggttagaagtga G/C gtccttgggaccaacatagg   4283               ABCC4   90   intron 13 + 459   tgacgtccttgggaccaaca T/C agggctttcttgggaaggct   4284               ABCC4   91   intron 13 + 633   tgaacacttaaaacccacag C/A catgtaggcctggcttgcct   4285               ABCC4   92   intron 13 + 645   acccacaggcatgtaggcct C/T gcttgcctttgaaactagtt   4286               ABCC4   93   intron 13 + 3306   aatgttctcaacgagttaga A/C aattggattgaacaatatgc   4287               ABCC4   94   intron 14 + 252   taatttagaactttttgttt A/C cctcttccatgacttaattc   4288               ABCC4   95   intron 15 + 124   tggattctgtggtttcaggg C/T tctattccatgatattggta   4289               ABCC4   96   intron 15 + 1552   tttggacttctgcctgtttc C/T ccacagctttgtcaacagag   4290               ABCC4   97   intron 16 + 157   cctactggtgttccatgtcc C/A ttacaaagacctgcgaaaaa   4291               ABCC4   98   intron 17 + 329   cccaaattgtggttcatttt T/C aaaaaaatgtatttatctaa   4292               ABCC4   99   exon 18 + 56   attrgaggaggaaatgtaacc C/A agaagctagatcttaactgg   4293               ABCC4   100   intron 19 + 7202   aattaaaaataatgtttttt T/Δ cacataacaatggttatatg   4294               ABCC4   101   intron 19 + 7445   ttttggcataatttttaatc T/C actagaatgttctgattcat   4295               ABCC4   102   intron 19 + 9018   tacgtgatggcctgaagaga A/C aaaccgtacattggttcttt   4296               ABCC4   103   intron 19 + 11388   aagagttcagagattttggg A/C gttggaggaaaaaatagcat   4297               ABCC4   104   intron 19 + 11646   cattatttttaatttttttt T/Δ cctcctgttggtgtcagaat   4298               ABCC4   105   intron 19 + 13517   gagaaacttacattattttt A/T aaaaatgctataactagtcc   4299               ABCC4   106   intron 19 + 21033   tgggagtgccctgggctagc C/A ctgaaacttcaggttttcag   4300               ABCC4   107   intron 19 + 21095   agacttttggaagaagcaga A/T ctgaaggtaagactgagtaa   4301               ABCC4   108   intron 19 + 21634   gtgctatttctgagcactca C/T ggccccattgggcatgggct   4302               ABCC4   109   intron 19 + 21715   tgttttgctcaccccctaca C/T agcttgccctcatgcttctc   4303               ABCC4   110   intron 19 + 23090   agcaacagacttggagactt C/A agcttctaaaagtttcatta   4304               ABCC4   111   intron 19 + 24297   cgaatgtgatgaatgtggga A/C cctttttgagatagcagcac   4305               ABCC4   112   intron 19 + 25947   gagtctaaattaaatatgag C/A aaaactagaaaccatttaaa   4306               ABCC4   113   intron 19 + 30193   acagatttgcaagagtctac A/C aaagtgataatattctgtca   4307               ABCC4   114   intron 19 + 36938   aagccgagtcaatctcttgg C/G tatcttctgtggactacttt   4308               ABCC4   115   intron 19 + 37322   gttcccatgagggctgaccc C/T gcctcaccctggtaacccgc   4309               ABCC4   116   intron 19 + (38361-38362)   cggggttagcttccctagct (T) gcggagggtttctgagaaaa   4310               ABCC4   116   intron 19 + (38361-38362)   cggggttagcttccctagct     gcggagggtttctgagaaaa   4311               ABCC4   117   intron 19 + 38746   taaagacatgctggtaatta T/C gtaaaataaagataagtcaa   4312               ABCC4   118   intron 19 + 42343   tgtaagggcagaatcagcag C/T aacgattggatgttcccgga   4313               ABCC4   119   intron 19 + 44733   agcaggctggggaaaaaaaa A/≢ tacagaggttatcattatgc   4314               ABCC4   120   intron 20 + (405-419)   ggatagaaccaggtgtggtt   4315               ABCC4   121   intron 20 + (637-648)   ccaacaatcctacagaaata   4316               ABCC4   122   intron 20 + 842   caagctggggcacttttttt T/Δ tcccaagtgtttattttgga   4317               ABCC4   123   intron 20 + 843   aagctggggcactttttttt T/C cccaagtgtttattttggaa   4318               ABCC4   124   intron 20 + 1347   ggacctctgatttttttttt T/Δ cttttgcaaacatttttaaa   4319               ABCC4   125   intron 20 + (14553-14567)   tcagcagcttgactgagctt   4320               ABCC4   126   intron 20 + 15487   ggttttttccagtgtgatag C/T acatgtagaaagcagtactg   4321               ABCC4   127   intron 20 + 16161   gcgttgagtcatgaagccga T/C agtgccgcttgtgcatcgca   4322               ABCC4   128   intron 20 + 30891   acgtcccccactgttctatc C/T ttctcaagaagcaagcgttg   4323               ABCC4   129   intron 20 + 31180   ccttgcacgtgctcatacat G/A tcatttgctattgttatcat   4324               ABCC4   130   intron 20 + 31283   gtgttaaagctaaaaaaaaa A/Δ ccctgttagacattttgact   4325               ABCC4   131   intron 21 + 4204   ttgaccctgccctgaaaccc A/T gttggagataaaacagtggc   4326               ABCC4   132   intron 22 + 1026   gtgccctactccacgtaaaa A/C tcttctgtagctcaactgag   4327               ABCC4   133   intron 23 + 377   gcctggtgcatgaggttgag A/G aaaattctcagcaggagagt   4328               ABCC4   134   intron 25 + 4122   cccttttgattaaaattgca C/G/T tgggacaagaaccaccccca   4329               ABCC4   135   intron 25 + 6418   ttgcactgaggtaatggctg C/A agaaattaaagtgagggtat   4330               ABCC4   136   intron 25 + (8765-8775)   tgcatcctgtgatttttttc (T) 5-11 aatcctgccgcctggatctc   4331               ABCC4   137   intron 26 + 67   tatgtttaattgcttttact G/C ttattgctttttttaattgg   4332               ABCC4   138   intron 26 + (101-109)   taattggatgaaaggattgt (T) 8-9 cacccaatagagcatgtttt   4333               ABCC4   139   intron 28 + 391   tagatatgatcttttttttt T/Δ aaatctctattgtgaagtag   4334               ABCC4   140   intron 29 + 2569   atcctcttttttctaatacg C/T accactatctccacattaaa   4335               ABCC4   141   intron 29 + 7820   gaaaaacaacctgtgtcctg C/T ttggaggttcagcatattct   4336               ABCC4   142   intron 30 + 6269   tagatgttctttgggcattg A/G aaagatggtgttatctgttt   4337               ABCC4   143   intron 30 + 6320   gtttaataaggtttaattag C/T tctactttgttaattacatt   4338               ABCC4   144   intron 30 + 6474   ctttgatgctatggttttca A/G tccacagatgttcataactt   4339               ABCC4   145   intron 30 + 6519   ttccactatgaattatattt C/T ctgccattttaacacacctt   4340               ABCC4   146   intron 30 + 6574   aatggttttggtcctaaatc C/T acactggttcaaaactagac   4341               ABCC4   147   intron 30 + 6680   aggtgtgtctcctgtatatg A/G cgtggttaggttttactctg   4342               ABCC4   148   intron 30 − 704   acgtttatcagaaaacctgt A/C tctcttctagttcagctaga   4343               ABCC4   149   intron 30 − 228   atctatgaatcagagtgatc A/G gaactaaaatggatctacag   4344               ABCC4   150   intron 30 − (14-5)   acattctttttatgcttacc (T) 9-10 ctaggtatacttcaaaagaa   4345               ABCC4   151   exon 31 + 146   agtccgttccgaaggcattt G/T ccactagtttttggactatg   4346               ABCC4   152   3′flanking + 173   atttttaaaggagtaggaca A/G agttgtcacaggtttttgtt   4347               ABCC4   153   3′flanking + (430-440)   tggatacatggttaaaggat   4348               ABCC4   154   3′flanking + 556   aaaggtgctttgatactgaa G/A gacacaaatgtgaccgtcca   4349               ABCC4   155   3′flanking + 1144   cctccctgaaattgcatata T/C gtatatagacatgcacacgt   4350               ABCC4   156   3′flanking + 1426   tttaggtgactgaaattgca A/T cagtgateataatgaggttt   4351               ABCC5   1   intron 1 + 628   ttctgccacacagagccgcg G/C gtggctttgtgtttatcaca   4352               ABCC5   2   intron 1 + 1834   tgagttccagtgacctcctc C/T gtttcaaactgctcaccgcc   4353               ABCC5   3   intron 1 + 3055   agaaagtctttaaaaaaaaa AΔ ccaacctttctattgtatac   4354               ABCC5   4   intron 2 − 20280   gaatgcatcgctactaagta T/C ttttgtaagttcagacacca   4355               ABCC5   5   intron 2 − 20260   tttttgtaagttcagacacc A/T tctagaatctgcttgaccgt   4356               ABCC5   6   intron 2 − 19204   tgaaataaagcattcgcaca C/T ctacccactttcttcgggac   4357               ABCC5   7   intron 2 − 19043   ttggctggcattaggctggc G/A ttacttcagctaacatgaag   4358               ABCC5   8   intron 2 − 18824   ttgaacactcttcaagatgc A/G tgcacagcactgaaccgagt   4359               ABCC5   9   intron 2 − 18807   tgcatgcacagcactgaacc G/A agtggtctggtgcagataaa   4360               ABCC5   10   intron 2 − (18735-18734)   atagaagcttaaactcacaa (A) cacgtactctacatagatga   4361               ABCC5   10   intron 2 − (18735-18734)   atagaagcttaaactcacaa     cacgtactctacatagatga   4362               ABCC5   11   intron 2 − 15903   taccaaagcctgctcatgga G/A gtagaaagcaagactgacat   4363               ABCC5   12   intron 2 − 15901   ccaaagcctgctcatggagg C/T agaaagcaagactgacatgt   4364               ABCC5   13   intron 2 − 15847   tggatggaacctcaaaggcc G/A tcttgcccagtccccattta   4365               ABCC5   14   intron 2 − 15605   aggagacgccacgacactga C/T agctgtacctgacctgaggg   4366               ABCC5   15   intron 2 − 13571   ccgattgtgccccagatacc G/A ctttatttgaggggtgtgcc   4367               ABCC5   16   intron 2 − 13402   taccctgctgttgtccggcc G/T ccaggaagggattggattgt   4368               ABCC5   17   intron 2 − 13325   cccagaggcctccgtgcagg G/C gaaaagcccttggttgccct   4369               ABCC5   18   intron 2 − 7293   tttgttaggataaaattgca C/T tgagtgcctgttctaaacca   4370               ABCC5   19   intron 5 + 374   ccgggctggtgagccagcac C/T gggaacataccaagtgcctg   4371               ABCC5   20   intron 5 + (2212-2213)   cgcctcctgcagtgctctct CT/Δ tggtgaatgctaactctgct   4372               ABCC5   21   intron 5 + 3283   acccagagagagtctgggtt C/T tggaattcagcgtagctacc   4373               ABCC5   22   intron 5 + 3469   ttggctttcttttgttgtgg C/T tttttgttttatttttgtca   4374               ABCC5   23   intron 7 + 443   cacttttattaaagacagta C/T gattacataacatttggccc   4375               ABCC5   24   intron 7 + 458   cagtacgattacataacatt T/G ggcccatcctagcaagcagg   4376               ABCC5   25   intron 9 + 176   caaaacaaaacaaacaaaca A/G acaaaaaaaaaataccacat   4377               ABCC5   26   intron 9 + 214   catatggagatgatgctgtg G/T tcctctccttactggacctg   4378               ABCC5   27   intron 10 + 703   tgtgggctggaattccttga T/C gttgccactgcatagattag   4379               ABCC5   28   intron 10 + 3580   catggggctggagctgtgaa A/G accagtaggtactggcatgt   4380               ABCC5   29   intron 10 + 3655   atcctttgaataactcttta G/A gggagagaaatgatggaaat   4381               ABCC5   30   intron 10 + 3854   gaagtttagaatcatgacac T/C tcggggaagataggatcagg   4382               ABCC5   31   intron 10 + 5040   ctttgaagacatgagagttt C/T ttggcaagaagatgttctct   4383               ABCC5   32   intron 10 + 5316   cagttaaatgtcattaggtc C/T gctttaggctggctgagggg   4384               ABCC5   33   intron 12 + 234   tgactgttgtcccagctgga G/A ccatttggtctcatgccttc   4385               ABCC5   34   intron 12 + 300   tgccacaggtatgcccgtgt A/G ttgaaaatgtcagagataag   4386               ABCC5   35   intron 12 + 318   gtattgaaaatgtcagagat A/G agagatgagcagacacccta   4387               ABCC5   36   intron 12 + 1545   gtagcatccctaaaccaaga C/T aaatgtctactatcagtccc   4388               ABCC5   37   intron 13 + 20   ggcaaggaatgtttggcttc T/C gtcatgctttccatcttggc   4389               ABCC5   38   intron 14 + 278   ttctatccagatatttttaa A/G actacaagtaagcgtgtgca   4390               ABCC5   39   intron 16 + 1663   tgactggagacttttttttt TM aaatattattagatcaattc   4391               ABCC5   40   intron 16 + 1864   gactggagactttttttttt A/T aatattattagatcaattca   4392               ABCC5   41   intron 17 + 20   ggtaatggccttttttgaaa T/G ttttagatttgtcatcaaag   4393               ABCC5   42   intron 18 + 232   ggacacctgcaggctatctg C/T tctcatccgttgtgtattag   4394               ABCC5   43   intron 19 + 249   ggaccagtaggaacagagcc G/A tccctgggccctgaccactc   4395               ABCC5   44   intron 20 + 846   tttaccagaagaaaaaaggc G/A gtggggtggggagacagcca   4396               ABCC5   45   intron 20 + 1154   tcttgagacgaaaaaaaaaa A/Δ tcagagcatccaggtttcta   4397               ABCC5   46   intron 22 + (1424-1425)   gaggaaatgcagcggaatat (AT) caactctggttttaacaggg   4398               ABCC5   46   intron 22 + (1424-1425)   gaggaaatgcagcggaatat     caactctggttttaacaggg   4399               ABCC5   47   intron 24 + 132   atcccacagaatctccagca A/G tctctcaaccgtgcttggaa   4400               ABCC5   48   intron 24 − 874   gtgctggagaggttaggatt A/G cggtcagtggtggtacaaag   4401               ABCC5   49   intron 24 − 630   tgatgataaaaattacccaa G/A cagttatatcacagcatttt   4402               ABCC5   50   intron 24 − 102   acagggtggcagctacctct G/C tgtggctactatggttgtcc   4403               ABCC5   51   exon 25 + 120   taccgagaaaacctccctct C/T gtcctaaagaaagtatcctt   4404               ABCC5   52   intron 26 + 263   ctgggcccagggctctgctc C/T gtgacttcggacaagttatt   4405               ABCC5   53   intron 26 − 3257   ccgagggtgaattgctgtgt T/C gtctcacactttgggagata   4406               ABCC5   54   intron 27 + 873   gttttttcctctgctctatc G/A ggattcttctcatttgaaga   4407               ABCC5   55   intron 29 + (2733-2734)   gtgtccaaaggaaggacacg (TGTCCAAAGGAAGGACACG)   4408                   cttatgttctccttgtggcc               ABCC5   55   intron 29 + (2733-2734)   gtgtccaaaggaaggacacg   4409                   cttatgttctccttgtggcc               ABCC5   56   intron 29 + 2959   acatgattttccacggctac A/G tagaagtccatcataggaat   4410               ABCC5   57   intron 29 + 4020   aataaaaaaataagggggga G/A gtgcacgcagggctagttga   4411               ABCC5   58   exon 30 + 684   cccctctgccgcctccccac G/A gccgctccaggggtggctgg   4412               ABCC5   59   exon 30 + 947   agtctatccacagagagtcc C/T actgcctcaggttcctatgg   4413               ABCC5   60   exon 30 + (1145-1160)   tcaccgcagtcgtcgcacag (TC) 6-8 ccctcaaagtctgcaacttt   4414               ABCC5   61   3′flanking + 4   attattttggattttgtaaa A/C ctcttcgtgtatcaaacaat   4415               ABCC5   62   3′flanking + 2008   cccgcagacctggcacagcc C/Δ tgttctcaaaggggagctcc   4416               ABCC5   63   3′flanking + 2052   cccagctaggacaggccagc A/G ccaggcagttaggaccgtgg   4417               ABCC7   1   5′flanking − 834   gctaaaacactccaaagcct T/G ccttaaaaatgcgcactggg   4418               ABCC7   2   5′flanking − 729   cctccttgcagatttttttt T/Δ ctctttcagtacgtgtccta   4419               ABCC7   3   exon 1 + 125   tagcagggaccccagcgccc G/C agagaccatgcagaggtcgc   4420               ABCC7   4   intron 1 + 6200   ctatgtgagacgttaagaag G/A tagaggtggccaagaaggaa   4421               ABCC7   5   intron 1 + 7538   agttctctttcttagcatgg C/A ctacagaggtgcaactacct   4422               ABCC7   6   intron 1 + 13519   gaaacttaaatcttgagtca T/C acaattgtgtctacatactg   4423               ABCC7   7   intron 1 + 14110   attacacagtattttttttt T/Δ aattttggggaaagtcgatt   4424               ABCC7   8   intron 1 + 14293   gccaggcagattcctgactc C/Δ tataacccagagcttatcag   4425               ABCC7   9   intron 1 + 14316   taacccagagcttatcagag C/G atttatgtccccaaagagaa   4426               ABCC7   10   intron 1 + 14433   cagaataacaatgatggctc G/A gaaaaatatgggtatttctg   4427               ABCC7   11   intron 1 + 14824   acgttttgacagttgcacaa G/C tttctttctttaagctttaa   4428               ABCC7   12   intron 1 + 23401   aatatttttgaaaatcacta C/G ggtatcctgcatagtgattt   4429               ABCC7   13   intron 3 + 879   gaaaaatttcagttcataca C/A ccccatgaaaaatacattta   4430               ABCC7   14   intron 3 + 922   acttatcttaacaaagatga G/C tacacttaggcccagaatgt   4431               ABCC7   15   intron 3 + 933   caaagatgagtacacttagg C/T ccagaatgttctctaatgct   4432               ABCC7   16   intron 3 + 13704   tttttccaaataaaaaaaaa A/Δ tcaggtgatatctgtaaatg   4433               ABCC7   17   intron 3 + 13758   tattaaagaacatgatgctt A/G aaacagattagggaaaacta   4434               ABCC7   18   intron 4 + 240   ctctgttgtagttttttttt TΔ ctcctaatcatgttatcatt   4435               ABCC7   19   intron 4 + 376   ttatgttcagcaagaagagt A/G taatatatgattgttaatga   4436               ABCC7   20   intron 4 + 586   tgtccagacaagagaccaaa T/C tgccgaggcatcatttaggt   4437               ABCC7   21   intron 4 + 1089   tttcaatctgaacattttac G/A taagtgaagactttgttaga   4438               ABCC7   22   intron 4 + 1615   aaagttaggtggtattgtat C/T tgtcttcctttctcaatgtt   4439               ABCC7   23   intron 4 + 1946   aatacaaacaaacttgagct T/C tgcctatacttttcaagaat   4440               ABCC7   24   intron 6 + 783   tatctaagttttggagtcaa A/G tagcactttgtttgaatccc   4441               ABCC7   25   intron 6 + (1104-1131)   tacagagatcagagagctgg   4442               ABCC7   26   intron 7 + (731-732)   gtagcaatgagaccattttt (T) cttcagttgagctccatgtt   4443               ABCC7   26   intron 7 + (731-732)   gtagcaatgagaccattttt     cttcagttgagctccatgtt   4444               ABCC7   27   intron 7 + 1434   gaatgtttggttgtaacctg T/C ataatctggcatgaaattgt   4445               ABCC7   28   intron 8 + 752   catgctctcttctcagtccc A/G ttccttcattatatcaccta   4446               ABCC7   29   intron 8 + 1109   tatggccaagacttcagtat G/A cgtggacttaattcttcctt   4447               ABCC7   30   intron 8 + 1312   atgaagacattcattttttt T//A ctccgtccaatgttggatta   4448               ABCC7   31   intron 9 + (6521-6522)   gtgtgtgtgtgtgtgtgtgt (GT) ttttttaacagggatttggg   4449               ABCC7   31   intron 9 + (8521-6522)   gtgtgtgtgtgtgtgtgtgt     ttttttaacagggatttggg   4450               ABCC7   32   intron 10 + 2119   gaacactttatagttttttt T/G ggacaaaagatctagctaaa   4451               ABCC7   33   intron 11 + 3867   tttttcttcaagaaattaga A/Δ gaggggagaaattggtttaa   4452               ABCC7   34   intron 11 + 11844   tgaatcaaaatcatctaaaa A/Δ gctttcagaaaccagacttt   4453               ABCC7   35   intron 11 + 12144   atattaaacagagttacata T/C acttacaacttcatacatat   4454               ABCC7   36   intron 11 + 20975   gtgtggatagtaaatgccag G/A gtaaatcacatagcatctaa   4455               ABCC7   37   intron 11 + 27057   atggaagagaagttttagta G/A aggggaggaaggaggaggtg   4456               ABCC7   38   intron 11 + 27131   gagagagacttttttttttt T/Δ aaggcgagagtttactacct   4457               ABCC7   39   intron 13 + 152   gtattaactcaaatctgatc T/A gccctactgggccaggattc   4458               ABCC7   40   intron 13 + 287   tttgcagtatcattgccttg T/C gatatatattactttaatta   4459               ABCC7   41   intron 15 + (85-86)   atacatatatatgcacacac AT/Δ aaatatgtatatatacacat   4460               ABCC7   42   intron 15 + 106   taaatatgtatatatacaca T/A gtatacatgtataagtatgc   4461               ABCC7   43   intron 15 + 3341   ggaagtataaatttgtaaat A/C actgagacccaaacttacaa   4462               ABCC7   44   intron 15 + 5556   tgctattgactaatagtaat A/T attttagggcagctttatga   4463               ABCC7   45   intron 15 + 5919   tggtagttctatgtggaaac C/A gtgaggaaaraattttatat   4464               ABCC7   46   intron 17 + 2479   caaaaaggtatggaagtcag A/C ggagaaggagacccctatgt   4465               ABCC7   47   intron 18 − 81   aagtatgcaaaaaaaaaaaa A/Δ gaaataaatcactgacacac   4466               ABCC7   48   intron 19 + 751   cattaataaaataacaaatc A/G tatctattcaaagaatggca   4487               ABCC7   49   intron 19 + 820   tgacatttgtgatatgatta T/C tctaatttagtctttttcag   4468               ABCC7   50   intron 21 + 1532   ttacctttaacttttttttt T/Δ agtttgatcagctctcttta   4469               ABCC7   51   intron 21 + 1607   atgcttttggagttgggtct C/T ataaatgtatagaaatgttt   4470               ABCC7   52   intron 21 + 11260   atgtggaacaatcatgacta T/C atgccttttactttctctat   4471               ABCC7   53   intron 22 + (130-131)   agaatcaatattaaacacac AT/Δ gttttattatatggagtcat   4472               ABCC7   54   intron 23 + 1837   ctgtcctaaagtttaaaaag A/Δ aaaaaaaaaggaagaaggaa   4473               ABCC7   55   intron 24 + (7100-7112)   agtttaacatgttacaaaac   4474               ABCC7   56   intron 25 + 237   actcttcccccttgtcaaca C/T atgatgaagcttttaaatac   4475               ABCC7   57   exon 27 + 115   gggtgaagctctttccccac C/T ggaactcaagcaagtgcaag   4476               ABCC7   58   exon 27 + 334   ggatgaattaagtttttttt T/Δ aaaaaagaaacatttggtaa   4477               ABCC8   1   5′flanking − 1099   aaaggggctgaaggggtctt T/C cttttgtgttcccctgactg   4478               ABCC8   2   5′flanking − (424-422)   caccccaccaccaccaccac CAC/Δ aaggtaacgttctgccccac   4479                ABCC8   3   intron 1 + 1212   agcctgggcaacatagtgag A/G ccccccccgccctttctaca   4480               ABCC8   4   intron 2 + 1003   aggaggactgtgaatcccag C/A ctgcatgtttgggtcggatt   4481               ABCC8   5   intron 2 + 1253   catctcactaaggaagaatc C/T agtaaccagcaaggatgaga   4482               ABCC8   6   intron 2 + 1382   cccagactgcactcctgcag T/C gctgcctggctcctgtagtt   4483               ABCC8   7   intron 2 + 2371   tttcagagctgtctggaaat T/A tagggggcaggtgggagggg   4484               ABCC8   8   intron 3 + 1957   ccctacccctagcccagggg C/T ccccacatgagtatgaatgg   4485               ABCC8   9   intron 3 + (2088-2089)   agagaacccttcattaacca (CCA) gggcgtggctgaccagtgtc   4486               ABCC8   9   intron 3 + (2088-2089)   agagaacccttcattaacca     gggcgtggctgaccagtgtc   4487               ABCC8   10   intron 3 + 2204   taaagcacaagttatcaccc G/A tggatggatttgtccttttc   4488               ABCC8   11   intron 3 + 2286   ttatctccccttgaaaggac A/G ctccacagagccagaaattc   4489               ABCC8   12   intron 3 + 2312   cagagccagaaattctagaa C/G agggaaaagtggaggggagg   4490               ABCC8   13   intron 3 + 2356   ctgtgaactgcagggacaga A/G ggaaatgggtattgggagaa   4491               ABCC8   14   intron 3 + 2359   tgaactgcagggacagaagg A/C aatgggtattgggagaatgg   4492               ABCC8   15   intron 3 + 2370   gacagaaggaaatgggtatt G/A ggagaatggccagccctcca   4493               ABCC8   16   intron 3 + 2382   tgggtattgggagaatggcc A/G gccctccaaggggctgatgt   4494               ABCC8   17   intron 3 + 4910   ggggacagccttcagctgtg G/A aattcctccagtcctagaga   4495               ABCCB   18   intron 3 + 4969   cattattccagtcctgaggc A/G tgagagcagaaggccgatgc   4496               ABCC8   19   intron 3 + 5003   ccgatgcttctgccctccat C/G ctaatgtcctcctgcaggga   4497               ABCC8   20   intron 3 + 5019   ccatcctaatgtcctcctgc A/C gggacccaaggtggatggca   4498               ABCC8   21   intron 4 + 14   ggtgagggtaagcaggccac C/T tgggccagggtggggtggga   4499               ABCC8   22   intron 4 + 187   agacactgcatctggcccac G/A tgtgctctaccccagggtcc   4500               ABCC8   23   intron 4 + 204   cacgtgtgctctaccccagg G/C tcccagagggagaggggggt   4501               ABCC8   24   intron 4 + 254   gttcgctgaggttggcggat G/A actttccgtagaaagggaag   4502               ABCC8   25   intron 4 + 357   tgtattcatatcgtcacyct G/C gtaaatgaatgagtaagtgt   4503               ABCC8   26   intron 5 + 92   ggcattaggtcaaaatcctg G/A tgggacaaaaggggaaactg   4504               ABCC8   27   intron 6 + 4205   tctgtagaaagtacatgggg G/A catgaagatcattggcttga   4505               ABCC8   28   intron 6 + 5519   gattcccagggaatgttaaa A/C aggaccgggtcttcctaaac   4506               ABCC8   29   intron 6 + 5575   tctgacccagtaccagccag G/C ggggcaagtttccatccccc   4507               ABCC8   30   intron 6 + 6587   gttgccatctgagatcttgc C/T ggaagtacacaagagaccct   4508               ABCC8   31   intron 6 + 6747   ttccactggccttttctgct C/T agtaattgctacattacagg   4509               ABCC8   32   intron 9 + 191   gaggaagctgcctcccggtg A/G ggacaggaagcgggcatggc   4510               ABCC8   33   intron 10 + 1963   cccaggagtccaacctccct T/G tgtccagctagaccatggtg   4511               ABCC8   34   intron 10 + 2724   cctgggacatgttttcttat A/G taaacagcatcaaaagatgt   4512               ABCC8   35   intron 10 + 2938   gcccgcccaygactcctcac G/C tgtccaagtcacctagggag   4513               ABCC8   36   intron 10 + 3094   tccgaggatgtgtttttttt T/Δ ccctccgttagtcagcagtg   4514               ABCC8   37   intron 10 + 3368   tcctgctcatatgcggcacc A/G tcagacttctgggcaggcaa   4515               ABCC8   38   intron 10 + 8897   ggtattgattaaaagcctca C/T gggcagagaaattcgccatc   4516               ABCC8   39   intron 11 + 308   tgtgtattgtagaagtgatg G/A gaaatccagaacagaaagct   4517               ABCC8   40   intron 11 + 1171   gccctctcatttcccttcca G/A tgctgagcgtttccagtgtg   4518               ABCC8   41   exon 12 + 7   gcctctgtccacagactttc G/A tgtgccacgt:cagcttcttc   4519               ABCC8   42   intron 12 + 356   accaagaatgaggccatccc G/T tccccacgtggctgccccat   4520               ABCC8   43   intron 12 + 934   tgggttcaaagatggaatgg G/T gcataactcagcaaaattat   4521               ABCC8   44   intron 12 + 1370   gggagggaggctggacaggg C/G atgaaggcagagcctggtgg   4522               ABCC8   45   intron 15 + 412   ggaggtgggacccaggatgg C/T gtttcttgggaccacaagga   4523               ABCC8   46   intron 15 + 688   actcccccggccccactcac A/G tctgccaccttccctccctg   4524               ABCC8   47   intron 16 + 4464   actcattccaagtattgatc G/A agaagagaggtaggtactgg   4525               ABCC8   48   intron 16 + 4574   ttgaagatcttaagttgttt T/C tggttcactcatttcgcaaa   4526               ABCC8   49   intron 16 + 5011   agctaaaagcaaaacagcct C/T tgacctggcaagcattccca   4527               ABCC8   50   intron 16 + 7608   tgtcctacttttcttttgac C/G cttataacttcctgacttcg   4528               ABCC8   51   intron 16 + 7730   ccagctcctagtgggctgga G/A ggaaggacatgcggttgggg   4529               ABCC8   52   intron 16 + 8369   ttgcaaactgagttagggce T/C ggagagcttactgtgtgctg   4530               ABCC8   53   intron 16 + 9708   tgcacttgccgcctacttat T/G ccagacccaatgattgggtc   4531               ABCC8   54   intron 17 + 651   tatagattaatgaggctctg A/G gtccctcaaaaccttccctc   4532               ABCC8   55   intron 17 + 692   cCCttacctctccaaaaaac A/G cttgagataccctagaggtg   4533               ABCC8   56   intron 17 + 1541   ctcaggatcttcctggagga C/T atggttcactcccatgagag   4534               ABCC8   57   intron 18 + 580   actaagcagatttctaccaa C/T tgcacctccccatccccttg   4535               ABCC8   58   intron 18 + 658   gaacaagcccctgagaatgc C/T ttccgcaccccctactcccg   4536               ABCC8   59   intron 18 + 660   acaagcccctgagaatgcct T/C ccgcaccccctactcccgcc   4537               ABCC8   60   intron 19 + 93   gcccttccatcgatcaccca T/C acccagccatctcactcccc   4538               ABCC8   61   intron 19 + 123   tctcactccccaggtgctta T/C ctgcactccagcctctccat   4539               ABCC8   62   intron 19 + 219   cataggggagagggcaggaa C/T ggagggaagggagagagccc   4540               ABCC8   63   intron 19 + 845   tagtatttaacctgcccaaa C/T gctgtgtgaagtgctgacct   4541               ABCC8   64   intron 20 + 338   tcccctccacaagcttagac A/G aacaggattctcctgtgact   4542               ABCC8   65   exon 21 + 10   tttggtgacagggcatcaac C/T tgtctggtggtcaacgccag   4543               ABCC8   66   intron 21 + 192   caaggatagcacaaatgacc C/Δ attgcagacttcagatggag   4544               ABCC8   67   intron 23 + 17   gaaggtgggtatatccaggg A/G tggccaagcagccacccctg   4545               ABCC8   68   intron 23 + 67   gttctgctagaacctgaact C/T ataaaggtcttcctgtcctt   4546               ABCC8   69   intron 26 + 268   gtgagcgtctgcacatccaa G/C taaagattgttttctcctcc   4547               ABCC8   70   intron 26 + 308   cgataagtgggtgtaatttg C/T ccatccccacccatgagttc   4548               ABCC8   71   intron 26 + 348   cagctccctgccctcccctc A/G ctctctctccctcagccagc   4549               ABCC8   72   intron 26 + 807   gacagctgctgagtcaggcc G/A agccggcagctgagaaaggc   4550               ABCC8   73   intron 26 + 834   cagctgagaaaggcggcagt G/C gtcagatgggcttgagaaac   4551               ABCC8   74   intron 28 + (118-121)   cctccaaaaaataaaaacaa AAAA/Δ cagaaatgaaggaaatagaa   4552               ABCC8   75   intron 28 + 1348   tggggtaagcggaagacggg G/A ttgaacgctttgagtttggt   4553               ABCC8   76   intron 29 + 1253   ctcttagggatcttgtctaa G/T taaagaagagcagagcaaag   4554               ABCC8   77   intron 29 + 1589   cagatcccagcttcctgtaa A/G cagcctcagatcaggccaaa   4555               ABCC8   78   intron 29 + 2322   gcgcctcacactcctataac G/A cgcacatgccctgatgcaca   4556               ABCC8   79   intron 29 + 2348   atgccctgatgcacacacat T/C ttcaacacgcacttactcta   4557               ABCC8   80   intron 29 + 2418   agacacgtcaccctcccaca C/T gtctccaccctgggggtgtg   4558               ABCC8   81   intron 29 + 2494   tcagtcccctcagacacatg C/A cctctctccacgcagagaca   4559               ABCC8   82   intron 29 + 2735   gcggccaaggagagtgatga C/T ggcagcccaggttgatcaga   4560               ABCC8   83   intron 30 + 386   gctcctggggctccagcctt C/T gcagcccttgtgtgtgtctg   4561               ABCC8   84   intron 33 + 93   ggcttcgcagtcacctcgtg G/T ccctccagggccgaggcctc   4562               ABCC8   85   intron 33 + 358   agggacctgggggcagacag C/T gaggccacccttgtattgag   4563               ABCC8   86   intron 38 + 54   cccagggacaggactggcct G/C ttgtggccgtcatcagtgca   4564               ABCC8   87   intron 38 + 466   aggacattctggccacatgc C/Δ tcatcctcctcctccaagcc   4565               ABCC8   88   intron 38 + 529   tggcccccaccgcgggtggt A/G ttcccaccatcctgacccgc   4566               ABCC9   1   intron 3 + 38   tgttgtttctccttaaagag C/A tatttgtttttccccccaaa   4567               ABCC9   2   intron 3 + 305   gctggccttctggcttgcag T/A agttgtattttaagaatcag   4568               ABCC9   3   intron 3 + 320   tgcagaagttgtattttaag A/G atcagagctcttgtgaggag   4569               ABCC9   4   intron 3 + 631   ttctgtggaaatcagaggct G/C tctaaaatattcctaatttt   4570               ABCC9   5   intron 3 + 8644   tggacgcactcaacattttc A/G agttattactccttcaactc   4571               ABCC9   6   intron 4 + 757   aggatatcatgaaacactga A/C tcttagtaaaaactatcttt   4572               ABCC9   7   intron 4 + 1022   tactgtggaatttttcttgc A/C acagagatatgtatttttca   4573               ABCC9   8   intron 5 − 1217   cagtggtagatgtgttttct A/G ttgccatcatctacaaatat   4574               ABCC9   9   intron 6 + (100-106)   tatgagttgttcaaataggc (T) 8-9 cagagaattgaatgctttct   4575               ABCC9   10   intron 6 + 1347   tcagtcgtattcctactaaa A/Δ caaaattttgtaagttatgt   4576               ABCC9   11   intron 6 + 1618   ctttttatttgctgcttacc G/A ttttactaaggttggatata   4577               ABCC9   12   intron 6 + 1835   cttttaataaatgcaaactg C/T acacctggtctataaaaaga   4578               ABCC9   13   intron 7 + 407   cctatagaatttttcttttc T/G tttttctcaaaaaaattaaa   4579               ABCC9   14   intron 7 + 423   tttcttttttCtcaaaaaaa C/T taaatgtttgttatttattt   4580               ABCC9   15   intron 8 + 743   ttctgtagatgaagcttaag A/T gctagatcttatttgaaaaa   4581               ABCC9   16   intron 8 + 850   tttttaacttattgtttgcc T/G tttcattttttaatagaaaa   4582               ABCC9   17   intron 9 + 585   cgaatttgctgcttttagag A/T aatctttgcaaataataaaa   4583               ABCC9   18   intron 9 + 1394   atttttcttcttgtaagtat G/C agtgatagagctgactgcag   4584               ABCC9   19   intron 12 + 1167   atttgtaagacttttaaaat G/A agataattgtgctggtgtct   4585               ABCC9   20   intron 12 + 1195   tgtgctggtgtctatatctt A/G ctgagaaaactagaatttat   4586               ABCC9   21   intron 12 + 2123   ataagtgctctcccagtgtt G/A attggacttagagcattttc   4587               ABCC9   22   intron 12 + (2653-2656)   caaaacagaataatgaaaag TAAC/Δ tattatctaaaataataaaa   4588               ABCC9   23   intron 13 + (3043-3044)   aagtcaaaatatattagtat   4589               ABCC9   23   intron 13 + (3043-3044)   aagtcaaaatatattagtat   4590               ABCC9   23   intron 13 + (3043-3044)   aagtcaaaatatattagtat   4591               ABCC9   24   intron 14 + 85   ttctgtgaaagtgtcccaaa T/A tgtgcctttaaattgttttt   4592               ABCC9   25   intron 14 + 275   agtgtcacatgtattttttc T/C ggtattcctatgtttatcaa   4593               ABCC9   26   intron 14 + 453   ctcatttcaaacttggctat T/C tggactctccccaggcattg   4594               ABCC9   27   intron 14 + 3709   atcccctagtgatgtacact G/A agcttgcctccatctttcct   4595               ABCC9   28   intron 14 + 3813   ctgatttatatattagctga C/T tttccaagttcagacatcta   4596               ABCC9   29   intron 14 + 4000   ttcttttacttcaatgtagc A/Δ ccaaatcagaaggtgacatt   4597               ABCC9   30   intron 16 + 1466   atcccactggatttaattac A/C ttgtgtagcttgtacaacca   4598               ABCC9   31   intron 16 + 5357   attttggaagagaaattata T/G aaccttccacaactgaattt   4599               ABCC9   32   intron 17 + 1368   aatcctggtgtttttttttt T/Δ ctttttcatttttcagtagg   4600               ABCC9   33   intron 20 + 98   aagtaactcaaggaaagatg G/A tttaacttgtgaaatcgtaa   4601               ABCC9   34   intron 22 + 28   ctcatagttcagaagagttc A/C gagcccaattcagaagagtt   4602               ABCC9   35   intron 22 + 194   tgaacctataaaattctaat G/Δ ccatctttggatgaggtgca   4603               ABCC9   36   intron 22 + 1370   ccagggacaaaagaagatga C/T gtaaacttaaggattgggac   4604               ABCC9   37   intron 22 + 1487   agcaagccaggaagaaagtc C/G attaagttgtatttagaaat   4605               ABCC9   38   intron 23 + (455-462)   atagccatgaaggataagaa AATTAGAA/Δ   4606                   tgccatttgttatgtttcag               ABCC9   39   intron 24 + (460-465)   aactctttctcttcatctgc T/TTAAAA/TTTTAA   4607                   gcaagccttgaaggagagtg               ABCC9   40   intron 24 + 595   gcatgcaaaataatgaagaa A/G acaatcttgtctgacattga   4608               ABCC9   41   intron 28 − 926   aaatatttcagaatttgggg G/A tgtagagcatttgccgtcat   4609               ABCC9   42   intron 29 + 2692   cttgtaagtctttttttttt T/Δ aaagtaatgaaaatttctaa   4610               ABCC9   43   intron 29 + 5464   agacaacactgcttttttgt G/A tgttcacaattcaacgacag   4611               ABCC9   44   intron 29 − 1830   sectggctgaaaggaaaaaa A/T tcatattgctgtaaatattt   4612               ABCC9   45   intron 31 + 102   tgcttttgctttccacttca G/A tatccagaeaactctctcat   4613               ABCC9   46   intron 33 + 877   aacatggaactatagtaaat A/G tagtttttttggggttcaga   4614               ABCC9   47   intron 36 + 1281   aatttacacttttttttttt T/Δ gcaggagaatattttgcaaa   4615               ABCC9   48   3′flanking + 197   aatggagctcatgcatgtgt T/G ttcaaatatatacatgcaaa   4616               ABCD1   1   (5′flanking region −1772)   agtcccagggctagggcaca G/A gcaccctcctgcctaactcg   4617               ABCD1   2   (5′untranslated region p31 59)   acaatccttccagccacctg C/T ctcaactgctgccccaggca   4618               ABCD1   3   (intron 1 906)   gggcacaatggcatccatcc C/T ccgaeggcctgtgtgtgctc   4619               ABCD1   4   (intron 1 2924)   gagacctggccccacccaat C/T gtaacctctggctctcggcc   4620               ABCD1   5   (intron 1 3056)   aagcctctctgtgtctgtca C/T cccccgcaggtggagctggc   4621               ABCD1   6   (intron 2 2972)   agaagtttcccttgctttcc G/A tcaagcttggctctgctcga   4622               ABCD1   7   (intron 2 3258)   gcgagacagcacctgcagcc G/A cttcgctccatggctgccat   4623               ABCD1   8   (intron 2 4612)   ggtccttcacaggacattcc C/T accacttcegccacacccca   4824               ABCD1   9   (intron 5 2748)   aatggcctgcgtgctggcct C/T gggcattgggagcctctcaa   4625               ABCD1   10   (intron 6 212)   atctgtgtggggtgtgtgca C/T gggcggcgetgtgagcgtgt   4626               ABCD1   11   (intron 5 2835)   ggcgtcagcggctgttgccc C/Δ tgcaggtggaggaaggcatg   4627               ABCD3   1   (5 flanking region −2834)   acatccctttcttgcctggc A/G gatttgaactctttgagtca   4628               ABCD3   2   (5 flanking region −2118)   tacagaatcacctttgtcaa G/A ccttaagcctttattgaaag   4629               ABCD3   3   (5′untranslated region −40)   gtagccgccgccgccgccgc C/T gccgcgtcccctcgccggct   4630               ABCD3   4   (intron 1 −6763)   atactttgccatttgagata T/C cagtttggagttgatagctg   4631               ABCD3   5   (intron 2 731)   ctttggacctatactagttt C/T cttaggcattgtgcttagaa   4632               ABCD3   6   (intron 2 3551)   accacagtggtctttttttt A/G tatttaaaaaaattattggg   4633               ABCD3   7   (intron 2 5936)   cagaactcacttccttattc A/G gtttttagataacattgttt   4634               ABCD3   8   (intron 2 6083)   tggttcttteattttatgat A/G tgtttgttatagctatctta   4835               ABCD3   9   (intron 3 614)   tctcttgtttctgaagtatt A/T tttcattttattttatgtga   4636               ABCD3   10   (intron 3 651)   gtgaaatgctagggtactgc C/T atacagctaccctaaatggt   4637               ABCD3   11   (intron 4 395)   aaagcatttcaaagaatcac G/A ttgagcatgtttattagaag   4638               ABCD3   12   (exon 7 555)   gacaacagaatagctaatcc A/G gaccagctgcttacacaaga   4639               ABCD3   13   (intron 7 124)   aaatatttaatgcttttata A/G gaaaattagagttgttgtaa   4640               ABCD3   14   (intron 7 838)   ggtcacagttgacctcgata T/C acagttttgagacaaaagaa   4641               A8CD3   15   (intron 8 1150)   aatcttgaatacttactagc A/C catatattgtgctagatagt   4842               ABCD3   16   (intron 9 1493)   tcatcttcttccataggctt A/G ggtgtggagaggagatagaa   4643               ABCD3   17   (intron 13 1534)   tctgttgagttggggttcct A/G tggaaacctcttccttcatc   4644               ABCD3   18   (intron 16 4310)   gaaaagtgaatgctgagtag G/T ttagccaggcttgatttaga   4645               ABCD3   19   (intron 20 273)   ttctaaaagttcagagaaac T/A ctgtagctcattattcctgg   4646               ABCD3   20   (intron 20 1664)   ctcaeaagaaaaaaaaaaaa A/C aaaaaacacatgatccataa   4647               ABCD3   21   (intron 20 6693)   cttaaggtttgtgttttact C/T tgagcaattagtatttccca   4648               ABCD3   22   (intron 21 7171)   atcataaacagagaaataat A/G tcttaaatgagctctgaaaa   4649               ABCD3   23   (intron 22 1220)   ctagaaatcaaaggcattta A/G aatatagccaagcctttatg   4650               ABCD3   24   (intron 22 1358)   agtagcaaaataatcatcac G/A ccagtgatcatgtgaaggag   4651               ABCD3   25   (intron 4 4448-4461)   aactgttttactttttaggg   4652               ABCD3   26   (intron 5 268)   gttttttggcattttttttt T/A aaccttcagtccaggttttc   4653               ABCD3   27   (intron 5 891-902)   aacaaatgcaaatatagtgt   4654               ABCD3   28   (intron 7 1226-1227)   gggaatggggggtgtatcta (T) tacaactttccatgtaattt   4655               ABCD3   28   (intron 7 1226-1227)   gggaatggggggtgtatcta     tacaactttccatgtaattt   4656               ABCD3   29   (intron 8 1129)   cagatttacttttttttttt T/Δ aatcttgaatacttcctagc   4657               ABCD3   30   (intron 13 1595-1596)   tgaaacataataaagcacac (TA) gttatcattaatactttatg   4658               ABCD3   30   (intron 13 1595-1596)   tgaaacataataaagcacac     gttatcattaatactttatg   4659               ABCD3   31   (intron 16 7337-7351)   caggttcgatctggggctaa   4660               ABCD3   32   (intron 18 12)   gttcctcaggtaagacctag C/Δ ttgagttatctttgatctaa   4661               ABCD3   33   (intron 20 1652-1670)   cacatgatccataatagagg   4662               ABCD3   34   (intron 20 2262-2273)   accttaaattagcaactatc   4663               ABCD3   35   (3′untranslated region   taaaataaagttgagcttag (T) 8-9 aaaaaaaaaacaaagcaaca   4664               2072-2079)               ABCD3   36   3′untranslated region   gttgagcttagttttttttt (A) 10-11   4665               2080-2091)   caaagcaacaaattaactag               ABCD3   37   (3′untranslated region   acttattttctgttcagatt (A) 16-19   4666               3349-3368)   ctcagatatcctatacaacc               ABCD4   1   (intron 1 276)   tggcattctttttttgaaaa G/A aagaacctcaggtgcacaaa   4667               ABCD4   2   (intron 1 329)   cttctcagttcttgacaccc T/C gtgggccaatgcaaggctcc   4668               ABCD4   3   (intron 3 171)   ttaagcacgttgatcttgct A/G ttggcccacgtgggactgat   4669               ABCD4   4   (intron 3 449)   cctacccctcattcagtagg G/A gggctaccacctgctcactc   4670               ABCD4   5   (intron 5 273)   gacaggggctacctgagagg G/T aacaggagtcagggctgagg   4671               ABCD4   6   (intron 7 240)   tagtcttagtggcctagcgt G/A gggcctgaaattgtcaaatg   4672               ABCD4   7   (intron 7 267)   gaaattgtcaaatgaatgaa T/C gcctcatcctcttgctggtg   4673               ABCD4   8   (coding region 910   tctatggagacctgagtccc G/A cagagcttagcaccctggtc   4674               (Ala 304 Thr))               ABCD4   9   (coding region 981   atcagctgcttcacccagct C/A atcgacctgtccacgacgct   4675               (Leu 327 Leu)                A8CD4   10   (coding region 1102   gcgagatcctgggcgagagc G/A agtggggcttggacacgtga   4676               (Glu 367 Lys))               ABCD4   11   (intron 13 191)   tggattgggcccactactca T/C agcagctcctgaggcaggta   4677               ABCD4   12   (intron 13 262)   acgcgtatgtcaaacaccca A/G ggtcggattctggggcccct   4678               ABCD4   13   (intron 17 848)   cctctgctcctctggcccat C/G cttctccctgaggcagggct   4679               ABCD4   14   (intron 17 946)   gtgggaggagaagcagcggc G/A gcagagggcagggctttgat   4680               ABCD4   15   (intron 18 41)   ggcctgaggaggagaaagaa C/T ccaaaggctcagcctggcca   4681               ABCD4   16   (3′untranslated region 2001)   gcccaggtctaggtttctgt G/A ggggacactgaatctcccag   4682               ABCG1   1   (5′flanking region −386)   gcaataatcattggctagag G/A tattgtgatatgatgtcatt   4683               ABCG1   2   (intron 1 199)   caccaaatattggtgagctg C/T ctggatttgggagatgcagt   4684               ABCG1   3   (intron 1 291)   acttggggtccggtgtgagg A/C tcctgcactcggtttctgtg   4685               ABCG1   4   (intron 1 318)   actcggtttctgtgatggtg T/A gtgcaggggagtcacaagtt   4686               ABCG1   5   (intron 1 468)   ggtcccaacgggtttctaga T/C ccctccagagaagcctttgg   4687               ABCG1   6   (intron 2 434)   ctgggtacaggttttgttcc G/A gttggtctgctattgagtat   4688               ABCG1   7   (intron 3 1839)   ttaaaatgagttgtttttct C/G ctaaagcctttagggagttg   4689               ABCG1   8   (intron 3 3076)   tttgtcacttccttcgtctc C/T ggctctacttccctgggggt   4690               ABCG1   9   (intron 3 3352)   gttccttggaggaaacgtgg G/A gtacacagtggttccagtta   4691               ABCG1   10   (intron 3 8030)   acagtgaagcacaaggcagc C/T gaagacacagcaggcaggtc   4692               ABCG1   11   (intron 3 8066)   aggtcaggtctgtgtgcaca T/C tggcaggctgc a/g tgcagacc   4693               ABCG1   12   (intron 3 8092)   ggctgc a/g tgcagaccagcct C/T ggcccaggtggagaagcaga   4694               ABCG1   13   (intron 3 8285)   ctggacatgtgactcccctg C/T acccaccctcacaagcacca   4695               ABCG1   14   (intron 3 8860)   cagggtgatagggagtccaa T/C tggacacaggttcagtttgc   4696               ABCG1   15   (intron 4 2319)   gggggtgaacagagggcaga G/A gcctgggcatcttcactcag   4697               ABCG1   16   (intron 4 2557)   gaagggaagaagcagcagca A/G gaaagaagccccctggccct   4698               ABCG1   17   (intron 5 139)   tgacccagggcaccctagag T/A ggcgcccggctccgatcgct   4699               ABCG1   18   (intron 5 177)   gctgcccctgcccctccgcc A/C gggccacctggagcctcggg   4700               ABCG1   19   (intron 6 13)   cagttactgtaagtgctgtt T/C ccaggggtggtca g/a gaatct   4701               ABCG1   20   (intron 6 27)   gctgtt t/c ccaggggtggtca G/A gaatctccctttctggtttt   4702               ABCG1   21   (intron 6 1191)   gctaagcagagttaggcccc G/A gctagtccttgaatgagaga   4703               ABCG1   22   (intron 6 1449)   atgctggagcccctgagttc G/A gtgggcatacaaggggtggc   4704               ABCG1   23   (intron 6 2282)   ctcgcatcacgcagttttca C/T gatcctattaattgggtgag   4705               ABCG1   24   (intron 6 3853)   cctgggcttcagcaggggcc T/C cacacctgcaatgggtg c/t ct   4706               ABCG1   25   (intron 6 3871)   cc t/c cacacctgcaatgggtg C/T ctggggagagggtgcagatg   4707               ABCG1   26   (intron 6 4175)   tccaaagcccagatttggtg T/C ttttggggctcttttggaat   4708               ABCG1   27   (intron 7 4)   ctggtggaggaagaaaggta G/A ggagggcggctgctttgtgt   4709               ABCG1   28   (intron 7 576)   agctcaggaggtgtctggaa C/T gccacacagtgcaggagttt   4710               ABCG1   29   (intron 7 1426)   aattctccttctcaacttaa A/G gaaatattttatagaaaaat   4711               ABCG1   30   (intron 7 2342)   agagcctgcaatgggccgcc G/A agggacctgcccatgactca   4712               ABCG1   31   (intron 7 2399)   gaggggttgacagacaggat A/G tgtctg c/g tgtgttccagctg   4713               ABCG1   32   (intron 7 2406)   tgacagacaggat a/g tgtctg C/G tgtgttccagctgctggttt   4714               ABCG1   33   (intron 7 2911)   ccctctctgtgcccactgtt G/C tcccaacaccagcctgttct   4715               ABCG1   34   (intron 7 4363)   tataatagattcctagcaga A/G aacataattgtgagaggaac   4716               ABCG1   35   (intron 7 4752)   gctttcagagcccattcaca C/T aagggtctcattttattagg   4717               ABCG1   36   (intron 7 5026)   ccaggtctgtgggatttcag G/A ccaaaaaggagcgtagcaag   4718               ABCG1   37   (intron 7 5532)   gggttaaatattccgggcag C/T gccaagtcagattatctgta   4719               ABCG1   38   (intron 7 5681)   gctaaagtgcatggaaggca T/C catgaataaatcctttcagg   4720               ABCG1   39   (intron 7 9243)   gcctgagagcgctggcagta G/A gaagggtcgccagtgtggac   4721               ABCG1   40   (intron 7 11371)   gggctctcttggagcccttt T/G tctctcccagccctgcgtct   4722               ABCG1   41   (intron 7 12420)   gggatttcgaatctcaacac T/C ctgagctctgcgctttcccc   4723               ABCG1   42   (intron 7 12985)   ctattggcaggtcgtgaaca T/C tgcccttggatttgcaaata   4724               ABCG1   43   (intron 7 20041)   acatggccggcttcccttct T/C cctc g/a gaatggcctggaatt   4725               ABCG1   44   (intron 7 20046)   gccggcttcccttct t/c cctc G/A gaatggcctggaattcgatc   4726               ABCG1   45   (intron 7 21058)   acaagacttagaatttgacc G/A tgattttaaaactattctaa   4727               ABCG1   46   (intron 7 26189)   ttcttggatgtggccatgca C/T gggggcaagggtttgatgag   4728               ABCG1   47   (intron 7 27453)   atcatgtggtttgggggaaa G/C ctgggaccccacttggtaca   4729               ABCG1   48   (intron 7 29810)   attgtttctcctggttttgt T/C tgtgttgactttccctttaa   4730               ABCG1   49   (intron 10 2116)   aaacagggcttgagtcctcc G/A taagggacaggagaccttcc   4731               ABCG1   50   (intron 13 1196)   tgaaaagaaaatggatgagt G/A gaa a/c ccaaaagagagaaaat   4732               ABCG1   51   (intron 13 1200)   aagaaaatggatgagt g/a gaa A/C ccaaaagagagaaaatgtgg   4733               ABCG1   52   (intron 13 2041)   aagcagaggcttttccaccc G/A gagactcaagaagctgctcc   4734               ABCG1   53   (intron 13 2490)   gtggtgaagtagagctgagc A/T cacgggggagccctccatcc   4735               ABCG1   54   (intron 13 2822)   cagcaggctccgtgctgaag T/C cacagcaagccaggcccttg   4736               ABCG1   55   (intron 13 2850)   agccaggcccttggcctgcc G/A gagctggaagacccagaaca   4737               ABCG1   56   (intron 13 2919)   gcctcccaggagtagctaca C/T gggacccgaaggcagatggc   4738               ABCG1   57   (intron 13 3506)   ggcagcctgggctgccgaga T/C cctccctggagcgcccgccg   4739               ABCG1   58   (intron 13 3538)   cgcccgccgggaagccccag G/A ggggctggagctaca a/g gtgg   4740               ABCG1   59   (intron 13 3554)   ccag g/a ggggctggagctaca A/G gtggccttgcaggttttttg   4741               ABCG1   60   (intron 13 3721)   ccagctcatgggcaggggtg C/T ggagggaaaggcacccacag   4742               ABCG1   61   (intron 13 3921)   gaagaccagcagtcgatgcc A/G gctgggaagagggctctgcc   4743               ABCG1   62   (intron 13 3979)   acccaccagccttttccaga C/T agccttccagaagctgtttc   4744               ABCG1   63   (intron 13 4291)   gagccgctggagtagggtcc G/A cttgctatggctcccagggg   4745               ABCG1   64   (intron 13 4968)   tattgactggacaccttctc C/T gtatggggcactgggctagg   4746               ABCG1   65   (intron 16 672)   atcagtaacgggtcactaac G/A gatgctgctgagtggggcag   4747               ABCG1   66   (intron 16 891)   tggcccactgttgagggtgt G/A ggtgaccagaggggcctgga   4748               ABCG1   67   (intron 18 1616)   ctggaggagaagacaggata A/C agtctaagacgtg c/t tgtcac   4749               ABCG1   68   (intron 18 1630)   aggata a/c agtctaagacgtg C/T tgtcacagagttcagggtcc   4750               ABCG1   69   (intron 18 1674)   gcttccaaaggccgcatccg G/T gttgttctctgagc c/t gagga   4751               ABCG1   70   (intron 18 1689)   atccg g/t gctgttctctgagc C/T gaggacggctttgcgaacgc   4752               ABCG1   71   (intron 19 446)   tggctgacagtgaacacagc G/A gctgcttctccagaacttta   4753               ABCG1   72   (intron 22 243)   acccggagagccatggcagg A/C ccaagtgttctggacgttgc   4754               ABCG1   73   (3′flanking region 1257)   atggggcccacagccctgcc T/C cagaagcagctttggtctcg   4755               ABCG1   74   (3′flanking region 1438)   gggggaagagcttgggaacc A/G tgagggctgttaggctgcaa   4756               ABCG1   75   (3′flanking region 1518)   tgcagggtgaactggagtag G/C tgaggattctgcagttgacg   4757               ABCG1   76   (intron 3 3754-3755)   ctccaccctgcacctccctg (G) cctccttgatttccctcatc   4758               ABCG1   76   (intron 3 3754-3755)   ctccaccctgcacctccctg     cctccttgatttccctcatc   4759               ABCG1   77   (intron 3 7848-7854)   cagtttccagactttggggg (A) 6-7 tcccataagctgtcatactt   4760               ABCG1   78   (intron 4 190-191)   tgtcgagagctccccttgcc (C) tggttgatcctcagggttct   4761               ABCG1   78   (intron 4 190-191)   tgtcgagagctccccttgcc     tggttgatcctcagggttct   4762               ABCG1   79   (intron 4 198-206)   agctccccttgcctggttga TCCTCAGGG/Δ   4763                   ttctacttagaatgcctcga               ABCG1   80   (5′untranslated region   cgcagctcaagcctcgtccc (CGC) 8-10   4764               (−713) − (−741)   ccccggggcatggcctgtct               ABCG1   81   (intron 6 376-387)   tcttgccttgagctcaagag (A) 10-12   4765                   tagccaggtttctgcgcatg               ABCG1   82   (intron 7 19944-19945)   ctgatgaggaggggaggggg   4766                   (CACCAGGCAGCAGACTCTGATGAGGAGGGGAGGGGG)                   caccaggcagcagactctga               ABCG1   82   (intron 7 19944-19945)   ctgatgaggaggggaggggg   4767                   caccaggcagcagactctga               ABCG1   83   (intron 7 25136-25137)   catgaacttgcctgaccatc (G) ccctgtgaggagctagggct   4768               ABCG1   83   (intron 7 25136-25137)   catgcacttgcctgaccata     ccctgtgaggagctagggct   4769               ABCG2   1   (intron 1 152)   tcatttgaaagtgggtatgc G/A gtttaaaactgacagttcaa   4770               ABCG2   2   (intron 1 614)   agctagtcataaataaatac G/A ccagagtagtaaggaagaga   4771               ABCG2   3   (intron 1 10002)   cctcatgaatggtatacatg T/A cccaacatatctctttcgat   4772               ABCG2   4   (intron 1 10123)   acagtggtccctttgggtgc C/A tatccccaaatccctgcata   4773               ABCG2   5   (intron 1 10768)   ataggaataattgagaacag C/A gtctgaagaactctgcagga   4774               ABCG2   6   (intron 1 10791)   ctgaagaactctgcaggaaa T/C g/a aeaetagttccctgctttt   4775               ABCG2   7   (intron 1 10792)   tgaagaactctgcaggaaa t/c C/A aaaatagttccctgctttta   4776               ABCG2   8   (intron 1 14183)   tcacttaaggctttgcaggg T/G gtctaggacacagaaagaga   4777               ABCG2   9   (intron 1 14934)   aacgtgtctttaaaatttcc A/G tcttgagtcagtgagctatt   4778               ABCG2   10   (intron 1 14955)   tcttgagtcagtgagctatt G/T aaattcaagcaataagttat   4779               ABCG2   11   (intron 1 17251)   ctgtttgggaacagcaactc A/C atcataggcagagagaaagt   4780               ABCG2   12   (intron 1 17347)   atttcaaacctgtttcacaa C/A ttgttaagctcatcttaagg   4781               ABCG2   13   (intron 1 17626)   gcaggtgcataacaacttcc T/G acataaagtctggagctata   4782               ABCG2   14   (intron 1 18369)   ctattgcttttctgtctgca G/T aaagataaaaactctccaga   4783               ABCG2   15   (coding region 34   atgtcgeagtttctatccca C/A tgtcacaaggaaacaccaat   4784               (Val 12 Met))               ABCG2   16   (intron 2 36)   tgtaaaaagacagcttttta A/C tttacctacagtgaacctca   4785               ABCG2   17   (intron 2 4230)   caaccctaaattggagggcc C/T gggcgtggtgattgagaaag   4786               ABCG2   18   (intron 24518)   gttgacagacttttatagtg A/C gggacactgacctgcatgca   4787               ABCG2   19   (intron 26278)   atgtargtaccacgtcttca T/C attcttaaaggatgacccta   4788               ABCG2   20   (intron 310)   ggcaaatcttcgtgagtata A/G gagagtataagtaagcgttt   4789               ABCG2   21   (coding region 421   tgacggtgagagaaaactta C/A agttctcagcagctcttcgg   4790               (Gln 141 Lye))               ABCG2   22   (intron 6 3203)   tcctattctgtrtraataaa A/G gcattgaatttaggtttgct   4791               ABCG2   23   (intron 6 3287)   gtcaggctgaactagagcaa A/G caatctaaaggcaagaatag   4792               ABCG2   24   (intron 9 5974)   tatactaataaatggtgtgt A/T taagtttttatctctaattg   4793               ABCG2   25   (intron 10 1908)   gacgcttatgtgcagcctat G/T ttgatgtctggaaaggctga   4794               ABCG2   28   (intron 10 2094)   ccctgagggctgaggtatct G/A gattatttccagacttgcta   4795               ABCG2   27   (intron 11 20)   tgtgagtaggtctttgttct A/G ggaacggggctgtccagcag   4798               ABCG2   28   (intron 11 1447)   tgttcttcaaggaaagcccc C/T gtcaaagaaggaaaagaagc   4797               ABCG2   29   (intron 12 49)   atgtctttagtcttgcctat G/T ggtgaagtcagttgcacctt   4798               ABCG2   30   (intron 12 1586)   tatgcagttacatggacaga C/T acaacattggagaccgaggg   4799               ABCG2   31   (intron 13 40)   gctctgataaggaartgttt C/T tttccttcatttcttcctgc   4800               ABCG2   32   (intron 13 1823)   tractcaagcaggcctgact C/T ttagtatttgctttttgtag   4801               ABCG2   33   (intron 14 497)   ccaargaaaacaaacaagaa T/C gaaagattgtcactgtaaat   4802               ABCG2   34   (intron 14 815)   taactctttggaaactrctt A/G aaatttaaaactgtttacct   4803               ABCG2   35   (intron 15 110)   ccaggggcactgaatttttc C/T gagcctacgttttctcatcc   4804               ABCG2   36   (intron 15 566)   gccgcaragtcatgtgttgt T/A gtttttaaattaacttggaa   4805               ABCG2   37   (intron 15 639)   aacaagaaacacttgaataa G/A ttgagaaaaaaccccgtttt   4806               ABCG2   38   (intron 15 1197)   tgaggagctgggattacagg C/T gcccaccaccacacctggct   4807               ABCG2   39   (5′flanking region   gttgggatggctacactcac TCAC/Δ aaagcctgatggcccgtttc   4808           (−998) − (−995)               ABCG2   40   (intron 13 405)   ctgctagtttattttttttt T/Δ aacatttttaatttatgttt   4809               ABCG2   41   (intron 13 692-702)   tcaatatgtttctgcttatc (T) 9-11 aatggttacttaatcctaat   4810               ABCG2   42   (intron 15 645-650)   aaacacttgaataa G/A ttgag (A) 7-8   4811                   ccccgttttcacataatgtt               ABCG4   1   (intron 1 84)   ggcctgggtgtcccatgttc G/A gaaagtcctgcaccagtggg   4812               ABCG4   2   (intron 2 77)   gaacacagaaggtattctga A/G aggocattgacccccatcct   4813               ABCG4   3   (coding region 679   tggtgtccctcatgaagtcc C/T tggcacaggggggccgtacc   4814               (Leo 227Leu))               ABCG4   4   (intron 7 95)   ggcctcctaggggtagagat C/T tcaccgtcgcctgccttccc   4915               ABCG4   5   (intron 7 158)   cttgccctcgggaagtgagt G/A tgaatctaaactgagctctc   4816               ABCG4   6   (intron 8 106)   ccccagaggcatrgcaacca A/G tgggtgctaggaagaaccta   4817               ABCG4   7   (intron 11 1120)   acgagataagtga t/c ggtcat A/T tggccagggaggaaggggac   4818               ABCG4   8   (intron 11 1173)   gggggacagcttgaacaaga A/G tgtggaggcaggatggacac   4819               ABCG4   9   (3′untranslated region 2758)   gagtgacaggcacatacatg A/C gaacaggccatctcagccct   4820               ABCG5   1   (intron 3 40)   ccctggcccccccgcccgcc C/A cgggggcttaggctacactg   4821               ABCG5   2   (intron 4 841)   gcttggaggcatcttgaatg C/T gcctcatccaaactggactg   4822               ABCG5   3   (intron 4 1145)   gagcaaatccagcccacagc G/A tgtaaaat c/a ctgataagtaa   4923               ABCG5   4   (intron 4 1154)   cagcccacagc g/a tgtaaaat C/A ctgataagtaattcagtggg   4824               ABCG5   5   (intron 4 1690)   acagagatgagaaggaggct T/C gggaatctaccctggctggt   4825               ABCG5   6   (intron 4 1806)   tcttttgttccagaatatat T/C tatatctagtttatttatgc   4826               ABCG5   7   (intron 4 1878)   atttcagatatgtccattct C/T rgggtgggtcaaagctacat   4827               ABCG5   8   (intron 4 2092)   gggtgtctggaaacaaaact C/T attaccatatgagtatcttc   4828               ABCG5   9   (intron 4 2108)   tccccctggggtttctgcag A/T tagaggtaatcagtacaggg   4829               ABCG5   10   (intron 4 2230)   agcttcttgattagaaattc G/A gtaaagaattttttttagtc   4830               ABCG5   11   (intron 4 2318)   ggagttacaggctttaagta G/C agcgaagagaattggaagaa   4831               ABCG5   12   (intron 4 2367)   ttaaatgtggctgggggtta C/T aaattgggtccccattaaag   4832               ABCG5   13   (intron 4 2464)   gattatatgtctttgatgtg A/G actcacactgagattytacc   4833               ABCG5   14   (intron 4 2586)   aaagcatttatgataataaa G/A ttrcaaaacccaaacactta   4834               ABCG5   15   (intron 6 1318)   cagagacatrcaaagtgcat C/T gctacccttgtgatcacaca   4835               ABCG5   16   (intron 9 164)   caactarrgagtraccaaca T/C gttaatatgaatgagctcac   4836               ABCG5   17   (intron 9 365)   gtaccgttagcttctctttg A/G agctgattttaggacagcca   4837               ABCG5   18   (intron 10 64)   tcatggagctagtgggactc G/A tgcagggagagctccagggt   4838               ABCG5   19   (intron 10 2406)   tcaacaagcctgcttactgc G/A gttagttgtgaccattgtct   4839               ABCG5   20   (intron 10 2442)   tgtctaagtaatttaatgtt T/G tcctatgagagctgaaggag   4840               ABCG5   21   (intron 11 4150)   aaggccctgaaatggctgtt G/T ctggctattgttccgagctc   4841               ABCG5   22   (intron 11 4623)   caaacagaaagaattttata C/T cttttgattgacagaaaata   4842               ABCG5   23   (intron 11 4737)   attttcacaatgaatgttgg T/G tcggtctctccttccttrtt   4843               ABCG5   24   (intron 11 4791)   ggttagttctaactttctac G/A ttggtaccttcaactttctg   4844               ABCG5   25   (3′untranslated region 2578)   tgaggattaaaataaaaaac C/T gtaggaatgggctcaacagt   4845               ABCG5   26   (3′flanking region 1560)   catagcactcagcaagaaac G/C tgtgctaaagactgaggttc   4846               ABCG5   27   (intron 4 1078-1080)   gggcacagctccctgggagc AGG/Δ agaactcccgatagcagagt   4847               ABCG5   28   (intron 10 2321-2327)   agcgggttgggtgagccctt TAACATT/Δ   4848                   aggtaggtgtggtgttggct               ABCG5   29   (intron 11 422-433)   ggaattaagactagtcagac (A) 10-12   4849                   gcctgcaggataaaagactg               ABCG5   30   (intron 11 3988-4004)   ctttttttgtagtctggtcc (T) 15-17   4890                   cttttcctgttcttactctg               ABCG5   31   (3′untranslated region   taccctaaaacttaaagtat (A) 11-13   4891                   2719-2731)                   cctaccgaaaaaaaaaaaaa               ABCG8   1   (5 untranslated region −19)   aagagagctgcagcccaggg G/T cacagacctgtgggccccat   4852               ABCG8   2   (intron 1 898)   cctttgactgaattcgggat A/G tggcaggatttgaagcagga   4853               ABCG8   3   (intron 1 1548)   cctcacaacctgaaaggcca G/T tgtaaattgagaaattcta   4854               ABCG8   4   (intron 1 1611)   tggtacgggggagccacttc C/T agcccgagccacaacctgtc   4855               ABCG8   5   (intron 1 3245)   tgggacaatgaagcaatgtg T/C acagtgacagcggagagggc   4858               ABCG8   8   (intron 1 3430)   gggttgaggtgggaatggaa A/C tctggagttctactcactgg   4857               ABCG8   7   (intron 1 3509)   tacacaaatcagcttaaaga T/A ctctcatgtacacaccacca   4858               ABCG8   8   (intron 1 3980)   gaaaataaaccctggtcaga C/T gcttgaggtcagcctccctc   4859               ABCG8   9   (intron 1 4123)   aagggtgttctgggctcccc G/A taagtgtttgrrgggtgcat   4880               ABCG8   10   (intron 1 5354)   cagcttctaaaggagcccct A/C atctctcctgtct t/c ccacag   4861               ABCG8   11   (intron 1 5368)   gcccct a/c atctctcctgtct T/C ccacagggcctccaggatag   4882               ABCG8   12   (coding region 161   ggaggtcagagacctcaact G/A ccaggtagaggcacgcctgg   4863               (Cys 54 Tyr))               ABCG8   13   (intron 2 86)   gaaataaaagggtgggccca C/A cttgcaggccctctgccc c/g c   4864               ABCG8   14   (intron 2 105)   a c/a cttgcaggccdtctgccc C/G caaggacagagtccagtcca   4865               ABCG8   15   (intron 4 43)   gacccccaggtccaagaagc C/T acagtgtccatgccccgctc   4866               ABCG8   16   (intron 6 1035)   caggaggacaggccgcccct C/T gccctctgtactcacattct   4887               ABCG8   17   (intron 8 1085)   cacagaaaggrcacctccct C/A cctgtgctcaggtggcagcc   4868               ABCG8   18   (intron 6 1184)   gcacctgccgacctggccat C/T ggggaataatttaaagtaac   4889               ABCG8   19   (coding region 1199   tggggcggtgcagcagttta C/A gacgctgatccggtaattat   4870               (Thr 400 Lye))               ABCG8   20   (intron 8 137)   gaaaaaaacagcatccagca G/A ggcgttggtggcttatgcct   4871               ADCG8   21   (intron 9 412)   ttctcttttcctttccctta T/C tttttaggttactcagagag   4872               ABCG8   22   (intron 10 343)   aggaagcagaggttcagaga G/A gctacgtggctcrccaaggc   4873               ABCG8   23   (intron 10 614)   cttttaaacgtttataataa T/C ggcagcgaaggtgctggctt   4874               ABCG8   24   (coding region 1695   gcctccttcttcagcaatgc C/T ctctacaactccttctacct   4875               (Ala 565 Ala))               ABCG8   25   (intron 11 82)   tgctttcatctggagatgga C/T acttatcacttagatccaac   4876               ABCG8   26   (intron 1 2882-2893)   tctcttagaaatggataaga (T) 11-13   4877                   gacagagtctcacgctgtgg               ABCG8   27   (intron 1 3654)   tttatctttcccatttttt T/Δ ctgtataatttgggtcttt   4878               ABCG8   28   (intron 1 5045)   tcagagcacagaggttttt T/Δ atagaactctctccggtcca   4879               ABCG8   29   (intron 9 292-302)   tggctttactgtgcctattt (A) 10-12   4880                   tgagagacctgggcaatatg               ABCG8   30   (intron 9 417-418)   tttcctttccctta t/c ttttt (T) aggttactcagagagggcaa   4881               ABCG8   30   (intron 9 417-418)   tttcctttccctta t/c ttttt   4882                   aggttactcagagagggcaa               ABCG8   31   (intron 10 28-34)   ggcagggttgagagcaagtg (C) 7-9 acccaccagggtgggggtaa   4883               ABCG8   32   (3′untranslated region 2118)   tcctggggacagtgaggaca A/Δ tgaccctacagatgctcagc   4884               ABCE1   1   (5′flanking region −158)   aactcagattctcggcacct C/T cagcagctggcttcgccaac   4885               ABCE1   2   (intron 9 237)   ctgaaattatatgcaaattc C/T gtagctttataggaagcaga   4886               ABCE1   3   (intron 9 4203)   ttgtgtaggaagctgataca T/G taatttgacatatgagatgt   4887               ABCE1   4   (intron 10 1811)   ccaagaaacttcagctttct C/T ttcacttaaatataggaaac   4888               ABCE1   5   (intron 17 2301)   atatccagaaacagatggta T/C gtgcagaacaggttgtacag   4889               ABCE1   6   (3′untranslated region 1810)   tggatgattagactgactct G/C agaatattgataagccatt   4890               ABCE1   7   (intron 1 5349-5363)   tttgtctgggttggttgggg (T) 13-16   4891                   gagactgggtctgactctca               ABCE1   8   (intron 1 5845-5854)   tacatttgtcaaaatttata (T) 9-10 gcagataatcatttcatctc   4892               ABCE1   9   (intron 5 836-851)   taaattcacatgattctgta (T) 14-16   4893                   aggatcctcctgactggcag               ABCE1   10   (intron 8 1153-1169)   tctttcaaacttatatttgc (T) 13-14   4894                   catagtttcatgtttgatga               ABCE1   11   (intron 9 1023-1024)   ttgctctgtttcaaatctct (T) attcatgggccagcagctcg   4895               ABCE1   11   (intron 9 1023-1024)   ttgctctgtttcaaatctct     attcatgggccagcagctcg   4896               ABCE1   12   (intron 9 2339-2346)   agtgtagatggacctcgggg (A) 8-9 ctagttaaggaaaagtaata   4897               ABCE1   13   (intron 9 3213-3221)   ttccaattttccattgttac (T) 8-9 cttgccagattactcctgaa   4898               ABCE1   14   (intron 10 284-299)   tcctctgcattttggcttct GCAGTATTATCTGTAGT/Δ   4899                   atttgtcattttcaaattaa               ABCE1   15   (intron 10 840-853)   ttttttggttctttctttc (T) 13-14   4900                   aatcttggaggaatcttttt               ABCE1   16   (intron 16 1163-1172)   gattagaaatccaggttaaa (T) 9-10 gttttgcacaaaaatattac   4901               ABCE1   17   (intron 16 1372-1382)   taaaatttaatcaaaattga (T) 10-11   4902                   ctcttagtcctcaaaccctt               ABCF1   1   (5′untranslated region −60)   gccagccccatcggggttcc C/T cgccgccggaagcggaaata   4903               ABCF1   2   (intron 1 101)   gcacgagactgaccgggccc C/G tgcgggagttactgcgcatg   4904               ABCF1   3   (intron 20 69)   tgactttaaccgaccacctc C/T ctctcttctcgggcagaaaa   4905               ABCF1   4   (intron 23 35)   agtgtgccctcatccctgct C/A catggggaccaagctgtagt   4906               ABCF1   5   (intron 7 342-354)   acagagcgagactccgtctct (A) 10-14   4907                   gaaaaaaaaaaaaaacattt               ABCF1   6   (intron 7 356-369)   cgtctaaaaaaaaaaaaaag (A) 13-15   4908                   catttcatcagacctgtctt               ABCF1   7   (3′untranslated region 2425)   tcagccggccccgagagtga A/Δ gctttccttcccagaagtct   4909               ABCF1   8   (3′flanking region   attaatttgatcaattgtct (T) aatatgtcgtactctagatt   4910               1067-1068)               ABCF1   8   (3′flanking region   attaatttgatcaattgtct     aatatgtcgtactctagatt   4911               1067-1068)               OAT1   1   (5′untranslated region −127)   gcagctcggactcagctccc G/A gagcaacccagctgcggagg   4912               OAT1   2   (5′untranslated region −20)   gaaggcctcagcccccagcc A/G ctgggctgggcctggcccaa   4913               OAT1   3   (intron 3 150)   caatagaacaaccttttctc G/A ggctcatgccgccctgaccc   4914               OAT1   4   (intron 4 211)   tctctggcttcccccactc A/C gttctccagcctgcctgctc   4915               OAT1   5   (intron 5 33)   gagacttcccatgataacct C/T ccagggcttcacccccaaac   4916               OAT1   6   (intron 8 168)   gaaccagatgcccccagcct C/T gactcagtcccagtctccac   4917               OAT1   7   (intron 1 58-71)   gtacatggagaaattaactg   4918               OAT1   8   (intron 3 1306-1319)   tcaagagtgtggagggggca   4919               OAT2   1   (intron 4 842)   ttgacctccaaaagtgtttg G/A attacaggcatgggccattg   4920               OAT2   2   (intron 5 183)   ccacatccatcattcgagac A/C a/c actcgtctcagctgccatg   4921               OAT2   3   (intron 5 184)   cacatccatcattcgagac a/c A/C actcgtctcagctgccatga   4922               OAT2   4   (coding region 1269   actagactgctagtgtcctc C/T ggtgagcccagtcccatagg   4923               (Ser 423 Ser))               OAT2   5   (3′untranslated region 1792)   ataaatgtgtacatgagtgt A/G tgaacacaaatacataaggt   4924               OAT2   6   (3′flanking region 1386)   tgtagcagcccacatcgcca G/A tgttcacacctgagagagag   4925               OAT3   1   (5′flanking region −463)   ttcctgagaggcaaatcccc T/C tcccctactcgggaggtgcc   4926               OAT3   2   (5′untranslated region −16)   cctgcccacegctctggctc G/A tcttgccccagtgccatgac   4927               OAT3   3   (coding region 153 (Pro 51 Pro))   cctgtccaccactgtcgccc G/A ccccacaatgcctccacagg   4928               OAT3   4   (intron 2 177)   gccccaagacccttggcttc T/C tcccactcagagtccaagca   4929               OAT3   5   (intron 2 6201)   gctcatcctctctggtcctt T/G tgccccagcacaggttcctc   4930               OAT3   6   (intron 3 79)   tctgctccacccgtgccccc G/C caaagaggcacagagctggg   4931               OAT3   7   (coding region 723   tggcgttggctgcagttaac T/A gtgtccattcccttcttcgt   4932               (Thr 241 Thr))       OAT3   8   (intron 5 524)   tcgaagtacaaaggaaagtt T/C aaagagaagcctgagcctgg   4933               OAT3   9   (intron 7 386)   gaccaatgggtttcagactc G/A aagacaaacattctgtttat   4934               OAT3   10   (intron 9 81)   attgtcctgtcctctaccca G/A gggagccctcctttatgaac   4935               OAT3   11   (5′flanking region   tacatttggtccccaggggg (G) aagcggctgctcaggagaga   4936               (−661) − (−660)               OAT3   11   (5′flanking region   tacatttggtccccaggggg     aagcggctgctcaggagaga   4937               (−661) − (−660)               OAT3   12   (intron 8 211-212)   tctgacttggactgggccaa AA/Δ gtctggtggtatctggatag   4938               OATP1   1   (5′flanking region −916)   acagagtcgatgttcaataa G/A tatttgttgtatctgtgaga   4939               OATP1   2   (5′flanking region −843)   tagtgccgcgactatgcctt G/A atgtgtgtgtgtttgggctt   4940               OATP1   3   (5 flanking region −526)   aaatgtgtgcctgtatgtta T/C acatctgtacatatatttcc   4941               OATP1   4   (5′flanking region −172)   acaaacacaactcaaagtat G/A tgtgttattaaaagtagcta   4942               OATP1   5   (intron 1 206)   tcgattcaggcaagttagtc C/G taaatggctttgagagactt   4943               OATP1   6   (intron 1 454)   caacataacaataatttcct G/A taagaaaaatggccattttg   4944               OATP1   7   (intron 1 999)   gtttagcaaggttagatatt A/G atgtggatgttaagacaaaa   4945               OATP1   8   (intron 1 1223)   ttgctagaagctagtaggac C/T agctttataaatacagagat   4946               OATP1   9   (intron 1 1326)   aactagttaggcaacccatg T/C gttttaggg g/a aaaagcaatg   4947               OATP1   10   (intron 1 1336)   gcaacccatg t/c gttttaggg G/A aaaagcaatgaggtcatgat   4948               OATP1   11   (intron 1 1498)   atagtttgctcttaagaata C/T actctgagaaggtttatagt   4949               OATP1   12   (intron 1 5041)   ttatgctcccgaggagttag C/T tctctaaatgcataaggaga   4950               OATP1   13   (intron 1 9532)   aaagactgggagcacttccc A/G atgacaaatactagactaga   4951               OATP1   14   (intron 2 961)   aaaaagttatatagaaatat A/G agtgtcactcctttctagtt   4952               OATP1   15   (intron 2 1110)   gtctactagtgttcaactcc T/C ttagatcttagcctgtatca   4953               OATP1   16   (intron 2 1419)   aaagcctaagaaggatgcag T/C gcaatagcctatgtgagaag   4954               OATP1   17   (intron 2 3339)   tatggtttgcaaaaaactta T/C tcgtatatttgtttttttca   4955               OATP1   18   (intron 3 66)   caggaaatgaagt.tgcactt T/C cctctctaggagcaatgctt   4956               OATP1   19   (intron 3 205)   tcagttttgtcaatttacac A/G atggggatttgggacctttt   4957               OATP1   20   (intron 3 6377)   aatgaatagactttgagtta C/T tggatttttagtggataaat   4958               OATP1   21   (intron 3 7238)   tgaatgtcacattttttaaa G/A tttgtgttccttatctcata   4959               OATP1   22   (intron 4 1016)   ttttattctggattcatgtt T/C gtggaaattgcagtagtcca   4960               OATP1   23   (intron 5 110)   tccacaatgatgagtagagt A/G tcttggcacagttggccttc   4961               OATP1   24   (intron 6 496)   agtgtctgaattataagcca A/G ttttatagttggttgggacc   4962               OATP1   25   (intron 7 1934)   aaagtgaaaggaaattaaaa G/C tgagaacttgagcctgaatg   4963               OATP1   26   (intron 7 2140)   tagaatgtaccaaatgaatc A/G gcatctctgaggatgggacc   4964               OATP1   27   (intron 7 2365)   tgaaatcttctttatcaact C/T gattttcctccagactttac   4965               OATP1   28   (intron 8 88)   tcaaactcctaagttgaagt G/C ttttaggatattttttgact   4966               OATP1   29   (intron 9 534)   tcatattttgtattttaaag G/A ttatctgggttttactgaaa   4967               OATP1   30   (intron 9 1286)   tattcttctgagataaatca T/C tgaaggagtggctatgtggt   4968               OATP1   31   (intron 11 215)   ttcactcctattcctcgcta C/T ttttcttccttatttcttag   4969               OATP1   32   (intron 11 663)   ttcttcttcttttggagctc T/A aaagtagagttcagttaatc   4970               OATP1   33   (intron 11 999)   atcatcactgcatgagagtt A/G gaattatctaactttgtgat   4971               OATP1   34   (intron 11 16727)   tttcttttatttacaaactt A/G tttacttttcaggtgtatga   4972               OATP1   35   (intron 12 48)   ctatcagaacaatattatta T/G tattattttttattacactt   4973               OATP1   36   (intron 12 686)   tatgttttgataaactttgc C/A gtacaaataaagaaaattga   4974               OATP1   37   (intron 12 708)   tacaaataaagaaaattgaa A/G tatttccaaataaatcaagt   4975               OATP1   38   (intron 13 418)   tctctggtctccaaaatcat A/G tattttctccctcttta c/a at   4976               OATP1   39   (intron 13 436)   at a/g tattttctccctcttta C/A attttgctgaaacaatcttc   4977               OATP1   40   (3′untranslated region 2130)   gtctttaagaacctaaaaaa C/A ctcttaactcaaaataataa   4978               OATP1   41   (3′flanking region 57)   agtgactaaagtttttctta C/A aaacaagtgtctgaatcaaa   4979               OATP1   42   (3′flanking region 572)   aatacactatggttatttat G/A tgtactataaatggagtgag   4980               OATP1   43   (3′flanking region 788)   atttcctaaatgatcagatg C/T atcatatgaaaaaagaaagc   4981               OATP1   44   (3′flanking region 1356)   aggtgactgacataaatggg G/A gcagaggacataatgaggtt   4982               OATP1   45   (5′untranslated region   attttctaatctgtattaaa (A) gcgttccaggtatttttgta   4983               (−189 − (−188)               OATP1   45   (5′untranslated region   attttctaatctgtattaaa     gcgttccaggtatttttgta   4984               (−189 − (−188)               OATP1   46   (intron 4 725-726   tgattttaatagcggggaa AA/Δ caggcaagtacgctatagtt   4985               OATP1   47   (intron 4 1082-1083)   attgagtcaggaaaccaaaa CA/Δ gtttcaaaaattgaaaaat   4986               OATP1   48   (intron 4 2301)   aatgtcatgtctttttttt T/Δ aatgcagagtgtacaaagga   4987               OATP1   49   (intron 9 241-46)   attgtatgtgcatgtgggtg TGTGTG/Δ   4988                   catgattgtctttgtgatat               OATP2   1   (5′flanking region −2574)   ggataaggcaacccctatgt A/g tcactgctgcaggagaggga   4989               OATP2   2   (5′flanking regoin −1723)   tctttcagacttcaaaggcc A/G tgatatttcatcagagctgt   4990               OATP2   3   (5′flanking region −1180)   tgcttatttaacaggcataa T/G ctttggtctcctgagccaga   4991               OATP2   4   (5′flanking region −811)   tatgtgcatatgtgtataca G/A gtaaaagtgtgtatatatgt   4992               OATP2   5   (intron 1 7188)   aatcatttgaaatttaagaa A/G aaaatatgttcagagaaaaa   4993               OATP2   6   (intron 1 7331)   gtgaaatgaggaacaaagtg T/C ccaccttttttcctgaata   4994               OATP2   7   (intron 1 7391)   agagagatgtgaaatagtat T/G tttctggggaagtaggggaa   4995               OATP2   8   (intron 1 7886)   ttgttagtagaaagaaatc G/A aagcctaaaactaaaggaag   4996               OATP2   9   (intron 1 7958)   ttgctattatataatttttt T/A a/t aaaaaagatttcctaatat   4997               OATP2   10   (intron 1 7959)   tgctattatataatttttt t/a A/T aaaaaagatttcctaatat   4998               OATP2   11   (intron 1 8036)   ggaaaaatggggtgaaatt A/T atcaaagggcagcttattac   4999               OATP2   12   (intron 1 9164)   acattatattctatataaaa G/T agtcagttgaagtaaaaagt   5000               OATP2   13   (intron 2 193)   tgattaagtatttctttggc G/A aaattttgatgcttaatag   5001               OATP2   14       ttgagtaacatttaggccaa G/A tggcagtcataaggaaaaag   5002               OATP2   15   (intron 2 14865)   agaggaattaatcataagag G/T tttatttggctaaagtgaca   5003               OATP2   16   (intron 2 14931)   gttagttaataacagaaaaa A/T tatcagaaattttaaaaaat   5004               OATP2   17   (intron 2 15417)   ttctaaaataagtaagctaa A/T tattctatattatactacta   5005               OATP2   18   (intron 2 20823)   ttgtataagagatacaaaac A/C aattcctactaggggaaata   5006               OATP2   19   (intron 2 20852)   ctaggggaaataaagcttca G/C taaggaggtggcattaagct   5007               OATP2   20   (intron 2 21360)   ttcaaaagctgtatttctca T/C tagtgctttttgtgaataaa   5008               OATP2   21   (intron 2 21467)   tatatacacaatacctgtcc A/G gaagatgtggtataagccaa   5009               OATP2   22   (intron 2 21621)   tatcaatacttatgaagaga A/G ctaactattctaactaggga   5010               OATP2   23   (intron 2 22760)   ttccccacctcctgttggtt C/G tcctcttaaacttctccttg   5011               OATP2   24   (intron 2 23199)   cctatctgcacataacatta C/T aaacttatggcaattata a/g a   5012               OATP2   25   (intron 2 23218)   a c/t aaacttatggcaattata A/G aactcaatacatattatact   5013               OATP2   26   (intron 2 23330)   gcccttgttcctgttcctct G/A tacctgcctcaactacatag   5014               OATP2   27   (intron 2 23673)   ctggagacggtagctcaaac T/C gaggatgaaaatagacattt   5015               OATP2   28   (intron 3 89)   ggttatcaactggggtaaat T/G tatctctcacaggcaatttg   5016               OATP2   29   (intron 3 224)   tgctaaatattctataatgc A/G caaagaatgatgtaactgaa   5017               OATP2   30   (intron 4 97)   ccctttaaataggcagttac C/A ttttgagaagatacccacta   50108               OATP2   31   (intron 4 568)   ttcatgatccaaattgtggc A/G acgtatttccaggcaacaag   5019               OATP2   32   (intron 4 599)   aggcaacaagatagaagaag A/G aaagaataagaagcaacaaa   5020               OATP2   33   (intron 4 753)   aaaatagacattattccaag T/A taccaagttcccggttaaaa   5021               OATP2   34   (intron 4 781)   ttcccggttaaaaatcccaa G/C tataattactgtggaaggaa   5022               OATP2   35   (intron 4 1196)   aaggaccacaatctagatca G/T cattgctctaatatgccat   5023               OATP2   36   (intron 4 1229)   tatgccataatatgtgacac T/C tttgcacctggtatttctac   5024               OATP2   37   (intron 4 1623)   catctagttgaaatggatta G/C attttatttttactacattt   5025               OATP2   38   (coding region 388   attctaaagaaactaatatc A/G attcatcagaaaattcaaca   5026               (Asn 130 Asp))               OATP2   39   (coding region 452   taatcaaattttatcactca A/G tagagcatcacctgagatag   5027               (Asn 151 Ser))               OATP2   40   (intron 5 165)   ttaatatacacagttcgccc A/T ttaacaacacaggtttaaac   5028               OATP2   41   (intron 5 189)   acaacacaggtttaaactac G/A c g/a ttttcacttctatgcaaa   5029               OATP2   42   (intron 5 191)   aacacaggtttaaactac g/a c G/A ttttcacttctatgcaaatt   5030               OATP2   43   (intron 5 507)   atataactttgctttcattg C/T aaaaggcaaact a/g ttatatc   5031               OATP2   44   (intron 5 520)   ttcattg c/t aaaaggcaaact A/G ttatatcatttaaagacttt   5032               OATP2   45   (intron 5 856)   agtcatgataaacctaatag A/G ataaaacaacaaaaaagaaa   5033               OATP2   46   (intron 5 1157)   acagataattttacttgtt T/C gtgcttttctgtatgatatg   5034               OATP2   47   (intron 5 1226)   ccttgattgtaataatctcc A/C c a/c tgccaagagtggggccag   5035               OATP2   48   (intron 5 1228)   ttgattgtaataatctcc a/c c A/C tgccaagagtggggccaggt   5036               OATP2   49   (intron 5 1304)   actgttctcgtggtaatgaa G/T aagtctcacaagatctgatg   5037               OATP2   50   (intron 5 1348)   ttataaatgagagttcccct G/A caaaagctctcttgcctgcc   5038               OATP2   51   (intron 5 1407)   ttgctcttccttcatcttcc G/A ccatgattgtgaggcccccc   5039               OATP2   52   (coding region 521   gtcatacatgtggatatatg T/C gttcatgggtaatatgcttc   5040               (Val 174 Ala))               OATP2   53   (coding region 571   gggagactcccatagtacca T/C tggggctttcttacattgat   5041               (Leu 191 Leu))               OATP2   54   (coding region 597   ctttcttacattgatgattt C/T gctaaagaaggacattcttc   5042               (Phe 199 Phe))               OATP2   55   (intron 7 33)   agaacaaggtaccatgataa C/T gtcttctaagacacatgc   5043               OATP2   56   (intron 7 33)   agaacaaggtaccatgataa C/T gtctccctcccaaactgact   5044               OATP2   57   (intron 7 1260)   gtaatctcacatttctctgc A/G tttacacttggtaaaacttt   5045               OATP2   58   (intron 7 2273)   ttctcacgtcctatctagcg C/T gattatgacccttagttact   5046               OATP2   59   (intron 8 207)   gtggaagagaattaggtttg T/C actttttagcagggagaaac   5047               OATP2   60   (intron 8 546)   tcgggagaagtttctcccta T/C gtaattagagtaatattt a/c t   5048               OATP2   61   (intron 8 565)   a t/c gtaattagagtaatattt A/c ttttggtaattatctatcta   5049               OATP2   62   (intron 8 668)   taagtaatgtaaattaggat G/T catcagcatttgacagtgcc   5050               OATP2   63   (intron 8 739)   tggagaaccattgagagtca A/G taaacaaagagaatgacttg   5051               OATP2   64   (intron 9 112)   attttagtaatacaggataa G/C tataattttcttgtattctt   5052               OATP2   65   (intron 9 266)   ttagaggtagtatctgtata A/G ttggatcttataatttagtg   5053               OATP2   66   (intron 9 305)   tgctaagatctgagacaaac C/G cttttgtaattataatcatt   5054               OATP2   67   (intron 11 10224)   tacacttgttccataaaaaa T/C tcctctatattattcctagt   5055               OATP2   68   (intron 11 10359)   attaatagattcaacgtgag G/C ticccttaaactttagccta   5056               OATP2   69   (intron 11 10916)   cttatatagaaagaaatcca C/G aaaactattttaccttttat   5057               OATP2   70   (intron 11 10997)   aatatattagtttgaacaag T/C gagacttcactaaatataat   5058               OATP2   71   (intron 11 11018)   gagacttcactaaatataat G/A caatgtatttgcagcactgt   5059               OATP2   72   (intron 12 442)   aacattccaaaacttttaat C/T ga c/t t c/a   5060                   acagcatgactttta               OATP2   73   (intron 12 445)   attccaaaacttttaat c/t ga C/T t c/a   5061                   acagcatgacttttataa               OATP2   74   (intron 12 447)   tccaaaacttttaat c/t ga c/t t C/A   5062                   acagcatgacttttataata               OATP2   75   (intron 12 907)   aatgaaaagaagctggcaga T/C tgaaacatactgaatgagag   5063               OATP2   76   (intron 13 65)   tatatatatatatatatata C/T acacacacatacatatatta   5064               OATP2   77   (intron 13 870)   aattctgagtatcctatttc G/A atgtatccaatctgtggcac   5065               OATP2   78   (intron 13 1935)   taaaaaaaaaaaaagtctgc T/C tttacagcaattgagccaag   5066               OATP2   79   (intron 13 2261)   aacgaatcctccaaattttt G/C aacttttatttaatcaaaat   5067               OATP2   80   (intron 14 248)   tcaaggataataaccaactt G/A tcaaaaatcagagataatag   5068               OATP2   81   (intron 14 2463)   atttgtttactaatatggaa C/G cttcttcaagacatattttt   5069               OATP2   82   (intron 14 2857)   tcatcatgtatttccaggac A/T cctggcaagatgctcctcag   5070               OATP2   83   (intron 14 11458)   atctccagaggtcctgctgt C/T tccccaaagtccactgaccc   5071               OATP2   84   (3′untranslated region 2243)   ataataaaacaaactgtagg T/C agaaaaaatgagagtactca   5072               OATP2   85   (3′untranslated region 2404)   tcttaataaaacaaatgagt A/G tcatacaggtagaggttaaa   5073               OATP2   86   (3′untranslated region 2515)   cagagtttgaactataatac T/G aaggcctgaagtctagcttg   5074               OATP2   87   (3′untranslated region 2539)   gcctgaagtctagcttggat A/G tatgctacaataatatctgt   5075               OATP2   88   (intron 1 457-458)   taattggcaaacataaaaaa (A) caggtgtctcaaagtcacat   5076               OATP2   88   (intron 1 457-458)   taattggcaaacataaaaaa     caggtgtctcaaagtcacat   5077               OATP2   89   (intron 1 753-7538)   gatcagcattacaaccaaga (G) atggagaatgacattcagga   5078               OATP2   89   (intron 1 753-7538)   gatcagcattacaaccaaga     atggagaatgacattcagga   5079               OATP2   90   (intron 1 10032-10035)   tgtgtgattctatattactt ACTT/Δ gtttcaaatttctctccaca   5080               OATP2   91   (intron 1 10058-10061)   ttcaaatttctctccacaaa TTTA/Δ tttttctattaaattgtaat   5081               OATP2   92   (intron 2 413-423)   caaaaaacaggatttaaaaa   5082               OATP2   93   (intron 3 1595-1603)   ttgccaagtaattcaagtgc (T) 8-10 gtatttaaaacaacttttca   5083               OATP2   94   (intron 4 10-23)   cctctgtgccactatcagta   5084               OATP2   95   (intron 5 1567-1572)   gtgaatataaattacttgta CTTGTA/Δ   5085                   aattaaaaaaaaataagtag               OATP2   96   (intron 5 1577-1585)   attacttgtacttgtaaatt (A) 9-10 taagtagaataattaagagt   5086               OATP2   97   (intron 8 1939-1941)   ttctctaactccttctactc CTT/Δ atttcaagcagatgcaactg   5087               OATP2   98   (intron 10 3077-3078)   aaattctttatctacttttt (CTT) ttccctctttctctgctttc   5088               OATP2   98   (intron 10 3077-3078)   aaattctttatctacttttt   5089                   ttccctctttctctgctttc               OATP2   99   (intron 11 11011)   aacaag t/c gagacttcactaa A/Δ tataat g/a   5090                   caatgtatttgca               OATP2   100   (intron 12 1160-1169)   agcatgacatggtagagatg (A) 9-11 gcatttttaacatttgttaa   5091               OATP2   101   (intron 12 1310-1312)   tccatcttaatataaaatgt TGT/Δ ctactcaaaaggagaagtct   5092               OATP2   102   (intron 13 9-34)   tatatatatatatatatata   5093               OATP2   103   (intron 13 35-64)   taaaaaaaaaaaaaaaaaaa (TA) 10-21 c/t   5094                   acacacacatacatatatt               OATP2   104   (intron 13 1379-1387)   aaaattattcaccacaatac (A) 8-10 caaagtaaagttatgaacac   5095               OATP2   105   (intron 13 1916-1928)   aattctcttaaaataatgtt (A) 11-13 gtctgc t/c   5096                   tttacagcaattg               OATP2   106   (intron 14 588-596)   caattatactttacctcttt (A) 8-10 ctaatttcaaattcatatat   5097               OATP8   1   (5′flanking region −1413)   aataggggcttaataactct G/C aaacttatgatttctcatat   5098               OATP8   2   (intron 1 38962)   atgaaattagtttaaaaata G/A caaccttaactatactcctc   5099               OATP8   3   (intron 2 253)   acagacttaccaacaaagaa T/G tatccttcccaaaatgtcta   5100               OATP8   4   (intron 2 329)   actcatggtttgcaaattaa C/G tttttaggaaactttatctc   5101               OATP8   5   (intron 2 2568)   ccattctggtgctttctttc G/A tgaaactattttccatcagt   5102               OATP8   6   (intron 2 2679)   ctcttattgctcttcttcca T/c gttttaatctaaataattta   5103               OATP8   7   (intron 2 2753)   caggaaactttcacaaagcc C/A ctaattaatttaagctccct   5104               OATP8   8   (intron 2 3132)   tggtttaatgtaggagagtt T/C accttcacagttaaattaca   5105               OATP8   9   (intron 2 3193)   aatgtcttgggcatatttgc A/G ttcatttggggca t/c tcagtt   5106               OATP8   10   (intron 2 3207)   atttgc a/g ttcatttggggca T/C tcagttctactagatacaaa   5107               OATP8   11   (coding region 334   gaactggaagtattttgaca T/G ctttaccacatttcttcatg   5108               (Ser 112 Ala))               OATP8   12   (intron 3 76)   agaattttatttttatcctt G/A taagtgggcagttacctttt   5109               OATP8   13   (intron 3 2443)   tcaatttcatgttgctctta C/T agttatcggtattctaaaga   5110               OATP8   14   (intron 4 67)   taatcacgtctataaagttt C/G tgatattctttaacaaaatt   5111               OATP8   15   (intron 4 91)   tattctttaacaaaattgat T/A taagaacaaataggaagaac   5112               OATP8   16   (intron 4 197)   ggtttgaactgcacctgttc G/A cttctctgcagcttttgtcc   5113               OATP8   17   (intron 4 813)   tttaacagaataaaaaaaaa T/A attttgtaacgacaeaagae   5114               OATP8   18   (intron 4 974)   atatgcaccttccaaatccc C/G tggatttttaaatatgtaat   5115               OATP8   19   (intron 4 1003)   tacatatgtaatgtacataa G/T gaatattatgcetettttgt   5116               OATP8   20   (intron 6 155)   cattaataatcagaatacca A/G egeaetttagctcctattta   5117               OATP8   21   (intron 6 750)   atccaactggggtttagatt T/G cctctttctgcctctcctcc   5118               OATP8   22   (intron 6 780)   gcctctcctccctctgcacc C/T tctcttttcctcagcaaaca   5119               OATP8   23   (intron 6 1248)   ctatgccctgtaatctcaca C/T ttccctttatttaaaattgg   5120               OATP8   24   (intron 6 1500)   tcgtgtctgtgttagcatat A/G ataactcatcagggtttgtg   5121               OATP8   25   (intron 6 2008)   ctaacataaatgagtaaaga A/G tatcaagggcaggaaattag   5122               OATP8   26   (intron 6 2087)   actactctccccatacacac T/C ccaactcatgtgctccccag   5123               OATP8   27   (intron 6 12305)   tcatctatggaggactgcaa T/C cattatcattatttcccaga   5124               OATP8   28   (intron 7 363)   taacaaatgataccagccat C/G atactattctctggtaatag   5125               OATP8   29   (intron 7 411)   cctttattttttgagaacct G/A gtggatgatattaaga c/a gta   5126               OATP8   30   (intron 7 428)   cct g/a gtggatgatattaaga C/A gtatatagatcactgtaata   5127               OATP8   31   (intron 7 634)   aaaattatctatatacatat A/G taatcttacctaagtattca   5128               OATP8   32   (intron 7 1791)   tgtttttttaagggtagtga T/C gtgaatagtaaagcgaattt   5129               OATP8   33   (intron 7 2000)   agttgagcaaattgctctca G/A gtagcatcatgtcacttgaa   5130               OATP8   34   (intron 7 2043)   cttttattgatccatttttta A/G tggatcaacattgtagtgag   5131               OATP8   35   (intron 7 2171)   atttattttgagcaaaggtc G/A c g/a actct c/t   5132                   cttagaaagcct               OATP8   36   (intron 7 2173)   ttattttgagcaaaggtc g/a c G/A actct c/t   5133                   ttagaaagcctcac               OATP8   37   (intron 7 2179)   tgagcaaaggtc g/a c g/a actct C/T   5134                   ttagaaagcctcacaaatcc               OATP8   38   (intron 7 2219)   atttgtcactttaagtctta T/G ataacttatatttacaaaat   5135               OATP8   39   (intron 7 2261)   cagatattaatatatctttt A/T ttattgaaatatgttatttt   5136               OATP8   40   (intron 8 150)   acaaaatttctccatcttgt A/G ata t/a cctcgttgttctgcat   5137               OATP8   41   (intron 8 154)   aatttctccatcttgt a/g ata T/A catcgttgttctgcatttga   5138               OATP8   42   (intron 8 1303)   ttttttttgagatggagtct C/T gctctgttgcccaggctggg   5139               OATP8   43   (intron 8 1372)   aagctccgcctcccaggttc T/G ccacccttctcttaaagaaa   5140               OATP8   44   (coding region 1272   tccttcttgtttcaacttct A/G tatttccctctaatctgcga   5141               (Leu 424 Leu))               OATP8   45   (intron 10 63)   tcacagatttgatttaataa A/T tacttatcaaatcttcctat   5142               OATP8   46   (intron 10 911)   cttgcccaatatcctaccaa C/T gtattattaaacggcatgga   5143               OATP8   47   (intron 10 972)   tcctagtttccttgaagata G/A gctaceactttagtaaactt   5144               OATP8   48   (intron 10 1101)   tccctggtcctgtgttgtcc A/T g t/c agtgaagacctgaaagag   5145               OATP8   49   (intron 10 1103)   cctggtcctgtgttgtcc a/t g T/C agtgaagacctgaaagagag   5146               OATP8   50   (intron 10 2027)   cccattttcatgagtggcta A/G g/a ttttgtcccgtttcaaact   5147               OATP8   51   (intron 10 2028)   ccattttcatgagtggctaa/g G/A ttttgtcccgtttcaaacta   5148               OATP8   52   (intron 10 2372)   tgtatttggcaaatgtattt G/T ttaatatttcaaaeactatt   5149               OATP8   53   (intron 11 10538)   caecagaggatcaatgtaaa T/G gaaatctcttaaattaaaca   5150               OATP8   54   (intron 12 55)   ataaatattaatgttaaata C/T taaagactgaatgcaattaa   5151               OATP8   55   (intron 12 1802)   taaaatgaatcggtaaeace T/G tcatgtetaaatcactgtca   5152               OATP8   56   (intron 12 2612)   ataggcatataatactcttt C/A ttccctctgtatatagggag   5153               OATP8   57   (coding region 1833   aacagctgtggagcacaagg G/A gcttgtaggatatataattc   5154                   (Gly 611 Gly))               OATP8   58   (5′flanking region   tacataacatatacctatat CTAT/Δ gttatgtgtctgcttatata   5155               (−1590) − (−1587)               OATP8   59   (5′untranslated region   agcatcagcaacaattaaaa ATATTCACTTGGTATCTG/Δ   5156               (−28) − (−11)   tagtttaataatggaccaac               OATP8   60   (5′untranslated region   tattcacttggtatctgtag TTTA/Δ ataatggaccaacatcaaca   5157               (−7) − (−4)               OATP8   61   (intron 4 213-214)   ttc g/a cttatatgcagctttt (T) gtccaaccaaacagaaggag   5158               OATP8   61   (intron 4 213-214)   ttc g/a cttatatgcagctttt   5159                   gtccaaccaaacagaaggag               OATP8   62   (intron 4 505)   tataecttcctctttataaa G/Δ atgcaaaatgttatagcatt   5160               OATP8   63   (intron 4 616)   aatgaagtggaggaaaaaaa A/Δ tgatttcaagttttctgtct   5161               OATP8   64   (intron 4 804-812)   acatccatgtttaacagaat (A) 9-11 t/a   5162                   attttgtaacgacaaaaga               OATP8   65   (intron 4 855)   agattgtttaaccaaattag G/Δ aaactattattcaacacact   5163               OATP8   66   (intron 7 619-628)   ttttatatatgaattaaaat (AT) 4-5 catat a/g   5164                   taatcttacctaag               OATP8   67   (intron 7 1773-1779)   attttctatattatgaactg (T) 7-8 aagggtagtga t/c   5165                   gtgaatag               OATP8   68   (intron 8 1270-1290)   tagtgtgccacccttctctc (T) 19-23 gagatggagtct c/t   5168                   gctctgt               OATP8   69   (intron 10 665)   aactcaaaggcttttttttt T/Δ ccatgtgacacatatcctgt   5167               OATP8   70   (intron 11 247-250)   aaaaatcttaaggcacacac TGAT/Δ tgacagttgccttgattgta   5168               OATP8   71   (intron 12 1622-1630)   aaataaattgttggcatcta (T) 8-10 atttttctaagggtcgctgt   5169               OATP8   72   (3′untranslated region   cctgatgcctttaaaaaaaa A/Δ tgaaacactttggatgtatt   5170               2464-2465)               TAP1   1   5′flanking − 673   agctaagagtcaaagcaccc G/C ctttttccaccagcctcgcg   5171               TAP1   2   5′flanking − 646   ccaccagcctcgcgtgcctg T/G tcccttcacggacactctag   5172               TAP1   3   5′flanking − 563   ttgcaagcgctggctgctac A/c ggcgacctccctgcgctccc   5173               TAP1   4   5′flanking − 236   gctttgcgcgcggcgctaac G/T tgtgtagggcagatctgccc   5174               TAP1   5   intron 3 + 408   aaggaaactgaggccaagac C/T ctaaatgctgaaactgcaca   5175               TAP1   6   exon 4 + 153   ccctcaccatggtcaccctg A/G tcaccctgcctctgcttttc   5176               TAP1   7   intron 4 + 289   gtatttctttagcatccaag G/T ggcatagctgtgtctctttc   5177               TAP1   8   intron 4 + 291   atttctttagcatccaaggg C/G catagctgtgtctctttctc   5178               TAP1   9   intron 5 + 1139   ttccttcaggttaatgactg C/T ggttctttgtgtcccctcca   5179               TAP1   10   intron 7 + 375   gtctctgcccttgtctttgc C/T gcttcttctatctctactcC   5180               TAP1   11   3′flanking + 71   agcgcacttttcagctgcgg G/A tgtctcctcttttatcatcc   5181               TAP1   12   3′flanking + 129   aactgcatcaccttttccct T/C aagctttttaattcctatga   5182               TAP1   13   3′flanking + 459   cattcagggaggcccaggtc G/A tgtgacgtcgaCagttgctg   5183               TAP2   1   intron 3 + 8   tctcctttggcaggtaggtg G/A tgggcagctgggtccatttg   5184               TAP2   2   intron 4 + 104   cttcecccgtatgccaggac C/T tggggatgcttttctcttgt   5185               TAP2   3   intron 10 + 219   gcagcagtggtgctccctcc A/G tgggcagccccgtcaggtcc   5186               TAP2   4   intron 11 + (317-319)   atggtgcccaggtggatgtg GTG/Δ tccatctcattcctgtcttt   5187               TAP2   5   exon 12 + 19   agctgcaggactggaattcc T/C gtggggatcgcacagtgctg   5188               TAP2   6   exon 12 + (356-357)   aggtggggtggggtggggtg GG/TGGTGGGGTGGA   5189                   ggctgtctgtgtccaggaaa               OCTN1   1   intron 1 + 6602   aggcgagccaggttatgtgg C/T gaaggataaggcctcttccc   5190               OCTN1   2   intron 1 + 6790   gacaaaaggggaaaaccttc C/T gtgataggcaggtttgtgga   5191               OCTN1   3   intron 1 + 14019   cactgtctcccactgggccc G/A ccatgtcactgttaaccaca   5192               OCTN1   4   intron 1 + 14136   ccggtttcctaagaaaagcc T/C tttctaaaggacccctctta   5193               OCTN1   5   intron 1 + 14266   agctttccaaaaagacactt G/T cggcaccataactccccaaa   5194               OCTN1   6   intron 1 + 14412   cttggggcaaacggccactg C/T gtgtgcatggctcttcctgt   5195               OCTN1   7   intron 1 + 15776   acataggagacacttctttc G/A gatctcagtattcagaacaa   5196               OCTN1   8   intron 1 + 15817   ctgtgcttctgcgaataagc A/G gactacttcggatactgtaa   5197               OCTN1   9   intron 1 + 15889   agagccagttttggagcccc G/A tctggcaagcaggcaggccc   5198               OCTN1   10   intron 1 + 16063   acctctgtctgctgcagaat A/G aggtgtgatataaatatgtg   5199               OCTN1   11   intron 2 + 1105   atatttccacaaggtccttg C/A gtacactgctccatgctttt   5200               OCTN1   12   intron 3 + 1022   cttctgtcaagttgccagga T/C ggaaatattccaactctact   5201               OCTN1   13   intron 3 + 1217   tccccttcctgcagggggaa G/A gagcggggcaagattttctt   5202               OCTN1   14   intron 3 + 1596   aagccagagaagctctctcc G/A tgggaatgggaacaaggtgg   5203               OCTN1   15   intron 3 + 1720   ggagcctccaagcctcccct G/A tgtgagcgggtgaggcaggg   5204               OCTN1   16   intron 3 + 2104   tatgagactcgttgtgttgg G/A ttctcaggtctgaaagttta   5205               OCTN1   17   intron 3 + 8323   cctttccccttttctaagtg G/C tgatagtttgaactctaact   5206               OCTN1   18   intron 4 + 926   tttttggaactcacaattta G/T actagacctcatggttgccc   5207               OCTN1   19   intron 4 + 1055   cacctgtctgacgagatagc G/A caggtcaggtgggctcactc   5208               OCTN1   20   intron 5 + (1197-1202)   caacaacaacaacaacaaca ACAACA/Δ tttgggagtgtctaacacttc   5209               OCTN1   21   intron 5 + (2071-2083)   caaaaaaagaaactaaggca   5210               OCTN1   22   intron 5 + 2781   tgatcattcctagaaaaaag G/A acactcacatttggagagga   5211               OCTN1   23   intron 6 + (882− 917)   tcctactctatgatggcagc (AC) 15-18   5212                   gatgatcgtcagaactggta               OCTN1   24   intron 6 + 924   acacacacacacacgatgat A/C gtcagaactggtagatttag   5213               OCTN1   25   intron 7 + 511   attattgatagtaatagaaa T/C acatatttcttaataataag   5214               OCTN1   26   exon8 + 124   ggtcaggaacatggcggtgg G/A ggtcacatccacggcctcca   5215               OCTN1   27   intron 8 + 3514   acacacacacctgaaaacat G/A tatgaattctcaggaaaggt   5216               OCTN1   28   intron 8 + 3902   aagcaagatgaggatctgtt T/C ttctcctgtgtgagtaaagc   5217               OCTN1   29   intron 8 + (4064-4089)   gagtctcatagccctgtgga   5218               OCTN1   30   3′flanking + 115   aaccaaatgattatatgcag T/A attcctatccagaaaacctt   5219               OCTN2   1   5′flanking − 225   cggcgctagaggagcgagtt C/T ggactcggaccccaaggcct   5220               OCTN2   2   5′flanking − 124   gctggcagaggccgggcctc G/T ccaggtccccaggacaggcc   5221               OCTN2   3   5′flanking − 13   ggcgccgctctgcctgccag C/G ggggcgcgccttgcggccca   5222               OCTN2   4   intron 1 + 232   ggtggtcagtctggcctccc G/A tcctgatggccactttgaag   5223               OCTN2   5   intron 1 + 314   atggccctgtgtgtccagga C/T ttactctagttggggttggg   5224               OCTN2   6   intron 1 + 5O55   catgtggtacctagcagcat G/A tctgactgttgatacggtca   5225               OCTN2   7   intron 1 + 6437   gaagcttggcctcacacaca G/C aggccggcaccctgtcatca   5226               OCTN2   8   intron 2 + (173-174)   tagtaagaagegccaacaaa TC/Δ atctgactccgtaattcttg   5227               OCTN2   9   intron 2 + 608   agcaggttatttgtataatt C/A taaagcttttaactcaagga   5228               OCTN2   10   intron 2 + 4370   taatttattgatatccaagt G/A ccctctataatagatgctca   5229               OCTN2   11   intron 5 + 969   caccagaaaggggtcctgtg C/T gcaaaggtcaggcaggagtg   5230               OCTN2   12   exon 10 + (1028-1044)   aaaacagaatcactctggca   5231               OCT1   1   intron 1 + 7715   tagtcctgactcacacatgg G/T tctgtgcttttcgtcctcct   5232               OCT1   2   intron 2 + 97   ggtggagaacatgaccagtt G/A gaattaactgcagaagctgc   5233               OCT1   3   intron 2 + 797   gtggagttgtgtgaacaact C/G tttaaaagagtgtggggagg   5234               OCT1   4   intron 2 + 1768   cgtgaactggagagggtctg T/C gggcactgcccggctgagct   5235               OCT1   5   intron 3 + 1244   gcagatggtaaaggagcaga C/T gcggaaagcgacggtcaggg   5236               OCT1   6   intron 4 + 865   agcgtccagtggtaggaaag G/T ctccacaggtggcaatccca   5237               OCT1   7   intron 4 + 1028   gtcatctctgctcttctccc A/G cttcttcatttttatagtac   5238               OCT1   8   intron 4 + 1040   cttctcccacttcttcattt T/G tatagtactattggtattat   5239               OCT1   9   intron 4 + 1485   agcctgcccttcccctgcct C/T gtccttgtgaaacagggatc   5240               OCT1   10   intron 4 + 1997   tgagggattacagccccaac G/A tggggagggcaggctgcact   5241               OCT1   11   exon 5 + 9   tggtgttcgcaggtgtgtgc C/T ggagtcccctcggtggctgt   5242               OCT1   12   exon 5 + 20   ggtgtgtgccggagtcccct C/G ggtggctgttatcacaaaaa   5243               OCT1   13   intron 6 + 379   gaggaagttccattcctcat A/G tctaaacaccctagagaccc   5244               OCT1   14   intron 8 + 2125   tattgacccaaatctgttct C/A acaatgtaaatatgactgta   5245               OCT1   15   intron 6 + (2935-2953)   cttcagtctctgactcatgc   5246               OCT1   18   intron 7 + (6-7)   ttttatctcacctggtaagt (TGGTAAGT)   5247                   tggtaagttgtctgctttca               OCT1   16   intron 7 + (8-7)   ttttatctcacctggtaagt   5248                   tggtaagttgtctgctttca               OCT1   17   intron 7 + (1780-1781)   gttttcttttcccttttttt (T) catggagaaagaacagagaa   5249               OCT1   17   intron 7 + (1780-1781)   gttttcttttcccttttttt     catggagaaagaacagagaa   5250               OCT1   18   intron 8 + 3247   ccaggccaaacaattccatt G/T tcatggccactgggccaagg   5251               OCT1   19   intron 8 + 10521   cccttaaccaatgaacgcca G/A tggcagatccctcattctga   5252               OCT1   20   intron 10 + 393   tcagattctttagtaacttt G/C ttcacaaaattcttttgaca   5253               OCT1   21   3′flanking + 1755   tgaatgatgtttttcaaatg T/C gtattaaaaatgtcctctct   5254               OCT1   22   3′flanking + 1799   ctttcttagaatcctcttgg G/Δ caaaacttctgaggaaggcc   5255               OCT2   1   intron 2 + 1329   tggcagcagaagggaagagg G/Δ ataaaagtggaggcacaggc   5256               OCT2   2   intron 2 + 1887   cctctgtcaaggtaagtact C/Δ attattcttcccccaaaggc   5257               OCT2   3   intron 9 + (340-343)   cagcaggcccctaactctct CTCT/Δ gctgatttccacccttcctg   5258               OCT2   4   intron 9 − 398   atacataattcattactttt A/G tttgctagaaatgatccaag   5259               OCT2   5   intron 9 − 386   cattacttttatttgctaga A/C atgatccaagtttctgactt   5260               OCT2   6   intron 9 − 88   atagaaaaatgctaaaaaaa A/A gttttaaacaaaaataaggg   5261               OCT2   7   intron 10 + 1725   tggaagaggcctttgaatcc G/Δ agcggaggtcacacactcgc   5262               OCT2   8   intron 10 − 195   caagataattttaggaataa C/T tctgtcgacatgagttatca   5263               OCT2   9   exon 11 + 328   gttttctggagggttttttt T/A ccatctttgtatttttttaa   5264               OCT2   10   exon 11 + 427   aggcaaacaaaatagaaaaa A/Δ gtgtgaaaaacagtaaagtt   5265               OCT2   11   exon 11 + 455   aaacagtaaagttgggagag G/A agcatctattttcttaaaga   5266               OCT2   12   3′flanking + 34   agaatgtatgtcaagaattt T/A agataggcctttcagtaaca   5287               NTCP   1   exon 1 + 307   tatggcatcatgcccctcac G/A gcctttgtgctgggcaaggt   5288               NTCP   2   intron 1 + 607   cccagcacccactccagata G/C gccagccccatctcagccac   5269               NTCP   3   intron 1 + 702   gcagaaatcagcaagggctc G/A ctcctggagacycagcacac   5270               NTCP   4   intron 1 + (3950-3966)   gagaaataggcatgtaaaga   5271               NTCP   5   intron 1 + 9597   aaggacatattattcaggct C/G tgagtgtcataatttatttt   5272               NTCP   6   intron 2 + 4808   cctatggagaagcaactacc C/T ggggccacttgtctcagcag   5273               NTCP   7   intron 2 + 5032   acacctggagactagcagag G/C cagctttcccaccaggatca   5274               NTCP   8   intron 2 + 5046   gcagaggcagctttcccacc A/T ggatcatateaaattatgtg   5275               NTCP   9   intron 3 + (8-21)   aagaaagggtctcactctgt   5276               NTCP   10   intron 4 + (484-495)   gattcctcaactctagttac   5277               NTCP   11   intron 4 + (728-754)   caggacattcaaacccactt   5278               NTCP   12   intron 4 + 747   taaaaaaaaaaaaaaaaaaa A/C aaaaaaacaggacattcaaa   5279               NTCP   13   intron 4 + 1339   ccccagtggaaacactaaat C/A aaagcaacgtatttctttgg   5280               NTCP   14   intron 4 + 1545   accacggacaagaagaggta G/C atcaattgggggttggaggg   5281               NTCP   15   3′flanking + 559   caagacaatatagttttcgg G/A tatcagtttggcaaatgtgc   5282               PEPT1   1   exon 1 + 25   ctgccaggagcacgtcccgc C/T ggcaggtcgcagyagccctg   5283               PEPT1   2   intron 1 + 88   cgagggccgggaggcgcgaa G/A ggtacgcggcggcgggaagc   5284               PEPT1   3   intron 1 + 106   aagggtacgcggcggcggga A/T gcggggcgacccgaaggccc   5285               PEPT1   4   intron 1 + 248   cgaggttgcgatcctggccc G/A cccgcccgtggggcactgta   5286               PEPT1   5   intron 1 + 326   tggagcyggacgggacccag C/A gggtgacggcaggggcggca   5287               PEPT1   6   intron 1 + 1238   tttagcatttccagcagatc C/T aatcccgagagctgttagag   5288               PEPT1   7   intron 1 + 3001   tcttatatgctgggaagaag C/T gtcagtaagaaaaagcagcc   5289               PEPT1   8   intron 1 + 5673   ttgggaagtgccacagccac G/C gggcacagggacagggtctt   5290               PEPT1   9   intron 1 + 5679   agtgccacagccacggggca C/G agggacagggtcttccacag   5291               PEPT1   10   intron 1 + 5917   aaattcacaaaatgtacttc C/T ataagaaggctcgttaaaag   5292               PEPT1   11   intron 1 + 5966   ctaggcatttagaacttcta C/T aatctgcccctagtgacaag   5293               PEPT1   12   intron 1 + 9255   tggtcatttcaggcctcttc A/G gcctatgattttagatagtt   5294               PEPT1   13   intron 1 + 10278   catgacccatgtaggcggga A/G aagcagccctgtagcagcag   5295               PEPT1   14   intron 1 + 20251   aagaagagcctgtgtttatt C/T agtgattgcaatgtgttggg   5296               PEPT1   15   intron 1 + 20509   aaacaccacttctgcatttg C/A gctttctaagatagcaatcc   5297               PEPT1   16   intron 1 + 20532   tttctaagatagcaatcctg T/C tgacacaggtacattaagat   5298               PEPT1   17   intron 3 + 55   agagcgggagtggccataac C/Δ agtcctaactttgtttcccc   5299               PEPT1   18   intron 5 + 1720   atcctctcttttactggaaa C/A aataaagctacaaaagaacc   5300               PEPT1   19   intron 5 + 1790   gctactgttttatgttttcc G/A gatggtaaattattagatgg   5301               PEPT1   20   intron 5 + 1860   agtttgcatttgactatcac G/A ctgcattcctgtgagctggc   5302               PEPT1   21   intron 5 + 1943   aggcccactgagggaaactg G/A ggaaaagagaggccttctac   5303               PEPT1   22   intron 8 + 1478   tgttttcagatcttagtagt A/G catggaataggaccgttttc   5304               PEPT1   23   intron 8 + 1898   ttaaatattagtggtaaaag A/G aaacatagactcaatctctt   5305               PEPT1   24   intron 10 + 388   ttaaatagtttagacatttt C/T gatttrctaaagaaaactgc   5306               PEPT1   25   intron 11 + 985   atccataaggtactcagtga C/T tggcctgtatgaagaactca   5307               PEPT1   26   intron 11 + (1022-1045)   gagtcaagagtctcactctg   5308               PEPT1   27   iniron 11 + 1320   tgtgagccactgcacctggc C/T aatttcctgactttctatga   5309               PEPT1   28   exon 16 + 107   tggagagatggtgacacttg G/C cccaatgtctcaagtaagta   5310               PEPT1   29   intron 18 + 6048   tttgttgttgggtttttttt T/Δ gttgttgttgttttgttttg   5311               PEPT1   30   intron 18 + (6141-6142)   tcactgcagcctccgccccc (T) gggttcaagcaattatcctg   5312               PEPT1   30   intron 18 + (6141-6142)   tcactgcagcctccgccccc     gggttcaagcaattatcctg   5313               PEPT1   31   intron 18 + (6241-6242)   tatttttagtagagacgggg (G) tttcaccatattggccaggc   5314               PEPT1   31   intron 18 + (6241-6242)   tatttttagtagagacgggg     tttcaccatattggccaggc   5315               PEPT1   32   intron 18 + 12102   gtgggaattciagctaaggc C/T cgtgtggatctgtctcaggt   5316               PEPT1   33   intron 18 + 12203   gacctgagtttaattcatag C/A cattttctcccagcacctaa   5317               PEPT1   34   intron 18 + 12307   gaaaggttaaattattcttt A/G cactgctgaggtgtacacta   5318               PEPT1   35   intron 20 + 79   tcacaaacacttaggacata A/G tatgatttaactagagtgat   5319               PEPT1   36   exon 23 + (348-370)   gagacagagttttgctcttg   5320               PEPT1   37   exon 23 + 790   ccacattggtcatcttccct A/G tcacacaaatgatgttattt   5321               PEPT1   38   3′flanking + 2   aaataaatttctgttcttaa G/A cctaagtgttcatgtatctc   5322               EPHX1   1   intron 1 + 110   tgcaaaatgtgtcttactag C/T ttctagtgcataaaatattg   5323               EPHX1   2   intron 1 + 143   aaatattggtggagctcttc G/A ctgtgctgggccagtcacca   5324               EPHX1   3   intron 1 + 1097   aatccagagagggagataga T/G tggaagttcaagggtggaca   5325               EPHX1   4   intron 1 + 1717   ttccaagacagagcgagggg T/C gctgctggggcgtggtttgc   5326               EPHX1   5   intron 1 + 1772   aactcgatgctttctcctcc G/T tctgggtcctaactgcagtg   5327               EPHX1   6   intron 1 + 2054   gaaatgtaacaggcaacact A/G tggacacagaaagtagatta   5328               EPHX1   7   intron 2 + 1414   atttccaaaatctgtttggg G/T gtaactgaaacacttgggaa   5329               EPHX1   8   exon 3 + 174   taccctcacttcaagactaa G/A attgaaggtatgtttgcaaa   5330               EPHX1   9   intron 3 + 6583   ctgtcaataccatgaagggg G/C ggcgggggcactaagggtgg   5331               EPHX1   10   intron 4 + 34   agaggttccataactgcccc G/A tcctcgccaagggtgggccc   5332               EPHX1   11   intron 4 + 63   aagggtgggcccggtgttcc C/T accaggctctccttccggcg   5333               EPHX1   12   intron 5 + 154   gcagtgcctgaggcacgttg G/A cttggatcctcctgtctgta   5334               EPHX1   13   intron 5 + 276   tgctggaccaagctctggga T/C agccctgagcagaactcccc   5335               EPHX1   14   exon 6 + 130   gatgtggagctgctgtaccc C/T gtcaaggagaaggtattcta   5336               EPHX1   15   intron 8 + 206   ggtgcctggctcccgggcgg C/A cctcagtaccgctccccagt   5337               EPHX1   16   intron 8 + 353   tggccctcccagaaaagaga A/G ggccctcagtgaggggagag   5338               EPHX1   17   3′flanking + 708   aggtgcagactcatgcactc A/G gccctgaagaggtgagagag   5339               EPHX2   1   5′flanking − (523-522)   aaagtcactggatatgcccc (C) tcccccgccccccaacacgg   5340               EPHX2   1   5′flanking − (523-522)   aaagtcactggatatgcccc     tcccccgccccccaacacgg   5341               EPHX2   2   5′flanking − 522   aaagtcactggatatgcccc T/C cccccgccccccaacacggt   5342               EPHX2   3   5′flanking − 521   aagtcactggatatgcccct C/T ccccgccccccaacacggtc   5343               EPHX2   4   5′flanking − 516   actggatatgcccctccccc G/C ccccccaacacggtcttatg   5344               EPHX2   5   5′flanking − 515   ctggatatgcccctcccccg C/G cccccaacacggtcttatgt   5345               EPNX2   6   intron 1 − 74   tggctgcttctcaatgaata T/C gaacagtgtctgtttccatg   5346               EPHX2   7   intron 3 + 72   gagcattaggtcagaatcca T/C tgaagtgagctttgagatca   5347               EPHX2   8   intron 4 + 473   gtgtgtctctactttaatct A/G caaaaggtgattgaatggag   5348               EPHX2   9   intron 5 + 276   caagagtgggatgttcaagg C/T catcctgacctcacttttga   5349               EPHX2   10   intron 8 + 8   tctgctcctcccggtgggtg T/C gctgtcttgcagctgtctta   535O               EPHX2   11   intron 9 + 1573   atgtcgtgaagactgatgaa C/T gatggacggctgcactgctc   5351               EPHX2   12   intron 10 + 207   gaacaggatggagatgagct T/C gtttatttgtcttttaatga   5352               EPHX2   13   intron 12 + 911   tgaagagacctcgacatgtc G/T catcccacatactacaggga   5353               EPHX2   14   intron 12 + 2425   atcttctcagctgagcaaac C/T gaggctcagagggcttaacc   5354               EPHX2   15   intron 12 + 2460   ttaaccccaactggcccaag G/A ccaggtacatgattgggtca   5355               EPHX2   16   intron 12 − 281   aagtcctttcaagagattat T/C ataagtagtaccttctcatt   5356               EPHX2   17   intron 12 − 268   agattattataagtagtacc T/G tctcattataggaatattga   5357               EPHX2   18   exon 13 + 50   cctgagtcggactttcaaaa G/T cctcttcagagcaagcgatg   5358               EPHX2   19   intron 13 + 1739   ttgtcgtaacagggttttca G/T atgagcatatttcctttgta   5359               EPHX2   20   exon 14 + 33   atgcataaagtctgtgaagc G/A ggtaagagacatgcttggga   5360               EPHX2   21   intron 14 + 314   tgattgagagcttacctcta T/C gggggtcacctcgtgtatgc   5361               EPHX2   22   intron 14 + 878   attcccttattccttcacac C/T gtctgtcactcattcattca   5362               EPHX2   23   intron 14 + 948   acacaggctgggtatgaagc T/C ggggctgcatgctcagctac   5363               EPHX2   24   intron 15 + 259   agagggttttcactactttt C/T agtcatggctcctcagagaa   5364               EPHX2   25   intron 16 + 459   tcttcatttgtcaagcagaa G/C atgagtttccaatctctggg   5365               EPHX2   26   intron 16 + 645   gtaagtgaacacactgctac G/A tgccagacttcctgccagac   5366               EPHX2   27   intron 1 16 + 985   gtcattatcatcatatgacc G/A atgaaaatgaccaaactgca   5367               EPHX2   28   3′flanking + 12   aggtggccttacacacatct T/C gcatggatggcagcattgtt   5368               EPHX2   29   3′flanking + 374   tgttcacggagaatgcacgg C/T atggggatgaaccctttccc   5369               EPHX2   30   3′flanking + 544   tagccacctgcctttctccc G/A gcttccctagcagagtttgc   5370               COMT   1   5′flanking − 1287   cgtatgatattccccattct G/A agtccagaatacctagaaat   5371               COMT   2   5′flanking − 1217   tgtgagtatgggaaggggaa G/A cttttctgtctgttgtcccc   5372               COMT   3   5′flanking − 503   caggggctccaggaggacga G/A tgtgtatcctcccattgctc   5373               COMT   4   5′flanking − 425   gagaagttgggaagtctggc C/T agtggggccggtgcctggtg   5374               COMT   5   5′flanking − 277   cccagccccagtttccccac C/T tgggaagggggctacttgtg   5375               COMT   6   intron 1 + 12058   gtggcccatggaagggaggg G/A agggggccccgacggggcca   5376               COMT   7   intron 1 + 12070   agggaggggagggggccccg A/G cggggccacagtaaaggagt   5377               COMT   8   intron 1 + 18831   tgtgtatgttcttggtaaac C/T agcccttggtcttacacatc   5378               COMT   9   intron 2 + 832   cctctcctttggccacccgt G/C actacccccaactccgggcc   5379               COMT   10   intron 3 + 90   ggagaagctgttatcacccc A/G tttccagggggctgggaacc   5380               COMT   11   intron 3 + 425   ccccaaggtgggcggttcgg T/G gattcagagagggcagctct   5381               COMT   12   intron 3 + 671   ggctcctgctctttgggaga G/A gtggggggccgtgcctgggg   5382               COMT   13   intron 3 + 676   ctgctctttgggagaggtgg G/T gggccgtgcctggggatcca   5383               COMT   14   intron 5 + 75   tcagcctcagcctctccaaa G/C agccaggcattccagtagag   5384               COMT   15   intron 5 + 310   tccagacaccagggcagaaa C/T ggcacaggaccaaggagatg   5385               COMT   16   intron 5 + 346   agatggggtggggaagggcc G/A ctctgggcccagcctgctct   5386               COMT   17   intron 5 + 3023   aaggcagccgccctgctcaa G/A gcctaggccattgtcctcct   5387               GANT   1   intron 1 + 429   ctcggaaagctgagctcagg G/A agacagctgtccccggggtg   5388               GANT   2   intron 5 + 1411   ggtgacctggtgccatcccc G/A accaggagacgcaggtgccc   5389               GANT   3   3′flanking + 626   cactgacctccttgccctga G/A agaaggccggctcctgtgct   5390               PNMT   1   5′flanking − 367   aagaggtgaatggctgcggg G/A ggctggagaagagagatggg   5391               PNMT   2   intron 1 + 35   ctgaggcacgagggacaaga G/T gtcgtcggggagtgaaagca   5392               HNMT   1   5′flanking − 211   cagaggcagatgacagtctt C/T cgttaaagatttcactgctg   5393               HNMT   2   intron 1 + 5409   aatataactgatataattgg A/G acatttcatgttggcctagt   5394               HNMT   3   intron 2 + 2561   cacttgtgcttggacaagaa A/G agaaggcctacaagaaaaag   5395               HNMT   4   intron 2 + 2895   caatcagaaatgtaagaaaa A/C ctccaagaaaaatttaagtt   5396               HNMT   5   intron 2 + 3977   accaaacttggaagtgtaaa G/A ttatgcatgtatgttcatgt   5397               HNMT   6   intron 2 + 5296   ttaacatagtgagtttggag T/C cccaggattttattttcctt   5398               HNMT   7   intron 2 + 13317   caaccctcatgaattcttag C/T tgggatgggtccctataaca   5399               HNMT   8   intron 2 + 14682   gtagatgagcaaatgagttc A/A ggagagatttaaatacccta   5400               HNMT   9   intron 2 + 15406   gtctatgcattcatgcatcc G/A tctaaccagctgtctaccta   5401               HNMT   10   intron 2 + 28943   atgtgacttaaacttcaggt A/G tatcaatatcccttgaatgt   5402               HNMT   11   intron 4 + 49   cagaaagaagacttttcaga A/G tatatatataatgaatatct   5403               HNMT   12   intron 4 + (1942-1943)   tttgagaaaaatttaaggta (A) tcttctatggcccacttcca   5404               HNMT   12   intron 4 + (1942-1943)   tttgagaaaaatttaaggta     tcttctatggcccacttcca   5405               HNMT   13   intron 4 + 2405   ccctgtgaccaagcagataa C/A ctcatgctttatttagtcca   5406               HNMT   14   intron 5 + (80-81)   cctgtgtttgaaagaagctt (TT) atatattttgtcttcattat   5407               HNMT   14   intron 5 + (80-81)   cctgtgtttgaaagaagctt     atatattttgtcttcattat   5408               HNMT   15   intron 5 + 235   ctttcttttgggaaaatatg T/C ctttgtcttctatatatgaa   5409               HNMT   16   intron 5 + (702-703)   tacttacaggttgattttag (AT) acacagcagactctgtcttc   5410               HNMT   16   intron 5 + (702-703)   tacttacaggttgattttag     acacagcagactctgtcttc   5411               HNMT   17   intron 5 + 749   ttacaccagaccccatactt T/G aacaccatatgtcacaaaat   5412               HNMT   18   intron 5 + 1101   gtaggcagcctattcttgat T/G atattcatcaatcatacaga   5413               HNMT   19   intron 5 + 1137   acagaaaaagtattgtagac G/A gaaataacaattcattgaga   5414               HNMT   20   intron 5 + 1348   aagggagcatgaatagtcca C/G aagtaactgagaactgatta   5415               HNMT   21   intron 5 + 1673   caaaagaaagggagtaaaga C/G tcaacaatcagttagctttt   5416               HNMT   22   intron 5 + 2022   attttatttggggctttcta C/T gtctctctctcctaagccta   5417               HNMT   23   intron 5 + 2285   tgtcatacttaactcttaaa G/C atccagagtaaatgatggag   5418               HNMT   24   intron 5 + 4159   taccagttgacccagcaacc C/T tcttatagagtagtttaaat   5419               HNMT   25   intron 5 + 4501   aatgatccacaaaattacta C/G tcattgttttctttcaatga   5420               HNMT   26   intron 5 + 5251   cacacaracacacacacaca C/G caaatggaagcagccagaca   5421               HNMT   27   intron 5 + 5802   gaaaaagaaaatctggctta C/T atcatgttgaaaacaaaagt   5422               HNMT   28   intron 5 + 6189   tccaattccaccttctccta G/C agcatatcctgcagttacct   5423               HNMT   29   intron 5 + 6297   gtcttggttcatctcttgag T/A taaattagatctgggaactt   5424               HNMT   30   3′flanking + 458   tatgtcactctcaagaactc C/T tataagaccaagagtcatct   5425               HNMT   31   3′flanking + 993   ctgaaaatgaacactgaacc G/A ttaatcatactgatatgtac   5426               HNMT   32   3′flanking + 1793   gtggagcacagcattttagg G/A cttgatatttgcttattata   5427               HNMT   1   5′flanking − 228   ataattttcctgacgagctc A/T agtgctccctctggtctaca   5428               HNMT   2   intron 1 + 44   ccccactaatgtgagtcata T/C agatggagtctcagggcacg   5429               HNMT   3   intron 1 + 149   ggataaaaacgaatattggt A/a tagcgattccacagtttaca   5430               HNMT   4   intron 2 + 155   agataggcccatgtgtgtgc a/A tgttagtaaatttgtgtatg   5431               HNMT   5   intron 2 + 433   gctgtagccatccaagccta T/C agaacttggctgtgagtgtg   5432               HNMT   6   intron 2 + 10826   atcatctgactggtaagttc C/T agttctgtggtaactcaagt   5433               HNMT   7   intron 2 + 13630   atttcatggagggaagtcca T/C ggtagaagcaggctgctagg   5434               HNMT   8   3′flanking + 71   ggctcagtggttggggccca A/G tggttcatctaggacgggac   5435               PEMT   1   intron 1 + (297-299)   attgtgtgagactcagaggt TGT/Δ ccgtgttagtctttgggatt   5436               PEMT   2   intron 1 + 817   tcatgaagcctgtaaggcac A/G tctctgccccaagcagcttc   5437               PEMT   3   intron 1 + 830   aaggcacatctctgccccaa G/A cagcttctaatccagttctt   5438               PEMT   4   intron 1 + 1035   gagttctctgaaggagctaa T/C accagttagtgttttgaaga   5439               PEMT   5   intron 1 + 1573   agtgggcaggggagactaac C/T gggtgtgtgaggggtgggct   5440               PEMT   6   intron 1 + 1759   gatttttcttaaagaaagaa A/G gaaagaaacatacaacatac   5441               PEMT   7   intron 1 + 2768   gcatcttgctgtccacaggc C/A ggggcacctccaggattcag   5442               PEMT   8   intron 1 + 2785   ggccggggcacctccaggat T/C cagaagatgactccagtagg   5443               PEMT   9   exon 2 + 162   agctcagcagacctcctggc C/T gtggtgggtagctcctttcc   5444               PEMT   10   intron 2 + 4598   ccgtgggttttttttttttt t/≢ cttcatttctttggttgctg   5445               PEMT   11   intron 4 + 39   actgtccagacgygagtatc C/T cactgcttggtgagccccac   5446               PEMT   12   intron 4 + 1317   accgtccccagctggcccca G/A cctcctgacatgggcctctg   5447               PEMT   13   intron 4 + 1355   ctggagccaggctgcagccg A/C agtgcctggccatcctggcg   5448               PEMT   14   intron 4 + 5925   gtccaggcactgtggcccta C/T gtgggagtctccagtctcca   5449               PEMT   15   intron 4 + 6028   ggcagtggtccaaggaccag C/C atggactccctcttctcacc   5450               PEMT   16   intron 4 + 6078   atctgtaccctcgcggactc C/T acctggcttcgtgccatcac   5451               PEMT   17   intron 4 + 6089   cgcggactctacctggcttc A/C tgccatcacccccgccagat   5452               PEMT   18   intron 4 + 6379   tcaggtgtcccctccctcat C/A cctcctcaccctgccctctc   5453               PEMT   19   intron 4 + 7339   tgtaaggaatcctgccaaga C/T ggcagatgcacacggggtca   5454               PEMT   20   intron 4 + 7619   ctcctgcacatgtgctccag A/G gaggaaaggcatttgacagg   5455               PEMT   21   intron 4 + 8858   ggcatgtgtgtgtgtgtgta T/C gtgtgtgagtgtgtgcatgt   5456               PEMT   22   intron 4 + 9029   tttctggaccagaaagcgtc G/A tcctctgccagggcctcttg   5457               PEMT   23   intron 4 + 9056   gccagggcctcttgcacttg C/T gggaaagctgagctgagctg   5458               PEMT   24   intron 4 + 9512   ctgagctgggcagcagcatt A/G ctctgtgtgctgctggcact   5459               PEMT   25   intron 4 + 9523   agcagcattactctgtgtgc T/C gctggcactggcctggtggg   5460               PEMT   26   intron 4 + 9622   gacaaagtgtacaacaaggt G/A tctcgaactgggtcagctca   5461               PEMT   27   intron 4 + 10776   ccattcctgggtcttctttg G/A aggctgaatgaaattccatg   5462               PEMT   28   intron 4 + 10912   tctgccccactttgctcaga G/C gtgcaacaaggccttcagga   5463               PEMT   29   intron 4 + 11590   ggacactggcctgatgcaga G/C gtgtggtctctctcctgcag   5464               PEMT   30   intron 4 + 12090   ggccaggycacccctaocag G/C ctgagtcccacctgtccagc   5465               PEMT   31   intron 4 + 12263   tacccgccttcccagatgga G/A cgggctgctcatgggactta   5466               PEMT   32   intron 4 + 12448   tctggtcccctctcctgctt C/A tagtttcctgggctaaaatc   5467               PEMT   33   intron 4 + 12730   tgggaccagtgccgccacca C/T ggcccaaggacctggtgttc   5468               PEMT   34   intron 4 + 13240   gggctccaggcacacagcgg T/C cccagtacacctgtcgcttt   5469               PEMT   35   intron 4 + 13494   tccgtggaactcagagatgg T/C acctccctgcgaggtggggc   5470               PEMT   36   intron 4 + 13817   aactctcccctgctgctgag A/C cagatcttggagcctcggcc   5471               PEMT   37   intron 4 + 14773   ccgccctgtgcttcatgccc C/T ctatgcctctcactgcctgg   5472               PEMT   38   intron 4 + 14951   gtcctgaggcccctcccacc G/A gagcctggggtgccctcaca   5473               PEMT   39   intron 4 + 16896   gctgtgactgtcttggagac T/C gggtcttggcgggcctggtg   5474               PEMT   40   intron 4 + 19439   ccaggagcctctgaggcagc C/A ggggcttctcaaccacacac   5475               PEMT   41   intron 4 + 19557   attttgtcagcatgtcacgt C/T cctttcataatgaagcaagg   5476               PEMT   42   intron 4 + 20051   acagcactgcgggagccacg A/C catctgcagacgcatttgat   5477               PEMT   43   intron 4 + 20816   tggactctctggcgtccatc C/T agccacttcagtgcyacgtg   5478               PEMT   44   intron 4 + 21196   ggctggctgggccctgggat C/C atcytgacaggctttagtgg   5479               PEMT   45   intron 4 + 21528   acaggtgggagccgaggctc C/T ggaggtgggcogggctgagc   5480               PEMT   46   intron 4 + 21596   ccgcttccccgtgctctggc C/T gtagcagaaagtgtcccact   5481               PEMT   47   intron 4 + 22672   agcctcccactgccttgtgg C/T tgaggggagggggccgggtc   5482               PEMT   48   intron 4 + 22713   tctaacgctgtcttctttgt A/T ctgaaaaccaaacaccttct   5483               PEMT   49   intron 4 + 23010   tgccgggcagcggggaggga C/A ggcgagtggttcccccaagt   5484               PEMT   50   intron 4 + 23588   gtgcaggcgccctgcatccc C/T gcagccaagttctgggcgga   5485               PEMT   51   intron 4 + 23627   gacactgccctgagccagga C/T ggtgaggtgggacgccttcc   5486               PEMT   52   intron 4 + 23941   tgaggggttgggactctaca C/A aggagagtggactcacgggg   5487               PEMT   53   intron 4 + 24091   gacacctcttcactgtcagc C/T ctgagacacgcccctgccct   5488               PEMT   54   intron 4 + 25348   caggccagttggaatcctac C/A tagagtgaaagcatctcagc   5489               PEMT   55   intron 4 + 25603   taagcagttaacactgatgc C/A tgatgaaaattccaacagca   5490               PEMT   56   intron 4 + 31540   cctccaggtggcaggaacac T/C gtgaggagcatgcaacgtgc   5491               PEMT   57   intron 4 + 31637   gtgggctgggacgccaggac C/A gtgaggggcttcaaggtgtg   5492               PEMT   58   intron 4 + 31642   ctgggacgccaggacggtga C/A gggcttcaaggtgtgtttgt   5493               PEMT   59   intron 4 + 35593   ggaggagctgaaagagctgg C/A gctcgggatcaggtggttca   5494               PEMT   60   intron 4 + 35647   actttgaggcaccaccgcac C/A tgtccgtgcgtgagggagac   5495               PEMT   61   intron 4 + 35862   tcccagtggtggctctgtcc C/T cgtctcagccgagcactcag   5496               PEMT   62   intron 4 + 35882   ccgtctcagccgagcactca T/C cgyccagggtggctggactc   5497               PEMT   63   intron 4 + 37141   ccacaggccggatgccttga T/C acttctcagctgcagggctg   5498               PEMT   64   intron 4 + 38862   tggagagaccacctcagaca C/C caaggacgggcatgccatgg   5499               PEMT   65   intron 4 + 38872   acctcagacagcaaggacgg C/T catgccatgggtcccggcag   5500               PEMT   66   intron 4 + 39140   atgtctcaaatctccctccc C/T gggaaatctaggcacaggtc   5501               PEMT   67   intron 4 + 39635   caggcccaggagcaggtggg C/T cctcctcacaggagcagggc   5502               PEMT   68   intron 4 + 39713   actctgagcatgctggctcc C/T tccttctttccagggcagca   5503               PEMT   69   intron 4 + 40436   cctggttgtgcttcggaccc C/A gaggcagacagaggaggcct   5504               PEMT   70   intron 4 + 47485   acaatgactgttggagccct C/T gagcaggctgtgtcacgtgg   5505               PEMT   71   intron 4 + 48131   actgggggatcctgaatccc C/A cctcctgatgccagtggagc   5506               PEMT   72   intron 4 + 48558   cacagtgtgaactgttaggc C/C acagccacatcttgccggag   5507               PEMT   73   intron 4 + 48702   gagatgggggcggttcggga C/A gcaaaagcaggaaggcagaa   5508               PEMT   74   intron 4 + 50302   gcatgtgcatgggcagaggc T/C gttcccatctgagtggyacc   5509               PEMT   75   intron 4 + 54102   ggccgcgtgctcctgcagcc A/T tgggctcctctggcagttct   5510               PEMT   76   intron 4 + 54220   cccagggacagatcttctcc C/A ccagaogtctctttctgcct   5511               PEMT   77   intron 4 + 54371   gcagataatgtgcagctggg C/A tgcatgtggttgttgctccc   5512               PEMT   78   exon 5 + 79   tggcctgctactctctaagc C/C tcaccatcctgctcctgaac   5513               PEMT   79   intron 5 − 6796   ggaggaagtcagcttcttac A/C gatggtggctcccagctttc   5514               PEMT   80   intron 5 − 6636   ttttctcctctcaccttttg T/C gttcagaggcagaggtgtgc   5515               PEMT   81   intron 5 − 6448   gttgggccaggctctgacag G/A accctcgggaccagctcctg   5516               PEMT   82   intron 5 − 5218   ggagccCtggctgaagaagc C/G ttacgaccaaggcctggagg   5517               PEMT   83   intron 5 − 4824   ggacaggccgggggttgagc G/A gctgcatgaaggagggaggg   5518               PEMT   84   intron 5 − 4249   tcaccagagtgatttcctcg C/A ggcaggtgcctggggtagcc   5519               PEMT   85   intron 5 − 4230   gaggcaggtgcctggggtag C/T cactgggcggggtccatgag   5520               PEMT   86   intron 5 − 4182   ggagagtaaggggtgggggg G/A cacttaggacagggaagctg   5521               PEMT   87   intron 5 − 3369   ccaggtggggccgtgtgcct G/C tggcctggtgtgtygcccag   5522               PEMT   88   intron 5 − 2625   cagggaagctgggccctgaa C/T gagctgggcttttgggccac   5523               PEMT   89   intron 5 − 1200   attattgtgagcatgggaag A/T gcacatttggtcacacatgt   5524               PEMT   90   intron 6 + 606   gcctggctagacgcccacca A/G tgaccctgatgatggcagca   5525               PEMT   91   intron 6 + 1229   tttggtccaggaagggggac G/A gcagccaggagcgtctggat   5526               PEMT   92   intron 7 + 716   atggagatgtgctcccccgg C/G gggtcagaggacctgcggtc   5527               PEMT   93   intron 7 + 1537   ctctgggggacgcataagcc G/A cctccagaggacatcagcca   5528               PEMT   94   intron 7 + 1718   gggcttccaggtgtctgagc T/C ccccggcatgtaggacccca   5529               PEMT   95   intron 7 + 2695   ggctttgggggaccctggac C/T catttctagaaaacagcctt   5530               PEMT   96   intron 8 + 140   ccagggctcccaggtcagag C/T ggccatggtagcttacaatg   5531               PEMT   97   3′flanking + 179   tacttaggaggcgtcagggg C/T tcacctggccatggccatgg   5532               PEMT   98   3′flanking + 394   gatgacactgtcattcctaa A/G tgaatggccttgtgctgacc   5533               ALDH1A1   1   intron 1 + 564   cattatttcttcagccaagt T/C tgttgccattggagcagatg   5534               ALDH1A1   2   intron 1 + 710   gttctgagagtaactctgaa C/T tttgcctgtttcacactgct   5535               ALDH1A1   3   intron 1 − 3868   ccctttttatatccagaata C/G agcctaaacttctttctctg   5536               ALDH1A1   4   intron 2 + 2933   taagtatgctatactatatt T/C gatagatatactatactata   5537               ALDH1A1   5   intron 2 − 1646   caatgtgattaactgaatgc C/T gcaaatatgcactgtatatg   5538               ALDH1A1   6   exon 3 + 54   caggcttttcagattggatc C/T ccgtggcgtactatggatgc   5539               ALDH1A1   7   intron 3 + 157   taggccccttaacattgaac T/G attctcaaatagtaatctgc   5540               ALDH1A1   8   intron 3 + 339   tgagtctcctagaatgatat G/A ttaggtttattcaagcattt   5541               ALDH1A1   9   intron 3 + 655   agcagttagatgagtcagag C/A ataatatagttgggggaggg   5542               ALDH1A1   10   intron 3 + 735   gaagccaatttaacataaac C/A aataccaagatcaggtttca   5543               ALDH1A1   11   intron 3 + 863   gcaagtatggttaatcaaag G/A accatttattactcaaatat   5544               ALDH1A1   12   intron 3 + 1757   agatgacaagatttcttcta T/A ttcaaaaattccctagcaca   5545               ALDH1A1   13   intron 5 + 90   ttctctaaaacagatggatg C/A ttatgtatttgttaaatgtg   5546               ALDH1A1   14   intron 6 + 213   caggaagccaaacacaaagg T/C ttggtgtcaaacagtcaact   5547               ALDH1A1   15   intron 6 + 1323   ttttgaattaaattcttata C/T tgtaacttttaaacttttta   5548               ALDH1A1   16   intron 7 + 638   gcaaaagaaagtggtggaag C/A atactgtaccatgcaaaaaa   5549               ALDH1A1   17   intron 9 + (1462-1463)   aatggaattctatgtttttt (T) gttgtgattatttatctatc   5550               ALDH1A1   17   intron 9 + (1462-1463)   aatggaattctatgtttttt     gttgtgattatttatctatc   5551               ALDH1A1   18   intron 9 + 1757   tgatctagaatttagtttct A/G taaatgaatagaatccagtg   5552               ALDH1A1   19   intron 12 − 1383   aatcccacttattactctcc T/G gagagcttcaagtgcctata   5553               ALDH1A1   20   3′flanking + 40   ttttaagtacaagttttggt T/C acagtgatttcttcttgtca   5554               ALDH1A2   1   5′flanking − 716   cagggatcctcattctgagc C/G cgaggcgagggggactcgca   5555               ALDH1A2   2   intron 1 + 314   cggtcccgactgccgcgggg G/Δ aaggcgtcggaaccgcttag   5556               ALDH1A2   3   intron 1 + (664-675)   ataacgaacgttgacatctt   5557               ALDH1A2   4   intron 1 + 1370   gcatgcagcttagaagtttt A/G ttttatgagggtctctaacc   5558               ALDH1A2   5   intron 1 + 1557   ggtacgtttttcagaattta A/Δ tttggaagctcttccagttc   5559               ALDH1A2   6   intron 1 + 1934   tcagctctttagtgagactt C/G taaattttctaagacaagca   5560               ALDH1A2   7   intron 1 + (1971-1980)   agcatagtggacaagcagta (T) 9-11 aaacgtgaagagcagaagct   5561               ALDH1A2   8   intron 1 + 2295   tactgtaagacaatatgtta T/C tgttttttgtcttgctaaac   5562               ALDH1A2   9   intron 1 + 2387   ttgggacccacatagagtca C/T tacttaaaataaatgaccag   5563               ALDH1A2   10   intron 1 + 2841   aggaatgtgctttttaaaac T/Δ agatggtgttagtcaaggag   5564               ALDH1A2   11   intron 1 + 3035   gacttttataattttgtata A/G ctgatattataggaatacac   5565               ALDH1A2   12   intron 1 + 3319   aaagagttatgttttttttt T/A ctgcatctgatattatatgg   5566               ALDH1A2   13   intron 1 + 3474   ttgtctttttatttattcat T/C taaacttctgttttctgggg   5567               ALDH1A2   14   intron 1 + 4186   ccttccaaacctttacttaa G/C attgtctgttttggtcataa   5568               ALDH1A2   15   intron 1 + 4222   cataaattgtcagtcaaact A/G catgttaatagaggacttca   5569               ALDH1A2   16   intron 1 + 4254   aggacttcaggttttttttt T/Δ aaatactttttcataactat   5570               ALDH1A2   17   intron 1 + 4397   cccttccactacatgggcct A/G tgttaccatgtggaattatc   5571               ALDH1A2   18   intron 1 + 5935   aactccaggttgcaaataga T/C gtttctggtattttaagtag   5572               ALDH1A2   19   intron 1 + 6206   ttttgaaagccctcctagca T/G ttctttaatttctttattga   5573                ALDH1A2   20   intron 1 + 9559   agataaattgatgaattatt C/T actctgtgctgctgatagat   5574               ALDH1A2   21   intron 1 + (9631-9632)   taaaaagaatttctaaaaga (AAGA) ccttttttttgaataactct   5575               ALDH1A2   21   intron 1 + (9631-9632)   taaaaagaatttctaaaaga     ccttttttttgaataactct   5576               ALDH1A2   22   intron 1 + 12731   ctgaaatagaaacctttcag T/A gtaccttgcagagcagtgaa   5577               ALDH1A2   23   intron 1 + 13442   cagtgtcataaagatccagc G/A gaaatcaaaatgtttcatat   5578               ALDH1A2   24   intron 1 + (14173-14176)   tctaaaaaaataaataaata AAAA/Δ gagaaaattaagtttaagat   5579               ALDH1A2   25   intron 1 + 14586   actcatttattggttcaaag C/G cttcttcaacctaggatat   5580               ALDH1A2   26   intron 1 + 14595   ttggttcaaagccttcttca A/G ccttaggatatgcattgagg   5581               ALDH1A2   27   intron 1 + 14711   gtttgagacattaacttcta A/G ttcaactgaagatgctagtt   5582               ALDH1A2   28   intron 1 + (15327-15337)   gaagagcacagtagaaagac (T) 9-11 aaccctagcaatactattga   5583               ALDH1A2   29   intron 1 + 17258   atcagtacaatgtgttgggc A/G tacaacattaatttaaaat   5584               ALDH1A2   30   intron 1 + 18277   taatacaaatcatttgaagc A/G tttactattaaaaaaacaaa   5585               ALDH1A2   31   intron 1 + 18734   ctttgagcacctactgcatt T/A taagtgctgttaagatgtgg   5586               ALDH1A2   32   intron 1 + 19081   ttaatcacctcaatctttaa C/T gaatttcttgatttttcttt   5587               ALDH1A2   33   intron 1 + 21514   aatcaggatatggggggttc G/A ttctttattctgccacaaat   5588               ALDH1A2   34   intron 1 + 21732   cattttaaaatagtgcttta A/G taggacttggctgttaaagt   5589               ALDH1A2   35   intron 1 + 21865   tggcataggtttaaaaatgt C/T tgttgtaggactcttttcca   5590               ALDH1A2   36   intron 1 + 26282   taaagaaggagaaaaaaaaa A/Δ ctaatctgagactttgcagg   5591               ALDH1A2   37   intron 1 + 27805   ggatgatgctacccaaggaa T/C tgcacacttccagacagtac   5592               ALDH1A2   38   intron 1 + 28204   tcactccattttttaactgt C/G cttcctaaatgtgtggttaa   5593               ALDH1A2   39   intron 1 + 28521   tctttgttacacttcttaaa T/C cggggtatcagataatcttc   5594               ALDH1A2   40   intron 1 + 49478   gaataaaaggatagygacat G/T ggtaagaccactttttccct   5595               ALDH1A2   41   intron 1 + 49834   acctctcaattttctcatgt G/T taatagagagaaaaccctgc   5596               ALDH1A2   42   intron 1 + 50351   yactgactggttcataagtt C/G agaaatttcactgtggtgct   5597               ALDH1A2   43   intron 1 + 51181   tgttattaccatagtagttc C/T gtaacacttggccgttgact   5598               ALDH1A2   44   intron 3 + 654   ttaacctctcttgagtaaaa C/A gaatccttcagaaccagagg   5599               ALDH1A2   45   intron 3 + 668   gtaaaaggaatccttcagaa C/T cagaggggatggtacggacc   5600               ALDH1A2   46   intron 3 + 712   catacacttctgctccgttt G/T ccctgtcattctgtgagcca   5601               ALDH1A2   47   intron 3 + 1273   tattcatactgtgaaaaagg T/A gtttcatggtgaagaaattc   5602               ALDH1A2   48   intron 3 + 1743   ccacacctaaatgagattcc C/T gttttaaacactctcaagct   5603               ALDH1A2   49   intron 3 + 2891   tgcacatatatactcattgt A/G gtttttactaggaactagac   5604               ALDH1A2   50   intron 3 + 2919   ctaggaactagaccaaactg G/A cagtactagaaatcttttta   5605               ALDH1A2   51   intron 3 + 3054   tggaaagttctggggactta G/C tatctctccatttctcttcc   5606               ALDH1A2   52   intron 4 + 290   cattgtgctagattaggtgc T/C ggggtaggtatgaaggggca   5607               ALDH1A2   53   intron 4 + 380   ctccttgccctcctgaaaca T/C ataagatctactctttggaa   5608               ALDH1A2   54   intron 4 + 461   gattatggctgattttcagt G/T tctttttaatatttttctct   5609               ALDH1A2   55   intron 4 + 506   tctatatttctcgaacggcc G/A tgaattactttcataatcta   5610               ALDH1A2   56   intron 4 + 1952   ttggtccccactccacctgt C/C atttcattattaaaacaaca   5611               ALDH1A2   57   intron 4 + 2079   ctctatttggcctaacggta C/T cttggttttcttttacttcc   5612               ALDH1A2   58   intron 4 + 2519   ttgggtcataagagctctct C/C catggtgtctcaaacagagy   5613               ALDH1A2   59   intron 4 + (2840-2851)   tttgtctctgcatacttggc (T) 11-13   5614                   cacagtgaagtctggaatat               ALDH1A2   60   intron 4 + 7231   aataggatacaaatacacaa A/T gatagtgattcagatcctaa   5615               ALDH1A2   61   intron 4 + 7958   taaaatcgtttttattgtta C/T taggtatataaaatttgcta   5616               ALDH1A2   62   intron 4 + 8090   tctgattttatcactgttta C/T agattgcttagtcatactca   5617               ALDH1A2   63   intron 4 + 12823   tgttagcctgtagctaaatg C/T ttttcaaatatgtgaacggt   5618               ALDH1A2   64   intron 4 + 12939   atgaggtccgacttttaaga T/C ttttgtctacattttcttcc   5619               ALDH1A2   65   intron 4 + 14935   tattgatggagttcttttta T/C aaatggacttttaccttctt   5620               ALDH1A2   66   intron 4 + 15321   gcatttgggtgtctgagaga C/T atatccagaaatatgctatg   5621               ALDH1A2   67   intron 4 + 15412   tttcaagtttatttctgttt T/C tttttttttttttttttttg   5622               ALDH1A2   68   intron 5 + 1888   aatccaaacatctgtacttt G/T tagtggacaagatttatgtc   5623               ALDH1A2   69   intron 7 + 9166   gaaaagctactttattcaaa C/A ataaaagtattttaagaaaa   5624               ALDH1A2   70   intron 7 + 9914   aagctggagaaaatactagg C/T tttcctcaacagtgatttcc   5625               ALDH1A2   71   intron 7 + 18942   tttggaggggaactaatccc G/A tgacttctaggttatctctt   5626               ALDH1A2   72   intron 7 + 19820   ttcacccctcattttaggtt A/G ggggaggtggcttgctacag   5627               ALDH1A2   73   intron 7 + 19826   cctcattttaggttagggga G/A gtggcttgctacagttttag   5628               ALDH1A2   74   intron 7 + 19913   cgtgaatcattcagtatttt A/G tttaaaaataccagtttgaa   5829               ALDH1A2   75   intron 7 + (20110-20111)   catgatttattctctaacta (ACTA) tgctaagtcaaagattctgc   5630               ALDH1A2   75   intron 7 + (20110-20111)   catgatttattctctaacta     tgctaagtcaaagattctgc   5631               ALDH1A2   76   intron 7 + 21857   acaatgaaaattaagaaagg A/T gaagagggaagaagcagaga   5632               ALDH1A2   77   intron 7 + 21929   tacaagacacaggcatcttt A/G actagtttactgggatctct   5633               ALDH1A2   78   intron 7 + 23308   ggctttgacttcggaaacct G/T tgggttataacaaagtactg   5634               ALDH1A2   79   intron 7 + 23554   gacattggtgaaaaccaggg C/T tgtttaggagtgtcctgtcc   5635               ALDH1A2   80   intron 7 + (23701-23703)   catctgagatttgccttgtg GTG/Δ tttaccgagttagtgggtgc   5636               ALDH1A2   81   intron 7 + 26479   gatacatgaacaatttgttt T/C atcctcatgatatctttcaa   5637               ALDH1A2   82   intron 7 + 26561   taaaggccacaatgcagtga T/C tgaaatctccagttacattt   5638               ALDH1A2   83   intron 7 + 26662   tttccttagtccttccatca C/T gaaactaaagctgtcttcca   5639               ALDH1A2   84   intron 8 + 76   tttatatctccacttttgat C/A ggacactagcaaaagatatt   5640               ALDH1A2   85   intron 8 + (700-711)   ccctccacttgttgccaggc   5641               ALDH1A2   86   intron 8 + 724   ttttttttccctccacttgt T/C gccaggcagagctgctttcc   5642               ALDH1A2   87   intron 8 + 800   cagattgcttgaatttcagc C/A ccagcttggaatttgcagag   5643               ALDH1A2   88   intron 8 + 1251   gatttctgtgaaaattgaga C/A gatctggcaacctggggctc   5644               ALDH1A2   89   intron 8 + 1627   ggcccctccccaggcaaagc C/A gtgagaacatggctgtttcc   5645               ALDH1A2   90   exon 9 + 141   tggagcgggccaagaggcgc C/A tagtggggagtccctttgac   5646               ALDH1A2   91   intron 9 + 778   aaccagtctggacagatccc T/C tgtagcttgtgaaagtgtag   5647               ALDH1A2   92   intron 9 + 801   tagcttgtgaaagtgtagga A/C gtgaagggctggctcacttc   5648               ALDH1A2   93   intron 9 + 868   tctgaaggcctcgtgtactt T/C agtggggtggggagggccac   5649               ALDH1A2   94   intron 9 + 1338   aatttttgcctctttttact A/C tcaatacaacttgctaagtt   5650               ALDH1A2   95   intron 10 + (227-229)   ctatgtgcttatgattatta TTA/Δ gccaacagaacaatcagaat   5651               ALDH1A2   96   intron 10 + 316   ctaaatgtgggtcactggga T/C gttaaccaggagagagaatc   5652               ALDH1A2   97   intron 10 + 368   ctttacatctgtgcaagaga C/A ggacaaggagcaaatcagcc   5653               ALDH1A2   98   intron 10 + 660   gtaaacttgcattgaaatgt C/A gaaagcaggtaaaggaatga   5654               ALDH1A2   99   intron 11 + 104   tggggaataccaaaagcaac C/T aaagttcaccagaaaagggg   5655               ALDH1A2   100   intron 11 + 229   aaacttctaaaagaaatacc A/G tgccagtcagattatgtgct   5656               ALDH1A2   101   intron 12 + 117   catacattcaacaaacattt C/T gtggagcacatgctactata   5657               ALDH1A2   102   intron 12 + 691   gatagggaagatcactgtga A/G ctggaaaaatctgggaaacc   5658               ALDH1A2   103   intron 12 + 1934   catcttgtctagattgcatg T/C ttgtttgtttgtttgtctct   5659               ALDH1A2   104   intron 12 + 1973   ctacttacccccaaaacatg T/A tttctctttcttaaatgacc   5660               ALDH1A2   105   intron 12 + 2722   ccagagtgactccagtatac C/A tcactgcccaggacccacag   5661               ALDH1A2   106   intron 12 + 3855   cacttgaaagcaaccataat T/C gtgaggtttctgatgctgta   5662               ALDH1A2   107   intron 12 + 4185   ttgctttaagcgaaatgaac T/C atacggacaggagaacagcc   5663               ALDH1A2   108   intron 12 + 4991   acaggaacacttagacatgc A/G acccactcccaccctccgtc   5664               ALDH1A2   109   intron 12 + (5018-5019)   cccaccctccgtcttggggg (G) aggaaagcacactactgtcc   5665               ALDH1A2   109   intron 12 + (5018-5019)   cccaccctccgtcttggggg     aggaaagcacactactgtcc   5666               ALDH1A2   110   intron 12 + (5051-5052)   actgtcccaaagaactaata (A) ctgaaccagtgctgccttgt   5667               ALDH1A2   110   intron 12 + (5051-5052)   actgtcccaaagaactaata     ctgaaccagtgctgccttgt   5668               ALDH1A2   111   intron 12 + (5300-5302)   ttaaagttttaaaaaaactt CCT/Δ taaaaactactcatgagatg   5669               ALDH1A2   112   intron 12 + 5405   catcccaggacttgctgttc G/C caggtgataaactgcacctc   5670               ALDH1A2   113   intron 12 + 5435   aactgcacctccccaggact C/A ccgctgcactcacatgcagc   5671               ALDH1A2   114   3′flanking + 449   tttgggccgggaacaatttt T/C caaggttgtaaagccaaatt   5672               ALDH1A2   115   3′flanking + 597   acctgggatattcctgaccc A/C atctggttttcttttaccca   5673               ALDH1A2   116   3′flanking + 669   atagagactggaagtcatca T/C gtgcagttcaccgcttctga   5674               ALDH1A2   117   3′flanking + 1122   cgtgctccactgagctcctc T/G gtcacaccccattcttgccc   5675               ALDH1A2   118   3′flanking + 2214   tgcagctgtaaaaagaaatc T/C gtaaatggtgaccgtactac   5676               ALDH1A3   1   5′flanking − 1425   cagtgttagccagccgatat C/T ggtcaaggctgccccgctcg   5677               ALDH1A3   2   5′flanking − 1379   ccattatcccctttccccgg C/T ctcagctgtgcactccaggc   5678               ALDH1A3   3   5′flanking − 1270   aacttacccctctatccagc T/A ctatccagaaggacaccagg   5679               ALDH1A3   4   5′flanking − (1214-1213)   acggaggcctcaaaacagga (GGA) aaataaggagacccctcccc   5680               ALDH1A3   4   5′flanking − (1214-1213)   acggaggcctcaaaacagga     aaataaggagacccctcccc   5681               ALDH1A3   5   5′flanking − 1103   gcacagcttttgtcaggagt C/T cgtgcctccggtctttgttc   5682               ALDH1A3   6   intron 1 + 986   gccttaactttccccacctt T/G ggcttctcttgatttttgct   5683               ALDH1A3   7   intron 1 + 1462   gtacaggatttcaaaatact G/A tatatagaaaccagacagta   5684               ALDH1A3   8   intron 1 + 1661   cctgttgtcttggtgggtgc G/A caacctttgccagttaaagg   5685               ALDH1A3   9   intron 1 + 2360   agaggatagaagtcccttct A/G atttagagggcctctttctt   5686               ALDH1A3   10   intron 1 + 2516   tgaaaacatattctttttga G/A tttagctgagtggcctgttg   5687               ALDH1A3   11   intron 1 + 2624   cctgagacaccttacagctc C/T gtcctgcttccatgtcattc   5688               ALDH1A3   12   intron 1 + 3255   tttcatctttctacaaatgg G/C cccctcttcctggctgcact   5689               ALDH1A3   13   intron 1 + (3643-3656)   aacattctatcaacttttaa   5690               ALDH1A3   14   intron 1 + 4265   ccaaaagccctctcttttaa T/C atgacattaataagacaatt   5691               ALDH1A3   15   intron 1 + 5187   caagatggataagacgtcac C/T taaggtccttagcatgttga   5692               ALDH1A3   16   intron 2 + 43   ctctaagtaattcaattatg G/T atgaccaaaggataaggaaa   5693               ALDH1A3   17   intron 2 + 127   cagggcctgggctagctgcg T/C gaattggcatgtggttctca   5694               ALDH1A3   18   intron 2 + (285-300)   atcaattatttggacctgga   5695               ALDH1A3   19   intron 2 + 778   cgtgtgcagagtaggcttgg A/G ttttatcttgcccatgagtt   5696               ALDH1A3   20   intron 2 + 1216   actcggtagagtcactcctg A/C ctggtgtcccacatccactc   5697               ALDH1A3   21   intron 3 + 81   accatggggtatgggaaaaa A/C gatcacggtcctggttttgt   5698               ALDH1A3   22   intron 3 + 236   gctcagcttcttgaccaagt T/G gttgtctataggcagttgag   5699               ALDH1A3   23   intron 3 + 1467   ggcccggttgtaggggagga G/T atctcctttctggcctttga   5700               ALDH1A3   24   intron 3 + 1725   ccacatgttccccgggtgag A/G gtagctccctcccagggtaa   5701               ALDH1A3   25   intron 3 + 3777   gccagaagtagatgccccca A/G ttcagctgctgcattactgg   5702               ALDH1A3   26   intron 3 + 3829   caagtcactgggccgttagc G/C tccgtgcctgcaccttgaag   5703               ALDH1A3   27   intron 3 + 4299   tcactttccacagccacact G/A gccagcctggccgagaagga   5704               ALDH1A3   28   intron 4 + 84   agagccccccctgactgttt C/G cctaaggcaccattcccaac   57O5               ALDH1A3   29   intron 4 + 126   ccactccctctccaaatggt A/G ctgccaattcttcttctaag   5706               ALDH1A3   30   intron 6 + (290-291)   tagagaattttcaggggggg (G) tcaaccaagagggagccaaa   5707               ALDH1A3   30   intron 6 + (290-291)   tagagaattttcaggggggg     tcaaccaagagggagccaaa   5708               ALDH1A3   31   intron 6 + 705   aacagctggtgatgagccaa T/G tttccactttcctttggtga   5709               ALDH1A3   32   intron 7 + 56   ggggcgtgttatttgacacc C/T gtgagcttttcctttgacag   5710               ALDH1A3   33   intron 7 + 1107   gatgctgttactctccttgg A/G gacagacactgccctgtgga   5711               ALDH1A3   34   intron 7 + 1610   aagagccacacagaaccacc C/G ccctactgggctgttggaat   5712               ALDH1A3   35   intron 7 + 1820   cacctgtaagtggagcggct T/C agaccaaggatcccaggatg   5713               ALDH1A3   36   intron 8 + 963   cagaaaggacaggaggagga C/T acaggctctcaggaaggaaa   5714               ALDH1A3   37   intron 8 + 1824   accattcttatccactaagc G/A tgtcccccaagatcttattc   5715               ALDH1A3   38   intron 8 + 2384   cgcctccctcgcccctcccc C/A tccagtggacttggcagtgg   5716               ALDH1A3   39   intron 9 + 24   atccccctggtgtgtgtgaa A/C ccatggtgcttgtctagggg   5717               ALDH1A3   40   intron 9 + 91   gcctacagggtccctctccg T/C gaaaggaatgctgacctgtc   5718               ALDH1A3   41   intron 9 + 219   actgaggcatgggaggaggg C/G gctattcccagggcagaagg   5719               ALDH1A3   42   intron 9 + 435   ccagacggagagagcctggg G/A caggagaatgtatctccagg   5720               ALDH1A3   43   intron 9 + 1472   ttgacttttgaggccagata C/T accgatttcttccaagagaa   5721               ALDH1A3   44   intron 9 + 2038   taaacaatgtgttcctacgg G/A ctctccagggagtgtggagt   5722               ALDH1A3   45   intron 9 + 2124   caaacagggtctgccagatg G/A catatgcccagcagccaggg   5723               ALDH1A3   46   intron 9 + 2154   agcagccagggaggacctgc G/C gttgggcgaagcccctgtgt   5724               ALDH1A3   47   intron 9 + 2197   cttttggcccctcagggagg G/A gaagagcagctcagcagcat   5725               ALDH1A3   48   intron 9 + 2466   ttcttagttcctcatgtttc C/T ctctagaatgttttcgtgtg   5726               ALDH1A3   49   intron 9 + 3655   gattggtcaagtggcatgca C/T ggtttatgccctctctcctg   5727               ALDH1A3   50   intron 9 + 3954   gggtgcgcttttgacaactg C/G tcagtagcgtgttcacaagc   5728               ALDH1A3   51   exon 10 + 88   tggaatgcgggggctcagcc A/G tggaagacaaggggctcttc   5729               ALDH1A3   52   intron 10 + 8   tgccaaagaggaggtacaag G/A gggctgtggcaaggctacga   5730               ALDH1A3   53   intron 10 + 307   ctctctgattttctaacaca A/c ccggtccccgagtcagtcat   5731               ALDH1A3   54   intron 10 + 378   gtgggttttgccaggaatca G/A ttcaagaacctgtggattca   5732               ALDH1A3   55   intron 10 + 975   aatattgtgtcattccttcc C/G ctggtagttattatgyaaac   5733               ALDH1A3   56   intron 10 + 1088   cagtgccaggagccaggggg C/T cttctccagatgactctgag   5734               ALDH1A3   57   intron 11 + 105   ttgtttacattgtatattat A/G taccaagccctgtctcagtg   5735               ALDH1A3   58   intron 11 + 274   agggctccagtacctgtgcc T/G gtggcccctgtgctgtactg   5736               ALDH1A3   59   intron 11 + 1088   cagtgccaggagccaggggg T/A cttctccagatgactctgag   5737               ALDH1A3   60   intron 12 + 96   ctccaatctgctgacacccc G/A tcccccccacaccgccgctc   5738               ALDH1A3   61   intron 12 + 1537   gggccttggttggggccttt G/T tgtggctctcttttgagatt   5739               ALDH1A3   62   intron 12 + 1660   gtccccctcccacctcagtc C/t tgctttgtagtccatccctg   5740               ALDH1A3   63   intron 12 + 5642   tctgtgctaacgtctgcttc T/C ctcatgccccctaggctggc   5741               ALDH1A3   64   exon 13 + 104   gggctccttcctcaaacatc G/C gacggcggaatgtggcagat   5742               ALDH1A3   65   exon 13 + 281   ataggttgtctgtgaaatcg C/T agtcctgcctggggagggag   5743               ALDH1A3   66   3′flanking + 743   gtgagcaggaaactgtagga G/A aaggatattttccctcattt   5744               ALDH1A3   67   3′flanking + 1145   gcctcccagctaccccaccc A/G cctcaggagyggtcattcca   5745               ALDH1A3   68   3′flanking + 1185   aacctagggtgctgagaatc T/C gggtgggattaccagcaaaa   5746               ALDH1A3   69   3′flanking + 1600   acaccacgccctgcaaattg T/C tgggaacttgtcggtggcaa   5747               ALDH1A3   70   3′flanking + 1847   caggagccctgcggctgccc C/G ggttctgtgaaatggcagtg   5748               ALDH1B1   1   intron 1 + 134   cgttgcactgtaggactctc C/T ccacgtcccctaatcccatc   5749               ALDH1B1   2   intron 1 + 367   gcagttcccgcggatagaga A/G ggtccggtccttcccgctgt   5750               ALDH1B1   3   intron 1 + 405   tgtgggtgaactgtaaaaaa C/T tgcctgtattcaggaggata   5751               ALDH1B1   4   intron 1 + 2002   cttcaactaatctgggaaca C/T tacactctgtttaattttca   5752               ALDH1B1   5   intron 1 + 2157   tgggaaagctgaaaagggat G/T ctgagacctgtggttggggg   5753               ALDH1B1   6   exon 2 + 192   ccgacggtcaaccctaccac T/C ggggaggtcattgggcacgt   5754               ALDH1B1   7   exon 2 + 265   cgtgaaagcagcccgggaag C/T cttccgcctggggtccccat   5755               ALDH1B1   8   exon 2 + 329   gcggggccggctgctgaacc G/T cctggcagacctagtggagc   5756               ALDH1B1   9   exon 2 + 614   acttgccccggcactcgcca C/T aggcaacactgtggttatga   5757               ALDH1B1   10   3′flanking + 168   aaagtgcaactgtaagaccc G/A tayagaaaaactctggttcc   5758               ALDH1L1   1   intron 1 + 252   cgcagcgccaggactggccc G/C ccgaggatctggccggccgc   5759               ALDH1L1   2   intron 1 + 544   ctcaggggctgcgctggagt C/T ccagctccagccactgcgct   5760               ALDH1L1   3   intron 1 − 6596   cagatttttcttaaggtgca C/G tagccactgaggatattttt   5761               ALDH1L1   4   intron 1 − 6513   caattatggtttatcttagg G/A acatgtttatagagatagta   5762               ALDH1L1   5   intron 1 − 6478   atagtattcttacttagctt G/A cattctaaattttgttccct   5763               ALDH1L1   6   intron 2 + 240   gtggcattagggtcctggag A/G agggctatagagaagcccag   5764               ALDH1L1   7   intron 2 + 1326   gaggaggagaccggagagga G/C agccagtccagtcagggccc   5765               ALDH1L1   8   intron 3 + 386   gtcctactctaacttccact G/A ccgctgctctgggcagcaca   5766               ALDH1L1   9   intron 4 + 271   gggcccgttcaatagacaag G/C aaggctaaaggcagggactg   5767               ALDH1L1   10   intron 4 + 356   taggattctatttctctctc C/T ttcactcgttgattctcctt   5768               ALDH1L1   11   intron 4 + 608   gtgctctgataggctgtctc A/C gtcacatgcttcctgctygg   5769               ALDH1L1   12   intron 4 + 664   ggtcacatggcctgagcggc A/G gggcggctcagtcacctggg   5770               ALDH1L1   13   intron 4 + 785   gagggctgcttgcccctgcc C/G gaggacaggctggcagggac   5771               ALDH1L1   14   intron 4 + 874   ccctggggagcccttgctgt T/G tgggcgcagcaggaagagca   5772               ALDH1L1   15   intron 4 + 1349   tccctcaggctcttgctcac G/A tgggcccagactccttggct   5773               ALDH1L1   16   intron 4 + 1799   ctggggctgggaaggaggca G/A ggtcctattgctggggatag   5774               ALDH1L1   17   intron 4 + 1815   ggcagggtcctattgctggg G/A atagcaacccactggatctc   5775               ALDH1L1   18   intron 5 + 272   aaaycccacaggyagataag A/G gtgggagttagggggcaaaa   5776               ALDH1L1   19   intron 5 + 301   tagggggcaaaacgtcagcc G/A tagtgcgagcagtcttcaag   5777               ALDH1L1   20   intron 5 + 343   caaggtgtgagggacagtgc G/A ggtctctggagcaatagcca   5778               ALDH1L1   21   intron 6 + 926   cctgcctgggctactggctt C/T gggggcttcttctcacccac   5779               ALDH1L1   22   exon 7 + 41   aacgctgaacactteaggcc T/C ggtgcccgagggagacgctt   5780               ALDH1L1   23   intron 7 + 305   cctagaatcagagagaagcc C/T tcccagggagcctgggttca   5781               ALDH1L1   24   intron 7 + 837   gtccggacaaaccccatggg C/T gtggtacccccagccgtgtt   5782               ALDH1L1   25   intron 7 + 866   cccagccgtgttgctgtgtc C/T ggcctaccagagtgaggcgt   5783               ALDH1L1   26   intron 7 + 884   tccggcctaccagagtgagg C/T gtggcagtatggggcctggc   5784               ALDH1L1   27   intron 7 + 1118   aatgttccagaaaatcatgc G/C aggcagtaagggcagaggaa   5785               ALDH1L1   28   intron 7 + 1168   aaagtaaaggttcaggagaa G/A tctagcctggggctgctccc   5786               ALDH1L1   29   intron 7 + 1451   cagggcacccacagcatctg T/C ccagagacctgcaaagacag   5787               ALDH1L1   30   intron 7 + 1489   caggaatgcaaagaaggcaa T/C taagtgtcttaagaggaagc   5788               ALDH1L1   31   intron 7 + 1579   tcagggtgggaggggagtga G/A gagagaccagctgagcacac   5789               ALDH1L1   32   intron 7 + 1691   ctggctgggctttagcttgc A/C gaaagctccagaacatcttt   5790               ALDH1L1   33   intron 8 + 1632   tcaggtttgcatttgttcac T/C gtgcacattcagagttccag   5791               ALDH1L1   34   intron 8 + 1799   gctcaagtcctcctctagct G/C ttcaccgtgcagccccctaa   5792               ALDH1L1   35   intron 8 + 1986   ggtggaggggcctggcctgt G/T gctgttcaggagaacgctcc   5793               ALDH1L1   36   intron 8 + 2002   ctgtggctgttcaggagaac A/G ctccaagagcctgctgtggg   5794               ALDH1L1   37   intron 8 + 2627   aaagaggagagccgggggtg C/T ttgtgccaggggttggggga   5795               ALDH1L1   38   intron 8 + 2646   gcttgtgccaggggttgggg G/A aactggttctgattgggcct   5796               ALDH1L1   39   intron 8 + 2925   ctgctgccctccataggtcc C/G agactgaatccttcagagga   5797               ALDH1L1   40   exon 9 + 4   caggtcttgctttgcagagt G/T tttggcagcggatcctcccc   5798               ALDH1L1   41   exon 10 + 109   cagctgttagtgaggaagct G/T cgaggggacgatgaggaggg   5799               ALDH1L1   42   intron 10 + (671-672)   tggcattttcctctgtctga (AG) gtcctcttagcccaccctaa   5800               ALDH1L1   42   intron 10 + (671-672)   tggcattttcctctgtctga     gtcctcttagcccaccctaa   5801               ALDH1L1   43   intron 11 + 8   caccgatggaagtgtgagtg C/A aggcccagcaccccttctcc   5802               ALDH1L1   44   intron 11 + 447   atgagccaaagcacgcctat G/A gtagatacacacgtgaacat   5803               ALDH1L1   45   intron 11 + 601   ctcaaaatgagtcatttgag A/G ggagttaatgaaagactcat   5804               ALDH1L1   46   intron 11 + 639   catctgcaaagggagaggga G/A ggggtagggacacagacagg   5805               ALDH1L1   47   intron 12 + 66   ctgggcagtggcacgggggg G/Δ acttctgtggaggccctttt   5806               ALDH1L1   48   intron 12 + 478   ctattaaaaaaaaaaaaaaa A/Δ tttaagccagggagaaaggg   5807               ALDH1L1   49   intron 12 + 684   tcctgggagaagagagggtg C/T ggccagatgagccgagaaca   5808               ALDH1L1   50   intron 12 + 767   cgtctaggggtgcgaagcca A/G gttatggcgtggtcccaacg   5809               ALDH1L1   51   intron 12 + 1014   tcataggttccagtcccctt C/T gcaagcccctcaattctaga   5810               ALDH1L1   52   intron 12 + 1359   ctggttctgcctcagctcag C/T acagcagaggCtgygtctag   5811               ALDH1L1   53   intron 12 + 1734   ggtggtccaggctgctggtg G/T tcagtagggccggccgagcc   5812               ALDH1L1   54   intron 12 + 1901   ttcagcagcctaactgaatt G/A acaatagaatagtcctgcaa   5813               ALDH1L1   55   intron 12 − 470   gggatggggccacctctcca T/C ctctggagatgccaggctca   5814               ALDH1L1   56   intron 12 − 334   aagggcagcctcttgggcca T/C gacccctttgctgtctgcag   5815               ALDH1L1   57   intron 12 − 325   ctcttgggccatgacccctt T/C gctgtctgcagcaagtgggt   5816               ALDH1L1   58   intron 12 − 221   gaaggaagcgagggaagatc G/C aggaaaggagagagggacag   5817               ALDH1L1   59   intron 12 − 4   cccgcttcccctcaccctgg T/C caggttggcagatctcatgg   5818               ALDH1L1   60   intron 13 + 34   tcccacccagtgtgagcaca T/c gcagactggcccagccatat   5819               ALDH1L1   61   intron 13 + 58   gactggcccagccatatagg A/G gaactccaagggcagcacag   5820               ALDH1L1   62   intron 13 + 125   ccacaactggtggcttggaa T/C gacacctgtttattagcttg   5821               ALDH1L1   63   intron 13 + 126   cacaactggtggcttggaat G/A acacctgtttattagcttgt   5822               ALDH1L1   64   intron 13 + 281   acctgcatccagacgagttc T/G ggtgttgacagagttcagtt   5823               ALDH1L1   65   intron 13 + 299   tcgggtgttgacagagttca A/G ttccgtgtggatgcagggct   5824               ALDH1L1   66   intron 14 + 121   catttatcaaacagccatcc A/G tgtgcttcttgagcacctgc   5825               ALDH1L1   67   intron 14 + 167   gccaggcattgttgtaagga C/T ttgaggacaattgtatttaa   5826               ALDH1L1   68   intron 14 + 205   taatctcccagtaacactgg A/C tcagtcaggtccacggtggg   5827               ALDH1L1   69   intron 14 + 219   cactggatcagtcaggtcca C/G ggtgggaaacaagagtaaac   5828               ALDH1L1   70   intron 14 + 2275   tctcatctgtgatgcatccg T/C cagacctctgctcccagcct   5829               ALDH1L1   71   intron 14 + 2431   agaatgactgagtgatcaga C/G ctagagagccccagccccgg   5830               ALDH1L1   72   intron 14 + 2660   agccaagcatttcttgggga C/T accaagaaaccttgcttggt   5831               ALDH1L1   73   intron 14 + 2740   aactccaccctcaccgtcca T/C gcagctccccaggagcgtca   5832               ALDH1L1   74   intron 14 + 2756   tccatgcagctccccaggag T/C gtcagagggcagaggagggg   5833               ALDH1L1   75   intron 14 + 2805   ccgcacagcaggagaatggc T/C ccaagggagggagggacggg   5834               ALDH1L1   76   intron 14 + (3636-3637)   tctcctgggtgtgtgtgggg (G) tgtggggcagctcccctatc   5835               ALDH1L1   76   intron 14 + (3636-3637)   tctcctgggtgtgtgtgggg     tgtggggcagctcccctatc   5836               ALDH1L1   77   intron 14 + 4347   tccaggacagaaacagcagg C/T gtgagctgcctctcagaggg   5837               ALDH1L1   78   intron 15 + 380   atgtcccttatgtggcttcc A/G agaccagaagtcctggagag   5838               ALDH1L1   79   intron 15 + (1055-1056)   gccacaatctgcagctactc (C) tcccagcttgctgctgggct   5839               ALDH1L1   79   intron 15 + (1055-1056)   gccacaatctgcagctactc     tcccagcttgctgctgggct   5840               ALDH1L1   80   intron 17 + 15   gaaaaggtgcgtggctgggg G/C tggagcagaggaggggctgc   5841               ALDH1L1   81   intron 17 + 44   aggaggggctgctgtgagtg C/T gcctgggacatgycagtgct   5842               ALDH1L1   82   intron 17 + 51   gctgctgtgagtgcgcctgg G/A acatggcagtgctgtccaca   5843               ALDH1L1   83   intron 17 − (2224-2223)   ctggtgtcatctcccagact CT/Δ gtcactaaaccacaatatga   5844               ALDH1L1   84   intron 18 + 140   agcgtcatcacaagcatagc G/A tggcaggcagcaggcttagg   5845               ALDH1L1   85   intron 19 + (51-52)   tggttcactgggacagcagc GC/Δ ctggctggagggggttggag   5846               ALDH1L1   86   intron 19 + 399   tcaggtcagcctgggcctga C/A catggacaggggccctggag   5847               ALDH1L1   87   intron 19 + 608   ccaccagatttatccactca A/G ccacacctggaagagcaggc   5848               ALDH1L1   88   intron 19 + (669-670)   atgggccatcctgaytcccc (C) ttgggaggtttgtaatgcct   5849               ALDH1L1   88   intron 19 + (669-670)   atgggccatcctgagtcccc     ttgggaggtttgtaatgcct   5850               ALDH1L1   89   intron 19 + 1794   gtcctgtctgggggtcttaa G/C ggagtcatgagacttccaca   5851               ALDH1L1   90   intron 19 + 1969   tgatcggggtgcggtttggg G/T cgacaggacaggagcagaga   5852               ALDH1L1   91   intron 19 + 1972   tcggggtgcggtttggggcg A/G caggacaggagcagagaata   5853               ALDH1L1   92   intron 19 + 2083   tgagaagagcagaggggtgt G/T ccgggtgctcgagtcacacc   5854               ALDH1L1   93   intron 19 &#39;2119   acacctgtgtctgattaggg C/T tgattaggggtcagagttt   5855               ALDH1L1   94   intron 20 &#39;1388   ttaccctcttcccactcccg C/T tggactgtgagttccatgag   5856               ALDH1L1   95   intron 20 &#39;1564   cccaggaaccaggaacagtg G/A ggagccatcaccccgccctg   5857               ALDH1L1   96   intron 20 &#39;1873   tcagtgttaaaacatcattt G/A tgtatgtatgaaaaatattg   5858               ALDH1L1   97   intron 20 &#39;2427   actaggattggatggacttg G/C gatcaggtctcagctctgtc   5859               ALDH1L1   98   intron 20 &#39;2458   cagctctgtcacctgccaac C/T ggcggccccatttccctcaa   5860               ALDH1L1   99   intron 20 + 2544   ccaggtgggagagccatctg C/T agcgtggtgacacccatcac   5861               ALDH1L1   100   intron 20 + 2573   gacacccatcacacgggtgc C/T gtgacccggtgcttatgtcg   5862               ALDH1L1   101   intron 20 + 2574   acacccatcacacgggtgcc G/A tgacccggtgcttatgtcgg   5863               ALDH1L1   102   exon 21 + 33   agccaactgttttcacagac G/A tggaagaccacatgttcata   5864               ALDH1L1   103   exon 21 + 87   ccttcgggcctgtcatgatc A/G tctctcggtttgctgatggg   5865               ALDH1L1   104   intron 21 + 323   ccatgcattaaaccaccccc C/G acactgagtggctttggaata   5866               ALDH1L1   105   intron 21 + 361   ataatcagagatttatttta C/G tcacggtctaggttcaatga   5867               ALDH1L1   106   intron 21 + 478   gtcttgcgfggaggcttcctc C/A gcgtggcagcctcggggttg   5868               ALDH1L1   107   intron 21 + 1086   caacccaatcttgcccccgg C/T gctgcagcccggcacatttt   5869               ALDH1L1   108   intron 22 + 235   gggcctggaggagacactcc A/C gccaggaggcactgggggcc   5870               ALDH1L1   109   intron 22 + 313   atagcagggaggagttggcc G/A tgaagacccaggggcccgtg   5871               ALDH1L1   110   intron 22 + 1214   tgggcccacttatgaatcct G/C cccgagttccctcagctccc   5872               ALDH1L1   111   intron 22 + 1226   tgaatcctccccgagttccc T/C cagctccctcctaaccctag   5873               ALDH1L1   112   intron 22 + 1623   ggggcttcccactgtccaga C/G aaggcggtgggagctgggga   5874               ALDH1L1   113   intron 22 + 1698   attctggggagtCCtggccc A/G ctatccactgccagggataa   5875               ALDH1L1   114   3′flanking + 145   cagagacaggaggaaatggg C/T gtgggtcatctcaggcccca   5876               ALDH1L1   115   3′flanking + 239   tgggaaacaggtgggaagac G/A gggattgagctgggtgagcc   5877               ALDH1L1   116   3′flanking + 288   ggaagcagctcagactccct C/T agcagatggggccgggccct   5878               ALDH1L1   117   3′flanking + 1513   agggtcggctcagaccccgg A/C gtgctcctggcatgtccagc   5879               ALDH1L1   118   3′flanking + 1707   cggtgggacttgccctagca C/T gtgccacttataccagaaca   5880               ALDH1L1   119   3′flanking + 1709   gtgggacttgccctagcacg C/T gccacttataccagaacaga   5881               ALDH1L1   120   3′flanking + 1745   acagatgagtccatgtcaac C/T gcttcctgagttccctttgt   5882               ALDH1L1   121   3′flanking + 1843   ctgcctctcagcccacagcc G/A ggccgctcacactcctccca   5883               ALDH2   1   intron 3 + 1766   aaattggtggctcatcctgc C/Δ tggcccccttcctcctcctc   5884               ALDH2   2   intron 8 + 52   gaaggtagccctggccacct G/C tgttgtggctccagccgatc   5885               ALDH2   3   intron 8 + 69   cctgtgttgtggctccagcc G/A atcctgtcgcccccccagtg   5886               ALDH2   4   intron 9 + 5197   gctttcttatgaccttggtc C/A atttcccagttgtcttgttg   5887               ALDH2   5   intron 11 + 114   gagctgggctcagtttctcc T/C gggtcagggtgtgatgtcga   5886               ALDH2   6   3′flanking + 411   ggatatgatttctgcccctc T/C tctgctgtgggtaaacagct   5889               ALDH2   7   3′flanking + (432-433)   tctgctgtgggtaaacagct TC/Δ tgtttcatgcatttactttt   5890               ALDH2   8   3′flanking + 488   ccaataagaatgtgcttgaa G/T gtttcatgcatttaatttgt   5891               ALDH3A1   1   5′flanking − 758   crgcaggcgggtgagggtgg C/A gggaagcgcctggtgagagg   5892               ALDH3A1   2   5′flanking − 308   agtctggaaagctggaagag c/T tccatgccaggctgaatcaa   5893               ALDH3A1   3   5′flanking − 294   gaagagctccatgccaggct G/A aatcaatcagcagcccccac   5894               ALDH3A1   4   5′flanking − 3   gtcccctcttggctcttgcc G/A ttccaggagccccagttacc   5895               ALDH3A1   5   intron 1 + 2323   actgtctcctttctttcgga C/T ctttgggatgtttacaatac   5896               ALDH3A1   6   intron 1 + 2499   cccgatttgccactatactt T/C cgtgtattggtagcaggaat   5897               ALDH3A1   7   intron 1 + 2943   caggggctagcaaggcagcc A/G gggcccaggcgtctgagtga   5898               ALDH3A1   8   intron 5 + 72   cacacatgactgcacctcat G/C ctgtgggtccactctgagta   5899               ALDH3A1   9   intron 7 + 633   cgcgtgggggtctctgcgcc G/A tccaactctggcttgtttcc   5900               ALDH3A1   10   exon 8 + 36   cggacgtggacccccagtcc C/G cggtgatgcaagaggagatc   5901               ALDH3A1   11   intron 9 + (40-41)   gctgcctccctctgggcccc (C) agggctgggcacactcaccc   5902               ALDH3A1   11   intron 9 + (40-41)   gctgcctccctctgggcccc     agggctgggcacactcaccc   5903               ALDH3A1   12   intron 9 + 322   cacagtgtggatgccctggg G/Δ acaccctagacattggccac   5904               ALDH3A2   1   intron 1 + 39   gggtgtggggaaactggccc C/T cgccgcgcacttgtggactg   5905               ALDH3A2   2   intron 3 + 2491   tgccgcgaagaaattggcac T/A gctgagttctacatgcagtt   5906               ALDH3A2   3   intron 3 + 2595   ttctgtacatcaacttgtga T/A ggattgaggccagttctggt   5907               ALDH3A2   4   intron 3 + 2775   taccgctttgcccctgacca G/A gggtaaattcttcaataact   5908               ALDH3A2   5   intron 3 + 3424   aggcacttctgcacacaccc G/A cgtctcatgcattttccctg   5909               ALDH3A2   6   intron 3 + 3676   atgttgaagagattgctgat G/A ttagacgttaggatttattt   5910               ALDH3A2   7   intron 4 + 481   tagaaaataagaggtttcag G/T ttctctctgctaaatccggt   5911               ALDH3A2   8   intron 4 + 769   atcctgctttatacctgaac G/A tcttgcaggcagagccaaaa   5912               ALDH3A2   9   intron 4 + 796   iggoagagccaaaagccaca A/G ccaggagagtctgtaccgaa   5913               ALDH3A2   10   intron 5 + 254   attagttgtggcatatactt T/G ttttaaaaaagttaaataat   5914               ALDH3A2   11   intron 6 + 137   aatcctgctttctggtatac T/C gtacctgtagcttttgttat   5915               ALDH3A2   12   intron 6 + 923   aggctaatgaatggtaagag G/A aaggggctatcctgattagc   5916               ALDH3A2   13   intron 7 + 331   tgcttttctgatgttaatcc A/A cagggcattgctgaataaca   5917               ALDH3A2   14   intron 8 + 643   tttagaacatgacctgcctg C/T ctctcccacatgtgagatga   5918               ALDH3A2   15   intron 8 + 666   ttcccacatgtgagatgact G/A actcagctttttatttctcc   5919               ALDH3A2   16   intron 9 + 2129   tgttttcatttttaaaaaaa G/T gtttgactttggaattcatg   5920               ALDH3A2   17   exon 10 + (1894-1895)   ttggcttgtctactaataca CA/Δ tctgcttcaaaatgaacata   5921               ALDH3A2   18   3′flanking + 31   gtatttgtcaactttttttt T/Δ ctcattttaaaattcttagc   5922               ALDH3A2   19   3′flanking + 106   gtgtgttgggggtggtggtt G/A gtagctatagtaaataggtt   5923               ALDH3A2   20   3′flanking + 1630   aaaagcacgtgggaaacaca A/G ttaatcatgtcttaccgtat   5924               ALDH3B1   1   5′flanking − 1455   ctgcctgtccacacccacag C/T agcttgcacatcatccccac   5925               ALDH3B1   2   intron 1 + 464   catgaatgactctgggaaag A/G atcattcttagcaatggact   5926               ALDH3B1   3   intron 1 + 2269   aaatggaatccaaacagcaa G/C agacctcccctcaccggtca   5927               ALDH3B1   4   intron 2 + 1349   actgagcttctgccaccggc C/T gcctgccggccttcatgaga   5928               ALDH3B1   5   intron 2 + 1820   tccgtgtggaaggcaccttc C/G cccagcctcagtggctagga   5929               ALDH3B1   6   intron 2 + 2046   aacctcaggcgctgcctcag C/G cagggagccagcctggcccc   5930               ALDH3B1   7   intron 2 + 2939   aagcacgcactgaacatgga G/A tgagtgagtgaacgaatgaa   5931               ALDH3B1   8   intron 3 + 7   tgcccaagaacctggtgagc C/T ggccgggctgaggcgggcag   5932               ALDH3B1   9   intron 4 + 36   gccccttccggtcacccttc T/C ccgctcgaggcctcagggcc   5933               ALDH3B1   10   intron 6 + (116-117)   attctcctctctctctctct CT/Δ ggaccaggctgggagcagtc   5934               ALDH3B1   11   intron 6 + 263   cagaccctcatacgtgaccc T/C gctgccccccaggctcttag   5935               ALDH3B1   12   intron 6 + 1298   gtagacagagctggactcca T/G ccttgggtgataagggatcc   5936               ALDH3B1   13   intron 6 + 1411   gccagggtcacaagcagagg C/T gggaggagccaaggggtttg   5937               ALDH3B1   14   exon 7 + 185   acctgcgtggcccccgacta C/T gtcctatgcagccctgagat   5938               ALDH3B1   15   exon 7 + 339   tgcgggcattgctgggctgc G/A gcgtgtggccattgggggcc   5939               ALDH3B1   18   intron 7 + 249   ccagggctccagggctcagc G/A tgctaagatgaactcccatc   5940               ALDH3B1   17   intron 7 + 277   atgaactcccatcccaccac C/T ggctatcctgaaaggctgta   5941               ALDH3B1   18   intron 7 + 498   gaccaaggtcgggggattct C/T tgtgtcccacaggccctgag   5942               ALDH3B1   19   intron 8 + 14   cagccaggtgggggtgcggc C/T gggctgggcagggtcaggag   5943               ALDH3B1   20   intron 8 + 49   caggagcccgcagtgggcag C/T acaagtggtggcagcagggg   5944               ALDH3B1   21   intron 8 + 111   tcaggactttgggatggtgg AfT cctcttggctctgtctctgc   5945               ALDH3B1   22   intron 8 + 3219   atcctgatggggctcaaggc A/G gcctcacgcacatcctgttc   5948               ALDH3B1   23   exon 9 + 33   gtgctgacccagaccagcag C/T gggggcttctgtgggaacga   5947               ALDH3B1   24   intron 9 + 946   tcccaggcccccgagctgac C/A cttcttggtggccgtggccc   5948               ALDH3B1   25   intron 9 + 1067   aggctccccaagcctgggtc C/T ctcttgcccccacccactct   5949               ALDH3B1   26   exon 10 + 137   ccgcaatcgccgcgccgcct G/A aggatgctgctggtggccat   5950               ALDH3B1   27   exon 10 + 397   cgctcccaaccatgagagcc G/A aggtgggaggcatgggaaac   5951               ALDH3B1       exon 10 + 1198   ctcttccccatgctgctcat C/T ctcctgggccccatccactc   5952               ALDH3B1   29   exon 10 + 1475   caggggtggacctgagtttc G/A tctcctgtctctctggctga   5953               ALDH3B1   30   3′flanking + 15   cctggcaatacttacatctc A/G gtgatttgctttctgtgcat   5954               ALDH3B1   31   3′flanking + 60   caacaggactctggaccaag G/C ccctggcgttgggtaacaat   5955               ALDH3B2   1   intron 1 + 98   agggaaggggatgtgtgccc G/A tggcccgtgggtcagggggc   5956               ALDH3B2   2   intron 1 + 157   atggctgcaggggccatggg T/C acggggcttgctcaggagag   5957               ALDH3B2   3   intron 1 + 354   tctgtggacagacaaggatt C/G ggtcgggggcaccagggctg   5958               ALDH3B2   4   intron 1 + 851   tatgacaggtccatcaggcc T/G caccttcctgtgtgtcttat   5959               ALDH3B2   5   intron 1 + 894   ctcagcatctgcccccacag T/G gcttttgcacacgttggttc   5960               ALDH3B2   6   intron 1 − 463   aaagaaccctccgagtccct C/G gtttagtcccagaagggagg   5961               ALDH3B2   7   exon 2 + 61   gccttcaactgagggcgcac G/A cggccggccgagttccgggc   5962               ALDH3B2   8   intron 2 + 8   ggacctgcataaggtgggcc A/G tggagagtgggccccggcag   5963               ALDH3B2   9   intron 2 + 23   gggccgtggagagtgggccc G/C ggcaggggctggagcagcgt   5964               ALDH3B2   10   intron 2 + (180-181)   ttcactcctgaacactcaca (A) gccaccctgtgatgcaggct   5965               ALDH3B2   10   intron 2 + (180-181)   ttcactcctgaacactcaca     gccaccctgtgatgcaggct   5966               ALDH3B2   11   exon 3 + 72   gactacgctctcaagaacct T/G caggcctggatgaaggatga   5967               ALDH3B2   12   intron 8 + 375   ctgcagcatcctaacctcac C/T gtcgcgactcaaggctgccg   5968               ALDH3B2   13   intron 8 + 463   aatcacccccatggcacccc G/A accgtcactgagagggtgct   5969               ALDH3B2   14   exon 9 + 33   atgctggagcggaccagcag C/A ggcagctttggaggcaatga   5970               ALDH3B2   15   exon 10 + 428   aggtgtcctcactcacccca C/T cctccccaattccagccctt   5971               ALDH5A1   1   5′flanking − 1303   gaaattgattaaactctact G/A ttatcacttctgccatatgt   5972               ALDH5A1   2   5′flanking − 301   gtgaaaaggtgacagcagtc C/T gcaggtgcatctactggcga   5973               ALDH5A1   3   5′flanking − 221   ggtcgcgccaggagagaagc C/T gcgcggcgcttagggcaagg   5974               ALDH5A1   4   5′flanking − 175   agggcggcgcggcggtgcag C/G gagaaagacgcggagagagg   5975               ALDH5A1   5   5′flanking − 174   gggcggcgcggcggtgcagc G/A agaaagacgcggagagaggg   5976               ALDH5A1   6   exon 1 + 106   gcggcctggtccctgcctcc G/C ggcctgcgcccggcccggcc   5977               ALDH5A1   7   intron 1 + 326   cctaaccgtggaggggcggg G/A agaaaggggaggggtgtcag   5978               ALDH5A1   8   intron 1 + 5551   gtctgtacaaaaaaaatttt T/G ttttaattagctgagcatga   5979               ALDH5A1   9   intron 1 + 5555   gtacaaaaaaaatttttttt T/Δ aattagctgagcatgatcat   5980               ALDE5A1   10   intron 2 + 306   gttttggttgtttttttttt T/Δ aaacttgtttttgtacattt   5981               ALDH5A1   11   exon 3 + 107   cggagacattatccacaccc C/T ggcaaaggacaggcgggccc   5982               ALDH5A1   12   intron 3 + 201   gtggtggcagtgagtggaat G/T atgcatttctaatgcctgca   5983               ALDH5A1   13   exon 4 + 42   atcacccggaaggtgggggc C/T gccctggcagccggctgtac   5984               ALDH5A   114   intron 4 + 2306   atcgtgcttataaatcagtt T/C tgctaggtataaaatccttg   5985               ALDH5A   115   intron 4 + (2334-2346)   tataaaatccttggctcaca (T) 11-13   5986                   acttgattatcttaaatgta               ALDH5A1   16   intron 4 + 2456   tataagtcaacttttttttt T/Δ acctagatacacaaaagtgt   5987               ALDH5A1   17   intron 4 + 2501   tttggtttttttcccccttt A/G tctttaaagaccaataatgt   5988               ALDH5A1   18   intron 4 − (64-46)   cagtttggtaaattgttggc   5989               ALDH5A1   19   intron 4 − 27   ttcagtttggtaaattgttg G/C cacatgtttgctgtttctct   5990               ALDH5A1   20   intron 5 + (4621-4824)   tttgaatagataaacactta CTTA/Δ tatggttgaaaaattaagac   5991               ALDH5A1   21   intron 5 + (4677-4678)   accatgacaagtctcaccct (C) accccaaccctgactcactc   5992               ALDH5A1   21   intron 5 + (4677-4678)   accatgacaagtctcaccct     accccaaccctgactcactc   5993               ALDH5A1   22   intron 7 + (432-443)   tgaaaacaaaaaagtcattt   5994               ALDH5A1   23   intron 7 + (3243-3244)   cagtccttgtgtgtgtgtgt GT/Δ cccccaaacacactgctgga   5995               ALDH5A1   24   intron 7 + 4987   tttttgaaaaagaaaaaaaa A/Δ tggaactagttatagttttc   5996               ALDH5A1   25   intron 8 + 2717   gatcacctggaactcacagg C/T gtggtaggagacgtgcagcc   5997               ALDH5A1   26   3′flanking + 2711   cagtgagtgccttggggaag G/A agccagcatgtgaaatgatg   5998               ALDH5A1   27   3′flanking + 2777   gtccatggtgtgcgcttata G/A aatgtttgctaagctgaact   5999               ALDH6A1   1   5′flanking − 1303   ctctaaagcagaaccaagag G/C aaaagcatgggagtatacca   6000               ALDH6A1   2   5′flanking − (1273-1270)   ggagtataccaaaacaactt AATT/Δ gttacttgaaatgacttgca   6001               ALDH6A1   3   intron 1 + 437   tgccattgctcccttccccc A/T ccctacttcactatccgtgg   6002               ALDH6A1   4   intron 1 + 835   gttcccaccccaaaatcagc T/Δ cttctagtgctacacaccct   6003               ALDH6A1   5   intron 1 + 1294   atatttcttgctgcgatcct T/C gttctgttctagtatctttt   6004               ALDH6A1   6   intron 1 + 1447   gagtcattgagaaccttaag A/G aagtattttgtccttttcca   6005               ALDH6A1   7   intron 1 + 2536   agtcttgccatctctttcta T/C gttaggcactgacataggct   6006               ALDH6A1   8   intron 1 + 2703   caggagaggaaggagttcct G/T ataaaggatatagcaagtag   6007               ALDH6A1   9   intron 1 + 2802   gcaacaatgctaatgggtgt T/C tcttaggaaatgaagaaaag   6008               ALDH6A1   10   intron 2 + 2333   gtttgtttgtttgtttgttt G/Δ tttttttcagccaactgtaa   6009               ALDH6A1   11   intron 4 + 138   gactctctcccttgtactgc A/G tctcctccagtcttattctt   6010               ALDH6A1   12   intron 4 + 200   aaagaggaacattcttgcat T/C aatttctatttgtgtgtctt   6011               ALDH6A1   13   intron 5 + 291   ggcaagtcagtgtaccctgc G/A ccccttcattggcctgaacc   6012               ALDH6A1   14   intron 7 + 209   tcccgggttcaagCgattct C/A ctgcctcagcctcccgagta   6013               ALDH6A1   15   intron 8 + 287   gcctcctgagcagcttggac C/T acaggtgcgggccaccacct   6014               ALDH6A1   16   intron 9 + 877   gatatcaaaatataaacata C/T agacatatttgggaggcaaa   6015               ALDH6A1   17   intron 9 + 885   aatataaacatacagacata T/G ttgggaggcaaaggagtgaa   6016               ALDH6A1   18   intron 11 + 40   ttttgtcttttcctttaaga A/C attttcttaaagatattcag   6017               ALDH6A1   19   3′flanking + 520   cctgcaaagttttctttagc C/T cctcttttatcccacaatac   6018               ALDH6A1   20   3′flanking + 1026   cgtgttggtcaggctggtct T/C gaactcctgacctcaggtga   6019               ALDH6A1   21   3′flanking + 1035   caggctggtctcgaactcct G/C acctcaggtgarccgcctgc   6020               ALDH8A1   1   5′flanking − (837-836)   gctgaacattgttaatatat (AT) tcattagccaattgtgttcc   6021               ALDH8A1   1   5′flanking − (837-836)   gctgaacattgttaatatat     tcattagccaattgtgttcc   6022               ALDH8A1   2   5′flanking − 702   gggatctgaagcccttgcta C/T atgtgtcacacatgtttttg   6023               ALDH8A1   3   5′flanking − 642   gcacatctaggaagatgtga G/A cagccactgtggccccggtt   6024               ALDH8A1   4   5′flanking − 84   atgctctctgagagcgtcag G/T tgccctcccacattcactga   6025               ALDH8A1   5   intron 1 + 5437   gcattggttgaaatggagcg T/C gtttctttgtttctatggta   6026               ALDH8A1   6   intron 1 + (5836-5855)   gtgagaatccatctaaaaaa (CAAAA) 4-5   6027                   atgaggtgtgtggagacctg               ALDH8A1   7   exon 3 + 146   cactacacggtgcgggcccc G/T gtgggagtcggtgagtgctg   6028               ALDH8A1   8   intron 4 + 1033   aggtctttttgctatgtcac C/T ccacggccagggcaggagtg   6029               ALDE8A1   9   intron 4 + 1037   ctttttgctatgtcacccca C/T ggccagggcaggagtgctgg   6030               ALDH8A1   10   intron 4 + 1662   tctctcctgagaccaagaac G/A tctggatagatgatgagtta   6031               ALDH8A1   11   intron 4 + 2046   agtcctgggcatttaaacag A/c cttgacagataaacttcctt   6032               ALDH8A1   12   intron 6 + 1146   ttttccagatgcaagagact C/G ccttgttctctctccttctg   6033               ALDH8A1   13   intron 6 + 1744   ttcttcttcttcttcttctt C/T tttcttttttaacatgtact   6034               ALDH8A1   14   intron 6 + 9802   tgagtgtgaattctaacttt A/T ctgtttattagctctatgaa   6035               ALDH8A1   15   exon 7 + (1089-1098)   tacagtgagaccttgtcttt (A) 9-10 tgctgcaaaaccaaaaataa   6036               ALDH8A1   16   3′flanking + 848   ctcagctgagtccccttgac T/C ttaatcactttagtgaagaa   6037               ALDH9A1   1   exon 1 + 121   actgtgtggggtatggcggg G/A tggtggggagaatgtggtgt   6038               ALDH9A1   2   intron 1 + 67   cgcggatttcccggccagcc C/G ccgtttcctgtgttctgcag   6039               ALDH9A1   3   intron 1 + 103   tgcagcgttgacttgagcac A/G agacagtgacagtggagagt   6040               ALDH9A1   4   intron 1 + 1818   gaatttttgagaaaaaaaaa AΔ tgttcctttagggttgcctt   6041               ALDH9A1   5   intron 2 + 5891   tcaggaacaggaagtaaaga G/A gtttacatttctaaatttct   6042               ALDH9A1   6   intron 2 + 6398   atcaaaaacacttgtctgat T/G atcgtgctctgaacctgcct   6043               ALDH9A1   7   intron 2 + 9677   atgacgctgagtttggtgct A/G ttcttttgtttttcttgcct   6044               ALDH9A1   8   intron 2 + 9991   gggagaagtgagggacctac C/T cttggcttctaatctttcat   6045               ALDH9A1   19   intron 2 + 10198   ttgtcagagacatctttgat A/G atccttacgtactatatcag   6046               ALDH9A1   10   intron 2 + 10256   ttagtagataactttttttt T/Δ gtaaggatggagaataatag   6047               ALDH9A1   11   intron 2 + 11382   catattcaattcttttatgt T/C ctttagaccaaagaaaggca   6048               ALDH9A1   12   intron 2 + 11455   taaacctttaagctcatcat C/T ggaccatctattgaatttct   6049               ALDH9A1   13   intron 2 + 12044   atttaaagtgaaagctattt C/T tagttttaaaaattgagcag   6050               ALDH9A1   14   intron 3 + 334   ctatttagcaaacttttttt T/Δ gacagtgtataaagttttca   6051               ALDH9A1   15   intron 3 + 368   gttttcaacaattgatattg G/Δ aaggttggtagggcctagga   6052               ALDH9A1   16   intron 4 + 191   ccctcaaggagcttatagtt T/A aggttgtacacaatcatgtc   6053               ALDH9A1   17   intron 4 + 557   tagaaaaaattgtaatgtta A/G aaagcattactgttaggaca   6054               ALDH9A1   18   intron 5 + 830   agttcaagatgattttgtag G/C ttcagggcctagttgactta   6055               ALDH9A1   19   intron 5 + 838   atgattttgtaggttcaggg C/T ctagttgacttagcatgcaa   6056               ALDH9A1   20   intron 6 + 120   agaaaagttgcacaaatagt A/C caaagaattcccatgtacct   6057               ALDH9A1   21   intron 6 + 2569   attaaaatctgctttaaata T/C ttttttgggggagaggacac   6058               ALDH9A1   22   intron 8 + 1414   ccgatcttcaaaaaattagc T/C gggggtggtggtgcacactg   6059               ALDH9A1   23   intron 9 + 664   aaagttcacatttttttttt T/Δ ataacttcatggtcaagagc   6060               ALDH9A1   24   intron 9 + 2170   taatgcacecattttttttt T/Δ cttcatagggacatccaacg   6061               ALDH9A1   25   exon 11 + 587   aaaacaaaaaacaaaaaaaa A/Δ ccttgttcctttataggttc   6062               ADH1   1   (5′flanking region −55)   atcatgtgtggaactggaat C/T gggtgttattcaagcaaaaa   6063               ADH1   2   (intron 1 268)   acatttgcggtaaagcgata A/G tttattccaagctaatcatg   6064               ADH1   3   (intron 3 443)   aatgga g/c gctacatggctat G/A gctgaatgagcatgaccttt   6065               ADH1   4   (intron 6 56)   tacaacttggaggatgcatt T/G aggctgcagaatatatgttt   6066               ADH1   5   (intron 8 74)   gtttagcagaaaatgaaaag G/A tggaaggatgagaaaaatta   6067               ADH2   1   (intron 2 340)   ctattttttaaagcgtgcat T/C cttacataagacttaaatat   6068               ADH2   2   (intron 3 91)   aaggcaatgagagacgaaag T/G gcttgcacaaggtcaccgcg   6069               ADH2   3   (intron 5 205)   atgtattgtacccttcaacc A/G ttatgtaccgagtatctact   6070               ADH2   4   (intron 7108)   acaattgacaaggcaagatt T/C tgaaaacaaatcaaaaataa   6071               ADH2   5   (intron 31721-1723)   actgcatagaaatttaagaa GAA/Δ cttgttttattcctctccag   6072               ADH2   6   (3′untranslated region   gttaatgctttcccactctc AG/Δ gggaaggatttgcattttga   6073               2305-2306)               ADH3   1   (5 flanking region −254)   tgagagaagagaagcaggaa C/G ttgagagaggaggaagagag   6074               ADH3   2   (intron 2 355)   tatgcattcttctatattat A/G caagacaaaaattttaggat   6075               ADH3   3   (intron 3 32)   acactcagggaacatgcctt G/A gttcaccatcacaagattag   6076               ADH3   4   (intron 4 6)   ctgcttgaaaaatgagtaag C/T ttctgatgctttctttgcac   6077               ADH3   5   (coding region 453   agcaccttctcccagtacac A/G gtggtggatgagaatgcagt   6078               (Thr 151 Thr))               ADH3   6   (coding region 815   ttcgtttgaagtcatcggtc A/G gcttgacaccatggtatgat   6079               (Arg 272 Gln))               ADH4   1   (5′flanking region −482)   acagccagagacccagaacc A/G tcagggctggttgatggact   6080               ADH4   2   (5′flanking region −437)   catcaggtgggacaaaaaga G/A tagctccttagcagtgacta   6081               ADH4   3   (5′flanking region −234)   actcaagcatatgtgcaacc A/G agtacatgaaaagaatttgt   6082               ADH4   4   (5′untraslated region −361)   ggtaagttaaatgggcgatt C/G tgaggagtagaaatttcctt   6083               ADH4   5   (5′untraslated region −253)   ttcaataaaagaaaaaagaa T/A ttaaaaaatcttggagctca   6084               ADH4   6   (intron 1 707)   ttatatttgaaattaaaaat A/G taatttgaggctagaaaaaa   6085               ADH4   7   (intron 5 619)   tcaaagagggatctcacaat T/C ggacatctcaacctgcttat   6086               ADH4   8   (intron 5 1755)   tttacgcacacaattactca T/C taataaaaaatttaaaaaat   6087               ADH4   9   (intron 5 3425)   actgagactctggagcaata T/C attaagaatcatactgaaca   6088               ADH4   10   (intron 1 1181-1189)   ggtaaactttaatacacctg (T) 9-11 caagaaataaaaaatgtaat   6089               ADH4   11   (intron 5 2828)   tccagtcaaagtcgacctaa A/Δ tttccaggagttgttcttcc   6090               ADH4   12   (intron 7 15)   ttggtggtcagttttttttt T/Δ cttcatagctttaaattctt   6091               ADH5   1   (5′flanking region −115)   taactgctgtaaagttacac G/A g/a ggaagccctttcccgacaa   6092               ADH5   2   (5′flanking region −114)   aactgctgtaaagttacac g/a G/A ggaagccctttcccgacaaa   6093               ADH6   1   (intron 3 249)   tgaaactggacttgaaagta C/A aaatgagacaaaaatttatg   6094               ADH6   2   (intron 6 1072)   taacccctatactgtattgc A/G tcactttctaacaggcagct   6095               ADH6   3   (coding region 885   gtctgtgtggttgttggggt G/A ttgcctgccagtgttcaact   6096               (Val 295 Val))               ADH6   4   (intron 7 1292)   gttgagaaacactgcctagt C/A ccgtctgtggtcctagaatt   6097               ADH6   5   (intron 7 1616)   ctatcacagaataatccgca T/C agaacactaagcagattacg   6098               ADH7   1   (5′flanking region −528)   tgtgcagacacagaaagttt T/C acttaactttctacacctaa   6099               ADH7   2   (intron 1 361)   tcagtagcatgtgctgcact C/T gctgcagtagttcaatggga   6100               ADH7   3   (intron 3 183)   aacctcaacctttagaaggc A/G aaccttacggtgtttataaa   6101               ADH7   4   (intron 4 76)   tgaattgaattaattaatac G/A tgtatttgatgtatcaaaca   6102               ADH7   5   (intron 6 615)   tggcatagcgtaaagagact T/A ggaaaaatggaataaagcca   6103               ADH7   6   (intron 8 532)   aagtctaaccatatcaccaa T/C ttagtatgccattgtactat   6104               ADH7   7   (intron 8 651)   gctgctatttatttcaagta G/A gccacaaaatttccttattt   6105               ADH7   8   (intron 8 727)   ttcagatccctgtaagccag G/A tattatttttaccattttta   6106               ADH7   9   (intron 8 1207)   tctccacatttggtctagcc T/C acaggatcatcatattatga   6107               ADH7   10   (intron 8 1691)   tccctcatctcattgcccac G/A ctcattgctttaattcagtc   6108               ADH7   11   (3′untranslated region 1364)   atttacattttgtaaggcta T/C aattgtatcttttaagaaaa   6109               ADH7   12   (3′untranslated region 1498)   gatatagtaaatgcatctcc T/C agagtaatattcacttaaca   6110               ADH7   13   (3′untranslated region 1584)   aaacacttgttatgagttaa C/G ttggattacattttgaaatc   6111               ADH7   14   (3′untranslated region 1818)   aatataaacatagagctaga A/G tcatattatcatacttatca   6112               ADH7   15   (3′flanking region 865)   tacatcaaaagaaataaatc C/T aagaaggaataaacacattt   6113               HEP27   1   (5′flanking region −191)   tcagcactctgtgtctagct A/T aaggtttgtaaatgcaccaa   6114               HEP27   2   (5′untranslated region −163)   gaacccatcaattccgtaca C/A attttggtgactttgaagag   6115               HEP27   3   (intron 1 1941)   aaatttaccctaaccagcct G/C actctctgccactttctgtt   6116               HEP27   4   (coding region 289   ttgtgtgccacgtggggaag G/A ctgaggaccgggagcagctg   6117               (Ala 97 Thr))               HEP27   5   (intron 4 1070)   tgtctcagttcacaggatca T/C gactctttttctcgaaactg   6118               HEP27   6   (3′flanking region 362)   ctgctttgtgtgtgctccatt A/G tctgaactgggcctgctggg   6119               UGT1A1   1   (5′flanking region −1337)   tctttcccttttgacttcaa A/C tcagtcatcagaatttcccc   6120               UGT1A1   2   (coding region 211   cctcgttgtacatcagagac G/A gagcattttacaccttgaag   6121                   (Gly 71 Arg))               UGT1A1   3   (intron 1 2925)   gcatttgggaagggaaaatc T/G aattaaaagcctaaactaaa   6122               UGT1A1   4   (intron 1 3442)   agactcggccttttccagat G/T agcttcagtgtaagagtggg   6123               UGT1A1   5   (intron 1 3512)   ttaagtaagccatttaccaa C/T gctcagaagaaagaacttga   6124               UGT1A1   6   (intron 1 3665)   tcttgctacaaaccaaaaaa T/C gcagcatggtggtggggagg   6125               UGT1A1   7   (intron 2 15)   cagacagtaagaagattcta T/C accatggcctcatatctatt   6126               UGT1A1   8   (intron 4 574)   agatttaaaactccaattta C/T ataaaaagttgccataatag   6127               UGT1A1   9   (3′flanking region 125)   tatagaggttcacacacaca C/T gccttcattgcgtgtgcatg   6128               UGT2A1   1   (5′flanking region −1602)   ataacatcttctgcagagaa A/C cttcaatggaaatacactca   6129               UGT2A1   2   (5′flanking region −1480)   tacagattatctttggtgat G/C ggagagcttagaagagacat   6130               UGT2A1   3   (5′flanking region −1406)   atttcagaagatttattaac A/T tgaaaaggatcactctg c/t tt   6131               UGT2A1   4   (5′flanking region −1388)   acatgaaaaggatcactctg C/T ttattcacagacatatgcat   6132               UGT2A1   5   (5 flanking region −935)   aaattattcaatctctttgg G/A cagtggtttctttttctttg   6133               UGT2A1   6   (intron 1 535)   cattgatcagggtgatttat C/T catgctaagcttatttaatt   6134               UGT2A1   7   (intron 1 642)   tatattgatcatgttgatac A/C tttatacacatatttgtcta   6135               UGT2A1   8   (intron 1 1448)   aggtgcttacaggcaacatc C/T acatagcagtctgtggctgg   6136               UGT2A1   9   (intron 1 2000)   gacacattagcttcttttct A/G cagatctctgttctaaaaca   6137               UGT2A1   10   (intron 1 3118)   cttaaaattctttaatgaaa T/G cattgcaacaaatttatatc   6138               UGT2A1   11   (intron 1 3191)   ataaatagaacaactcccta A/T gtttacttctctgcagtgga   6139               UGT2A1   12   (intron 1 3770)   atcaccagataatttactat C/T cattaaggagtaggtcatca   6140               UGT2A1   13   (intron 1 4584)   tgattggttagaatctttga A/C aaatcttctagtatcattcc   6141               UGT2A1   14   (intron 1 4854)   tactctgtgcattgttaata G/A cctatcacttgtggtctgcc   6142               UGT2A1   15   (intron 1 −19146)   ctgtttaaattctcattcaa C/T ggccacatggttaaaataaa   6143               UGT2A1   16   (intron 1 −19085)   tagacaaagaccctttcaat A/c aacaaagttagaaatgtgtt   6144               UGT2A1   17   (intron 1 −18346)   atggcaatatttttagaaat G/A ttaactcccaataatgaata   6145               UGT2A1   18   (intron 1 −18218)   tatatcattattttaactta T/G agatagcactagccctaatt   6146               UGT2A1   19   (intron 1 −17937)   ctcctaataatttggactca C/T catacttattcagcactatc   6147               UGT2A1   20   (intron 1 −12585)   ttccacacagggacaagtca A/G cagaggaaatttttcttgct   6148               UGT2A1   21   (intron 1 −11430)   aacaaaggtttattttctta C/G agttctgatggctagacgtc   6149               UGT2A1   22   (intron 1 −10761)   tttaaaatatgcatgtattt T/G ccacttttaaaaactatatc   6150               UGT2A1   23   (intron 1 −381)   aaatcctccctccttccttc C/T tttcccaggccccactctac   6151               UGT2A1   24   (intron 1 −329)   ttccctttctccttttctCc A/G tctctctctcttCCtctctc   6152               UGT2A1   25   (intron 1 −41)   ttttctcctcagcaaacata T/A aagctaatttcctccatcca   6153               UGT2A1   26   (intron 2 263)   caccttgatactggacttgg T/C gggacagaaaaccagatcat   6154               UGT2A1   27   (intron 2 454)   agaaagcccattgaaataag G/C cagggtttttaggttttaat   6155               UGT2A1   28   (intron 2 554)   aaaaacttttttgagttgac A/T atggtgagtttagtttctga   6156               UGT2A1   29   (intron 2 1113)   ctgcaggcaagctctagtga A/T tgtttattataggaaataat   6157               UGT2A1   30   (coding region 922 (Gly 308 Arg))   gtgttgtggtgttttctctg G/A gatcaatggtcaaaaacctt   6158               UGT2A1   31   (intron 3 −217)   aagcttagaagtgataaata T/C caaaacaataatactatact   6159               UGT2A1   32   (intron 3 −194)   aaacaataatactatactgg G/A tagactattagtacaagact   6160               UGT2A1   33   (coding region 1171   acggagtccctatggtggga G/A ttcccatgtttgctgatcag   6161               (Val 391 Ile))               UGT2A1   34   (intron 5 1546)   tttttaaaattcagaaactc A/G g/a ttatggtgtattcttacaa   6162               UGT2A1   35   (intron 5 1547)   ttttaaaattcagaaactc a/g G/A ttatggtgtattcttacaaa   6163               UGT2A1   36   (intron 5 2505)   taattgacttttattaatac G/A tacatgttgtataagtcata   6164               UGT2A1   37   (intron 5 2639)   tagactattacaaagttgtt A/G gttgctgacaattttgttca   6165               UGT2A1   38   (intron 5 4009)   gaatccaggctggaactttt C/A ttccagacacaaaccaaaat   6166               UGT2A1   39   (intron 5 4311)   atacagacactgtccttttc G/A tcacaaacatacagatgtgt   6167               UGT2A1   40   (intron 5 4616)   acttttttatgtctacattt G/C atcatactgtgttaagcata   6168               UGT2A1   41   (intron 5 4717)   tgcaagaattatattttctc C/A acgtaactatggccttaaac   6169               UGT2A1   42   (coding region 1524   gctatatttttggtcataca A/G tgttgtttgttttcctgtca   6170               (Gln 508 Gln))               UGT2A1   43   (3′untranslated region 1683)   aaggagtttaacaaaaacac G/A tctcccatcctgtttccaaa   6171               UGT2A1   44   (3′flanking region 685)   aatctagaaaataattatca T/C ttttataaaatttttagtca   6172               UGT2A1   45   (intron 1 ( −18967) − (−18965)   ctcccaattagattgattag TAT/Δ gagttcctggggttactggt   6173               UGT2A1   46   (intron 1 (−18862) − (−18803)   aatacattcttcccccttca (AC) 14-17   6174                   atgcttactggcctatttat               UGT2A1   47   (intron 1 (−17463) − (−17447)   gtaaagaaaatggcagagaa   6175               UGT2A1   48   (intron 1 −10860)   attcaatgcaactttttttt T/Δ gtaatggcagaattagaaca   6176               UGT2A1   49   (intron 2 528-538)   ctgttaggaaacaattggtt (A) 8-10   6177                   cttttttgagttgacA/Tatgg               UGT2A1   50   (intron 2 1514-1533)   tattttaatgaattaatatc   6178               UGT2A1   51   (intron 5 916-917)   gcttagtatattatatatat AA/Δ gtctatatatatagcttagt   6179               UGT2A1   52   (intron 5 1163)   caatatttatgtcatttttt T/Δ ctcacatttactctgtttcc   6180               UGT2A1   53   (intron 5 3819-3838)   tcaacacatgtaaactactc   6181               UGT2A1   54   (intron 5 4785)   tatcttcaatgaaaataaaa A/Δ caaaaattgtctaatttctg   6182               UGT2B15   1   (5′flanking region −277)   acgaacaggcaggagcctct C/A acttgccactgttcttaaca   6183               UGT2B15   2   (intron 1 670)   catcaaagaaaataggggcc A/T aattaagggagagcacatat   6184               UGT2B15   3   (intron 1 775)   ctaattatattaagatctta A/C gatgaaccaagacagtagta   6185               UGT2B15   4   (intron 2 2183)   cagagtttcaccatgttggc C/T aggctggtcttgaactcctg   6186               UGT2B15   5   (intron 2 2430)   tatttcaaaagaataagact C/G ttgccaaaaagtatcaagtg   6187               UGT2B15   6   (intron 2 4806)   aaaaacttactccaatagct C/T ctga c/g tttctcetcttagat   6188               UGT2B15   7   (intron 3 129)   ctaattatctcagacatctg T/C tcaaa g/a caaaaacatatatg   6189               UGT2B15   8   (intron 3 424)   ceataacaataagcaggtat T/C gaaaaaactttgaaatgcat   6190               UGT2B15   9   (intron 3 493)   ggc t/a gtttttacttcccatg C/T attggaataggtctatttag   6191               UGT2B15   10   (intron 3 906)   gccctctctgaatgatctat G/A caagtttttgctgaaaacac   6192               UGT2B15   11   (intron 3 1036)   tcagtaccttagtttggtac T/C agacatggtaatgactggct   6193               UGT2B15   12   (intron 3 1544)   aataaatatataggttatta C/G taatttgctacttttttatt   6194               UGT2B15   13   (intron 3 5550)   gtgtggtgaatcaatgtgtg C/T tgcttgtgggcagtactcca   6195               UGT2B15   14   (intron 3 5720)   ttttttaaaagttaattttt C/A ttggggatttccctgcaggg   6196               UGT2B15   15   (intron 4 134)   atcaaatttaactcctttat A/G tttattttccagtcttagta   6197               UGT2B15   16   (intron 5 6627)   ttttaatgttgatatcttta T/C atttatccttcagctataaa   6198               UGT2B15   17   (coding region 1568 (Lys 23 Thr))   tttccgaaagcttgccaaaa A/C aggaeagaagaagaaaagag   6199               UGT2B15   18   (3′untranslated region 1761)   ggatttaatacgtactttag C/T tggaattattctatgtc a/t at   6200               UGT2B15   19   (3′untranslated region 1779)   ag c/t tggaattattctatgtc A/T atgatttttaagctatgaaa   6201               UGT2B15   20   (intron 2 1980-1981)   aagagagtagcagaataagg (AGG) acaagggataaatgactagt   6202               UGT2B15   20   (intron 2 1980-1981)   aagagagtagcagaataagg   6203                   acaagggataaatgactagt               UGT2B15   21   (intron 3 605-618)   cttgtctgctctgctgactt   6204               UGT2B15   22   (3′untranslated region   aagtataatttaaaaaaagc (A) 11-14   6205               1957-1968)   tacaactcttttttttaaac               UGT8   1   (coding region 677 (Pro 226 Leu))   gcagaagtacaacctgctgc C/T ggagaagtccatgtatgatt   6206               UGT8   2   (coding region 741 (Ala 247 Ala))   atgctgtgtactgacgtagc A/G ctggaattcccaagacccac   6207               UGT8   3   (intron 2 53-54)   ttgacaatcaatatctcctt GT/Δ ttagtgcacaggtcccagta   6208               GSTA1   1   (5′flanking region −266)   ttgcaaaaagagcaaaatct C/A ggtgaaatgtattgtgtaaa   6209               GSTA1   2   (intron 2 1220)   gagacacaggctttcctaag A/C tatgacaacaccataactag   6210               GSTA1   3   (intron 4 1813)   aaaggcacccactggaggtg A/C attattttgccatcacctga   6211               GSTA1   4   (intron 5 732)   gaagagtgttgtcatgaagg T/C ggagtcactgcccaagggag   6212               GSTA1   5   (intron 6 333)   ttatcccatatgtgcccaca A/G tgagccggtctgagcagagc   6213               GSTA1   6   (3′flanking region 412)   ctttcttatgcatttgcaaa A/C caatgattctgtctgctgtg   6214               GSTA4   1   (intron 1 280)   gcattggtggaaggtgggct C/T ggatcgtccccgggcctggc   6215               GSTA4   2   (intron 3 176)   ggaaatcacttcttattcaa T/C agttccataaaagctggccg   6216               GSTA4   3   (intron 4 94)   acaccacatttactttatgt C/G ttacatagttagtgagatca   6217               GSTA4   4   (intron 5 1062)   cacacttgtgcacatgcaga C/T acccatgggcatccaagagt   6218               GSTA4   5   (coding region 487   cagatgtgattttactccaa A/G ccattttagctctagaagag   6219               (Thr 163 Ala))               GSTA4   6   (intron 6 595)   tgagctctgagagcaaatga G/A agatgtt a/g gcaccctaaaca   6220               GSTA4   7   (intron 6 630)   taaacatcaccccaaaggat T/A cctaccattctccttctgsg   6221               GSTA4   8   (intron 6 3943)   tcttcgtagtatctaatacc T/C tttttgttagccttaaagtt   6222               GSTA4   9   (3′untranslated region 1099)   taataacaaccgaatgtcta G/A taaatgactctcctctgagc   6223               GSTA4   10   (intron 5 370-371)   gttgtcgaacagctgtctca (TA) gctgacatcctccctgataa   6224               GSTA4   10   (intron 5 370-371)   gttgtcgaacagctgtctca gctgacatcctccctgataa   6225               GSTM1   1   (5′flanking region −694)   tacgaagtggctaatttaca C/T agtacttagccagstgaccg   6226               GSTM1   2   (5′flanking region −661)   gatgaccgaaggactcagta C/T ccgagggcccctaacagaaa   6227               GSTM1   3   (5′flanking region −658)   gaccgaaggactcagtaccc G/A sgggcccctaacagaaaacs   6228               GSTM1   4   (5′flanking region −858)   ccgaaggactcagtacccga G/A ggcccctaacagaaaacaca   6229               GSTM1   5   (5′flanking region −537)   tagaggggagactasgccct G/C ggagtagctttcggatcaga   6230               GSTM1   6   (5′flanking region −525)   taagccctgggagtagcttt C/G ggatcagaggaagtcctgct   6231               GSTM1   7   (5′flanking region −465)   aattaaattcccaggttggg G/A ccaccactttttagtctgac   6232               GSTM1   8   (5′flanking region −383)   gcggagagaaggctgaggga C/T accgcgggcagggaggagaa   8233               GSTM1   9   (5′flanking region −382)   cggagagaaggctgagggac A/T ccgcgggcagggaggagaag   6234               GSTM1   10   (5′flanking region −378)   gagaaggctgagggacaccg C/T gggcagggaggagaagggag   6235               GSTM1   11   (5′flanking region −343)   agggagaagagctttgctcc G/A ttaggatctggctggtgtct   6236               GSTM1   12   (intron 2 118)   tgctggagctgcaggctgtc T/C cttccctgagccccggtgag   6237               GSTM1   13   (intron 3 233)   agtgagtgcccggrctcctc T/C ctgctcttgcttatgggaag   6238               GSTM1   14   (intron 4 26)   tgtgggtggctgcaatgtgt G/A gggggaaggtggcctcctcc   6239               GSTM1   15   (intron 5 140)   actatcagcagttattctca C/T gactccaatgtcatgtcaac   6240               GSTM1   16   (intron 5 577)   ctgccaccccattagaagga A/G ctttctactttccctgagct   6241               GSTM1   17   (intron 5 645)   gctggtctggatccagaggc T/A gccaggtgcttgggcgctcc   6242               GSTM1   18   (coding region 519   caccgtatatttgagcccaa G/C tgcttggacgccttcccaaa   6243               (Asn 173 Lys))       GSTM1   19   (coding region 528   tttgagcccaagtgcttgga C/T gccttcccaaatctgaagga   6244               (Asp 176 Asp))               GSTM1   20   (intron 7 2421)   cagcaccgtgtagaatcttc A/G taagtgttagctgttactgt   6245               GSTM1   21   (3′flanking region 42)   atttgctcctggccatctac C/T cagactgtctgtctgtctgt   6246               GSTM2   1   (intron 1 7)   ggaacatccgcggggtgagc C/G agggtccgctgggcggtggg   6247               GSTM2   2   (intron 1 45)   gggacgggggtgcgtggggg C/T ggggaagtgtggagcagctg   6248               GSTM2   3   (intron 3 70)   gactgcatctcctctcccca G/C cttagaggtgttaagatcag   6249               GSTM2   4   (intron 3 224)   agcaggccctggtctcctct T/C tgcccttgcatatgggaagg   6250               GSTM2   5   (intron 5 100)   ttgattccttctggtgagtt C/A ttggtcttgctgactctaag   6251               GSTM2   6   (intron 5 341)   tcctcttggtgggttcatgg T/C ctggctggcttcaggagtga   6252               GSTM2   7   (intron 5 696)   acctttagctagacacagsg C/T gctgatttgtgcatttacaa   6253               GSTM2   8   (intron 5 723)   ttgtgcatttacaatccttt A/G gctaggcagaaaagttctcc   6254               GSTM2   9   (3′untranslated region 1006)   ctcagccccgagctgtcccc G/A tgttgcatgaaggagcagca   6255               GSTM2   10   (3′flanking region 139)   ttctgctgggcatsgtaagg C/T gcttgagaattcttgctccc   6256               GSTZ1   1   (5′flanking region −546)   agcagggcccaccagccgac C/A gcctcgaagcgccgtgagcc   6257               GSTZ1   2   (5′flanking region −321)   tttctgaccagccgccccgc T/C aaggagtcacaagagggcag   6258               GSTZ1   3   (intron 1 2890)   aaaatactgcatcaaaacca G/A gccacgctctgttgggggga   6259               GSTZ1   4   (intron 1 2896)   ctgcatcaaaaccaggccac G/A ctctgttggggggacaccaa   6260               GSTZ1   5   (intron 2 255)   tctcccaacactgctctcca A/G agccccttggcaaccatgtt   6261               GSTZ1   6   (intron 2 1560)   caccactgtttaaggccctg G/C gggggcagagttaaacacaa   6262               GSTZ1   7   (coding region 94 (Lys 32 Glu))   ccttgaaaggcatcgactac G/A agacggtgcccatcaatctc   6263               GSTZ1   8   (intron 4 297)   agaaggaggagtttgctggc C/T ctgtcccctctggtccaggg   6264               GSTZ1   9   (intron 6 94)   tatctgaaccagcctcccag G/A ctgctttgggcctgacagtt   6265               GSTPi   1   (intron 1 269)   ctcccccgggctccagcaaa C/G ttttctttgttcgctgcagt   6266               GSTPi   2   (intron 2 134)   ccccgggcctccttcctgtt C/T cccgcctctcccgccatgcc   6267               GSTPi   3   (intron 5 438)   gtgtgtgcgcgtgcgtgtgc G/A tgtgtgtgcgtgtgtgtgtg   6268               GSTPi   4   (intron 6 162)   cccgctggctgagtccctag C/T ccccctgccctgcagatctc   6269               GSTT1   1   (5′flanking region −103)   taaagagtgtcccaggcgtc C/T gtgccgcccaatggggcaca   6270               MGST1   1   (promoter region −1879)   ttaataastgtttattcaat T/G aaaccaactgctaatattct   6271               MGST1   2   (promoter region −508)   tctggaccctgaacaggagg G/C gacatcgtgacaaagcaaat   6272               MGST1   3   (promoter region −314)   cctggagattttaactttct G/A cgaagtttttaaaaacaact   6273               MGST1   4   (promoter region −131)   atcagcaggcgatggttact G/C tgggcgggtaaatcaggtga   6274               MGST1   5   (intron 1b 36)   ggagaaggggaccgcatgca A/G agggtggcaggcagggaggg   6275               MGST1   6   (intron 1c 456)   ccccttgggacggttctcac C/T tgtgccccacttccccagtc   6276               MGST1   7   (intron 1c 719)   gcccgcaagcattgctgtat A/G gcacccaggcctccagtgag   6277               MGST1   8   (intron 1c 985)   cgagtaaaatttttctaccg C/G tttgttttagagtggtgtct   6278               MGST1   9   (intron 1c 1428)   gtaaagggaaagggcgttcc T/A caactgagaagtgaagattc   6279               MGST1   10   (intron 1c 2914)   ctcatcaggtgtgtgtcaga T/G gcttggtgctggccagtctc   6280               MGST1   11   (intron 1c 4274)   attgtaatagattaacaaag G/T tgatgaaagtagtgtacata   6281               MGST1   12   (intron 1c 4276)   tgtaatagattaacaaaggt G/T atgaaagtagtgtacataat   6282               MGST1   13   (intron 1c 4767)   gccttcctcttcagcacatt C/T ccaattatacttccaattcc   6283               MGST1   14   (intron 2 2379)   ttctcaaatttcattataca G/C tattcttcaacccaaagttt   6284               MGST1   15   (intron 2 2767)   tttaactatagatgccttct T/G ctcctcttgtgtttgattta   6285               MGST1   16   (intron 2 2974)   tcactgcagcctcaacctct C/T gggctcaggtgatcctccaa   6286               MGST1   17   (intron 2 3083)   aaaaaatttgtagatatggg T/G actccctatgttgcccaggc   6287               MGST1   18   (intron 2 3106)   tccctatgttgcccaggctg A/G tcttgaattcttgggctcaa   6288               MGST1   19   (intron 3 1495)   gtcagacaatggccttcagc G/A tcctctctttgcagaatatg   6289               MGST1   20   (intron 3 1703)   ttctcttctaagaagaagtc T/C gtgcagatacttagcacaaa   6290               MGST1   21   (intron 3 2528)   ttttggagacacttttcaga G/C agagcgtttccagcatcttc   6291               MGST1   22   (intron 3 2557)   tccagcatcttccctttcca T/C ttttaagttagacttttttt   6292               MGST1   23   (intron 3 2731)   atacacatatggaacaatta A/C ctaaaaacttaaggtaatat   6293               MGST1   24   (intron 3 3032)   agagacatttagaatatatt C/A cctttaaaggtagagaataa   6294               MGST1   25   (intron 3 3045)   atatattccctttaaaggta G/C agaataacccttcactgaga   6295               MGST1   26   (intron 3 3289)   ggtttatagtgttccccccc T/A ccccgcccccaaaagaccca   6296               MGST1   27   (intron 3 3976)   ggaaagctggggaactgttt G/T cctggaacagagtctcaaaa   6297               MGST1   28   (intron 3 4288)   ccattctatttgtcaactgc G/A taacacaggcgtagaagtgg   6298               MGST1   29   (intron 3 4298)   tgtcaactgcgtaacacagg C/T gtagaagtggacattgtttt   6299               MGST1   30   (intron 3 4429)   attggaggtgacgatatctc T/C gtgatgctgggggagaaatc   6300               MGST1   31   (intron 3 4519)   tttaatagaaaatggtattc C/T tgtcttttctttcccatctc   6301               MGST1   32   (intron 3 4817)   attgctatagaagagagtaa C/T gtaaagcagaaatagttttc   6302               MGST1   33   (intron 3 6077)   tttgaaattagtgtctttaa T/C agttatctttttccacagag   6303               MGST1   34   (3′untranslated region 603)   gggtaaacccattttgaata T/C tagcattgccaatatcctgt   6304               MGST1   35   (3′flanking region 147)   tatttgctttccttctctct C/T tgttttctttttctctgaaa   6305               MGST1   36   (3′flanking region 237)   cagcacgtttttcctatgaa C/T aagacattctccaaataact   6306               MGST1       (intron 1C 904-923)   tgcgattatctttggtaatt (A) 16-19   6307                   ggcaaatcagtccaaatttg               MGST1   38   (intron 1C 3433-3434)   ccccttcaatactagaacaa (AA) gcagacacattaaatgttac   6308               MGST1   38   (intron 1C 3433-3434)   ccccttcaatactagaacaa     gcagacacattaaatgttac   6309               MGST1   39   (intron 1C 5146)   actatttcaatttttttttt T/Δ ggagggggagacagagtctc   6310               MGST1   40   (intron 2 552-563)   cccagcattataagaatgac (T) 10-12   6311                   aagtgcagatgtggggaggg               MGST1   41   (exon 3172-173)   tagcatttggcaaaggagaa AA/Δ tgccaagaagtatcttcgaa   6312               MGST1   42   (intron 3 152-158)   agaaaactggatgtctgaaa TTGACA/Δ (GTCCAATAT)   6313                   cactgcacttgtatgtgttg               MGST1   43   (intron 3 2198-2200)   ggattttagattcctcccta CTA/Δ ttctttccgaccttccaccc   6314               MGST1   44   (intron 3 2567-2568)   ccctttccatttttaagtta (A) gacttttttttttcacctct   6315               MGST1   44   (intron 3 2567-2568)   ccctttccatttttaagtta     gacttttttttttcacctct   6316               MGST1   45   (intron 3 2571-2580)   tttccatttttaagttagac (T) 9-11 cacctctctcgttacttcag   6317               MGST1   46   (intron 3 3288-3289)   ggtttatagtgttccccccc (C) tccccgcccccaaaagaccc   6318               MGST1   46   (intron 3 3288-3289)   ggtttatagtgttccccccc     tccccgcccccaaaagaccc   6319               MGST1   47   (intron 3 4682-4683)   tcctcttcatgtctctatgt (GAGATGTTGTGGCTCACAT)   6320                   agtcatcctctttgtgagac               MGST1   47   (intron 3 4682-4683)   tcctcttcatgtctctatgt   6321                   tcctcttcatgtctctatgt               MGST1   48   (3′flanking region 1359-1360)   acacacacacacacacacac CC/Δ tgctctggagttgggcaact   6322               MGST1   49   (3′flanking region 1889-1891)   ttagaatagtttctaactat ACT/Δ tttactcccaagagaagctt   6323               MGST1L1   1   (5′flanking region −105)   tgctgccgctgccgtggggc G/A gggcgtgggcggtgctggct   6324               MGST1L1   2   (intron 1 277)   agtgtctgtgagagaagcag G/A ttctggagggtggagtgtgg   6325               MGST1L1   3   (intron 2 8030)   ggggttatacagagcccctc C/G gcccccaccacacatatgca   6326               MGST1L1   4   (intron 2 8499)   gtatggcaggagtggggtcc C/T ggcaagccatagaggtatgg   6327               MGST1L1   5   (3′untranslated region 468)   cgccacctgtgaccagcagc T/G gatgcctccttggccaccag   6328               MGST2   1   (5′flanking region −46)   ggtcagcattcaaagtcaag A/T agcgccatttatcttcccgt   6329               MGST2   2   (intron 1 176)   ggtcacccatgccgcctgct A/C ccctccttcccaggggcaag   6330               MGST2   3   (intron 1 204)   tcccaggggcaagcagagac T/C gagaacattccagagattag   6331               MGST2   4   (intron 1 373)   ttacaagtgttccaaaggaa A/T cgtgcctgcttctaaacctg   6332               MGST2   5   (intron 2 −3245)   cctcgtgatttgcccacctc G/A gcctcccaaagtgctgggat   6333               MGST2   6   (intron 2 −1998)   aggccgaggtgggcggatca T/C gaggtcaggagatcgagacc   6334               MGST2   7   (intron 2 −1640)   tgtttattccttgcatagcc A/G taacataaagtatgaatttt   6335               MGST2   8   (intron 3 41)   actgtgttctaatgatgact A/G tgatgcttaaacgattaagg   6336               MGST2   9   (intron 3 453)   atcagagtgctatgttgcag A/G tatatgaactttggcttcat   6337               MGST3   1   (5′flanking region −520)   acaaaaaggccctaacagcg A/C taaatccattcacttcggga   6338               MGST3   2   (5′flanking region −355)   cgcctaaaaccgctacggtg G/A ctctgctggggacaaattat   6339               MGST3   3   (5′flanking region −234)   ctgggggagtagatatatgt T/A tttgagaatgagaggagtaa   6340               MGST3   4   (intron 1 74)   agcctttgcgcaggcactcc C/T atatttcagcctatgcgagc   6341               MGST3   5   (intron 1 682)   agaaaatgccccttctttat G/C tggggtggcagcacggagcc   6342               MGST3   6   (intron 1 832)   cgagtttacaagctacataa T/C agcgtcgggggcaagtaagt   6343               MGST3   7   (intron 1 1919)   aataaaattcctgagtttct G/C tcactcgctcttacagtacc   6344               MGST3   8   (intron 1 1991)   tgtaattaggcaacaggaaa A/G ttgtactatctttcaaatgc   6345               MGST3   9   (intron 1 4458)   tcttccatcctcctaacata T/C agttagcttccactctccaa   6346               MGST3   10   (intron 1 4676)   tgaatatgcaatgcaattgt C/G gggggatagttacttttcat   6347               MGST3   11   (intron 3 278)   cagcatgacccatctaaacc G/C atgttgactctcccaggcct   6348               MGST3   12   (intron 4 423)   cttgcctttttgttgtgggg T/G gtggggtggtcacagagaag   6349               MGST3   13   (intron 4 506)   gtgcagagaagaaaacaaag T/C ggggaaggtggaaaggggat   6350               MGST3   14   (intron 4 −162)   tcacagatattttattttcc C/T gactgaaactaacttaattc   6351               MGST3   15   (intron 4 −130)   acttaattctacctaatttg C/G gtggggagtagttggccaaa   6352               MGST3   16   (intron 4 −105)   ctgagtagttggccaaatcat C/G aaattgttaactttttgcta   6353               MGST3   17   (intron 4 −65)   aacatattgtgtaatcaacc C/T taggtgttaaaaaaggtttg   6354               MGST3   18   (intron 5 105)   atcccagcactttgggaggc G/C aaggcaggcagattgcttga   6355               MGST3   19   (intron 5 197)   aaaaaatacaaaaattagcc G/A gatgtggtggtgcacacctg   6356               MGST3   20   (intron 5 222)   tggtggtgcacacctgtagt C/T ccagctacttgggaggctga   6357               MGST3   21   (intron 5 374)   tcttatgctactatattttt T/C ttcttgggaatttgagaaaa   6358               MGST3   22   (3′untranslated region 517)   atgacttacctttatttcca G/T ttacattttttttctaaata   6359               MGST3   23   (3′flanking region 166)   agtctgattgtggtgatgta G/T gtatagtcatgccacagtga   6360               SULT1A1/   1   (5′flanking region −1597)   gcagagtaaagggactcact C/G aagaagaggaacgtgggggt   6361       STP1               SULT1A1/   2   (5′flanking region −1491)   gaggggtatattcatgaaga G/T tccaggaaaaggtaaagatt   6362       STP1               SULT1A1/   3   (5′flanking region −1376)   cggtttcatatgttactgat C/T a/g taca a/g   6363       STP1           tgagatcctaggtg               SULT1A1/   4   (5′flanking region −1375)   ggtttcatatgttactgat c/t A/G taca a/g   6364       STP1           tgcgatcctaggtga               SULT1A1/   5   (5′flanking region −1370)   catatgttactgat c/t a/g taca A/G   6365       STP1           tgagatcctaggtgaaacct               SULT1A1/   6   (exon 1B −65)   aaccctgcattccccacaca G/A cacccacaatcagccactgc   6366       STP1               SULT1A1/   7   (intron 18 442)   gagccaccctgcctaggcct G/A tgcttttgctgagtcatcag   6367       STP1               SULT1A1/   8   (exon 1A −197)   gctgggggtcccagcaggaa A/G tggtgagacaaagggcgctg   6368       STP1               SULT1A1/   9   (exon 1A −159)   ctggctggcagggagacagc A/C caggaaggtcctagagcttc   6369       STP1               SULT1A1/   10   (exon 1A −95)   gagaccttcacacaccctga T/C atctgggccttgcccgacga   6370       STP1               SULT1A1/   11   (intron 1A 60)   ctggttttcagccccagccc C/T gccactga c/g tggctttgtga   6371       STP1               SULT1A1/   12   (intron 1A 69)   agccccagccc c/t gccactga C/G tggctttgtgagtgcgggca   6372       STP1               SULT1A1/   13   (intron 1A 174)   tgtgatggtggtaagggaac G/A ggcctggctctggcccctga   6373       STP1               SULT1A1/   14   (intron 6 11)   catgaaggaggtgagaccac C/G tgtga a/t gcttccctccatgt   6374       STP1               SULT1A1/   15   (intron 6 17)   ggaggtgagaccac c/g tgtga A/T gcttccctccatgtgacacc   6375       STP1               SULT1A1/   16   (intron 6 35)   gaagcttccctccatgtgac A/T cctgggggccggcacctcac   6376       STP1               SULT1A1/   17   (intron 6 71)   ctcacagggacccaccaggg T/C cacccagccccctcccttgg   6377       STP1               SULT1A1/   18   (intron 6 108)   ttggcagcccccacagcagg C/A cc g/a gattccccatcctgcct   6378       STP1               SULT1A1/   19   (intron 6 111)   gcagcccccacagcagg c/a cc G/A gattccccatcctgccttct   6379       STP1               SULT1A1/   20   (intron 6 270)   ctccctgccaaagggtgtgc C/T acccagggccacagtcatgg   6380       STP1               SULT1A1/   21   (intron 6 488)   ttttacttttcctgaatcag C/T aatccgagcctccactgagg   6381       STP1               SULT1A1/   22   (intron 6 509)   aatccgagcctccactgagg A/G gccctctgctgctcagaacc   6382       STP1               SULT1A1/   23   (coding region 600   ccctctgctgctcagaaccc C/G aaaagggagattcaaaagat   6383       STP1       (Pro 201 Pro))               SULT1A1/   24   (coding region 638   gatcctggagtttgtggggc A/G ctccctgccagaggagaccg   6384       STP1       (His 213 Arg))               SULT1A1/   25   (coding region 645   gagtttgtggggcactccct G/A ccagaggagaccgtggactt   6385       STP1       (Leu 215 Leu))               SULT1A1/   26   (coding region 902   gctgtgagaggggctcctgg G/A gtcactgcagagggagtgtg   6386       STP1       (Gly 301 Ser))               SULT1A1/   27   (coding region 973   taaaatatgaattgagggcc T/C gggacggtaggtcatgtctg   6387       STP1       (Trp 325 Argo               SULT1A2/   1   (5′flanking region −547)   tgttctttcttggttctatg G/C atccatgctctgctccaccc   6388       STP2               SULT1A2/   2   (5′flanking region −425)   tgtgggttgcactgggccag G/A acccctggcaccttcaagac   6389       STP2               SULT1A2/   3   (5′flanking region −358)   ctttccagggcctgcctatc C/T ca g/t ctttctcctccaatccc   6390       STP2               SULT1A2/   4   (5′flanking region −355)   tccagggcctgcctatc c/t ca G/T ctttctcctccaatccctcc   6391       STP2               SULT1A2/   5   (5′untranslated region −28)   actgcgggcgaggagggcac A/G aggccaggttcccaagagct   6392       STP2               SULT1A2/   6   (intron 1A 85)   ctgactggccttgtgagtgc G/A ggcaagtcactcagcctccc   6393       STP2               SULT1A2/   7   (coding region 20   catggagctgatccaggaca T/C ctc t/c cgcccgccactggagt   6394       STP2       (Ile 7 Thr))               SULT1A2/   8   (coding region 24 (Ser 8 Ser))   gagctgatccaggaca t/c ctc T/C cgcccgccactggagtacgt   6395       STP2               SULT1A2/   9   (intron 2 34)   gccacccaccctctcccagg T/C ggcagtccccaccttggcca   6396       STP2               SULT1A2/   10   (intron 5 77)   cagcaaccctgtgtcggcac T/C ccctgcccgcttctccagtg   6397       STP2               SULT1A2/   11   (intron 6 684)   actggggtcccaggggtcga G/C gagctggctctatgggtttt   6398       STP2               SULT1A2/   12   (coding region 704   gttcaaggagatgaagaaga A/C ccctatgaccaactacacca   6399       STP2       (Asn 235 Thr))               SULT1A2/   13   (3′untranslated region 895)   gctctgagctgtgagagggg T/C tcctggagtcactgcagagg   6400       STP2               SULT1A2/   14   (3′flanking region 98)   cctccccgctccagctcctc A/T acttgccctgtttggagagg   6401       STP2               SULT1A2/   15   (3′flanking region 817)   ccactgactcggggcttgcc A/c aggctgccagggctggcaaa   6402       STP2               SULT1A2/   16   (3′flanking region 1006)   cctctcccctggaggctgct T/C tacccgctgtgggggcgcat   6403       STP2               SULT1A2/   17   (3′flanking region 1464)   tcccgtagcccaggcaagtt C/T ggtgaccagagagcagcccc   6404       STP2               (SULT1A2/   18   (intron 4 1728)   tcagcttcctcctttgccaa A/Δ ccaagagatgagctggcctg   6405       STP2               SULT1A3/   1   (coding region 843   cgcttcgatgcggactatgc G/A gagaagatggcaggctgcag   6406       STM/       (Ala 281 Ala))               SULT1C1   1   (intron 3 2280)   gcaaatttttggtattttta G/T tacagtcagggttttaccat   6407               SULT1C1   2   (intron 3 3742)   gcagatctcactttctggca G/A attccctgaatttgctcccc   6408               SULT1C1   3   (intron 3 4453)   ttcatagggcttttccctca C/T ttgttttgtaattttgtata   6409               SULT1C1   4   (intron 3 5234)   taaaagagactagaggcagg A/G gagctttgcagttcttctaa   6410               SULT1C1   5   (intron 3 6175)   tggctggcaggaaggtgagg G/C agtcctctcttctctggtcc   6411               SULT1C1   6   (intron 4 205)   acatgaaggcaggatccaga T/C tgaatgtttggagggaacta   6412               SULT1C1   7   (intron 4 408)   ggctcacgcctgtaatccca G/C cactttgggaggccgaggcg   6413               SULT1C1   8   (intron 4 429)   cactttgggaggccgaggcg G/C gtggatcacaaagtcaggag   6414               SULT1C1   9   (intron 3 2106-2115)   tgcagtggtcgtttgtttgg (T) 8-11 gagacaaagtctggctctgt   6415               SULT1C1   10   (intron 3 4199-4210)   agagacaggatttcaccatg   6416               SULT1C2   1   (5′flanking region −110)   tcctgttaactcacagagaa C/T ggaagggctggaacgggacc   6417               SULT1C2   2   (coding region 15 (Asp 5 Glu))   acactaatggccttacacga C/G atggaggattttacatttga   6418               SULT1C2   3   (intron 1 297)   gtagacttgtttatttattc A/C ttcccaatctaggcccttat   6419               SULT1C2   4   (intron 1 363)   gagtgtgtgagctagaaagg T/G gatcctgagtctgatttggg   6420               SULT1C2   5   (intron 1 2300)   gggctactatcagcagccac C/T acctcaggaaggatgacttc   6421               SULT1C2   6   (intron 2 455)   aagacttggaagcaaataga T/G aaaaaaaaaatcgtagaaat   6422               SULT1C2   7   (intron 4 55)   caaaatctccaaacacccta G/A aaggaaagaatcttttcttt   6423               SULT1C2   8   (intron 4 111)   ctgccttctttaatggaaca T/C tctcacttctcttcaggaat   6424               SULT1C2   9   (intron 5 1657)   ctttgtgtttactttgtttt T/C acttggtacaaaagtgttgt   6425               SULT1C2   10   (intron 5 2082)   tctgctcctagagatggagg C/A gtcccacagccacagtgatg   6426               SULT1C2   11   (intron 6 933)   agctactgaacctctcccac A/G taactgtatttcaggggcag   6427               SULT2A1   1   (intron 2 478)   ggactgggctctgtacacac T/C tcgtcttactgtgtgtaaat   6428               SULT2A1   2   (intron 3 382)   caaaaccctcttaatattct G/A tttctatctgtctcagaact   6429               SULT2A1   3   (intron 3 409)   tctgtctcagaactgattgc A/G tgactctaggatcgctatat   6430               SULT2A1   4   (intron 5 249)   agctggaaattacaggcaca C/T gccaccacacccagctaatt   6431               SULT2A1   5   (intron 5 395)   aggcatgagccacggcgccc G/A gccaatttatcagctttaat   6432               SULT2A1   6   (3′flanking region 33)   ttccttgttaaaagttacca G/C ggttggccaggc a/g cggtggt   6433               SULT2A1   7   (3′flanking region 46)   gttacca g/c ggttggccaggc A/G cggtggttcatgcctgtaat   6434               SULT2A1   8   (3′flanking region 199)   ttagccaggcgcattggctc A/G tgtctgtaatcccagcactt   6435               SULT2B1   1   (intron 2 4162)   ttctcccctctCctcaccat C/T cgcacacaggtgatctacat   6436               SULT2B1   2   (intron 3 879)   gagggcatccagctctgggg G/A ctggacctgggggtttgtgg   6437               SULT2B1   3   (intron 4 3882)   ttccacgctccttccttggc C/T gagtgccctccctccgctga   6438               SULT2B1   4   (intron 5 1780)   cctgcagaagggggtccctt C/T catgtccaagcagtaatggc   6439               SULT2B1   5   (intron 5 1814)   taatggctgcagcatggagc G/A ttgtgggggcattgagacag   6440               SULT2B1   6   (coding region 789   ccctcttctccaggggtctg C/T ggcgactggaagaaccactt   6441               (Cys 263 Cys))               SULTX3   1   (intron 1 332)   cctgcttctccctttacctg G/T ctggctgtgtgaccttggac   6442               SULTX3   2   (intron 1 1167)   taggaatggctaagcgtgtc G/A ttggcttctgtggccactca   6443               SULTX3   3   (intron 1 2872)   cattctcactgatgcagacg G/A aagcttctgggcctgggcgt   6444               SULTX3   4   (intron 1 6242)   cacccttggcttttaccagc A/G tggaaacattttacctgaat   6445               SULTX3   5   (intron 1 6601)   gcgtgggcttctggagggag C/T gagaggagagtggagggccc   6446               SULTX3   6   (intron 1 6768)   agcttgaaatgagccagact C/T tcctgggacctgttgacccc   6447               SULTX3   7   (intron 1 6905)   agtactttgttttatcctcc C/T catcctcacaactttgccat   6448               SULTX3   8   (intron 1 7464)   gccaggatcccttgagagac G/A acatgaacacagccaggagc   6449               SULTX3   9   (intron 1 7833)   tgcttcgggctgggcttggc G/A ggggcagctgtgctccaggc   6450               SULTX3   10   (intron 1 8189)   caaactggggcccttaatgc C/T gcacaccagagcctcctttc   6451               SULTX3   11   (intron 1 8316)   ctctcacacaagggcggagc C/G tcttccccttgaggcagagc   6452               SULTX3   12   (intron 1 8617)   agacagaggctggggccaag C/T cagggttgccggagcttccc   6453               SULTX3   13   (intron 1 8631)   gccaagccagggttgccgga G/T cttcctggactggtcaggcc   6454               SULTX3   14   (intron 1 9493)   ttttcctcttagagcttccc G/A tcgtgctctgtgtcgagggc   6455               SULTX3   15   (intron 1 10306)   caggcggggagcctgaatgc C/T gcagtcgtgagggtggccag   6456               SULTX3   16   (intron 1 11987)   tcataaaataatgatatcag T/C acactttttggaaatttgag   6457               SULTX3   17   (intron 1 13085)   ctctgtgcccggtgttgaga C/A aggccatgccctagagtcct   6458               SULTX3   18   (intron 1 13108)   gccatgccctagagtcctgg G/A gagttccaccccagaacagc   6459               SULTX3   19   (intron 2 700)   gaaccatctgggagtcgttc C/T gtactgccgtgccgagggcc   6460               SULTX3   20   (intron 2 818)   agccatagtagctagccagc G/A atcagcgctgggaggggagc   6461               SULTX3   21   (intron 2 1677)   actccacttcccctgaaccc C/T accccttccttcctcctctg   6462               SULTX3   22   (intron 4 4954)   gcgtgccgaaggcgggaggg C/T tgggatggctcaagacgtga   6463               SULTX3   23   (intron 5 3632)   ccagctgactcccacaccag C/T ggtcagagaacattgtcttt   6464               SULTX3   24   (intron 5 3662)   acattgtcttttaaggtttc C/T gaagtgctgcaataaagaaa   6465               SULTX3   25   (intron 6 1874)   tctgatctcagagagctgac A/G atggaaagaattctaaacga   6466               SULTX3   26   (intron 6 2133)   agaccggtgcctgcagttta T/G cccacagctcagccctccct   6467               SULTX3   27   (intron 6 2524)   ggaagggccagggctgcctg T/C gatgcccagagcagtgcact   6468               SULTX3   28   (intron 6 2573)   agatcatactcgctcctggg A/G tgtttattaaacacctgcca   6469               SULTX3   29   (3′flanking region 12)   gttcccggcgttgcgtcgag C/G gtttctgcttgtgggggtag   6470               SULTX3   30   (3′flanking region 445)   tccaaagcctgtcttcctga T/G ttcctgtggaaggagagtcc   6471               SULTX3   31   (intron 1 6418)   ctctccctgttagtgtgggg G/Δ cagctctttccagtgtcctg   6472               SULTX3   32   (intron 5 2458)   cccttaaagggaagttcatc C/Δ ttctctgccttccaggctcc   6473               TPST1   1   (5′flanking region −298)   acccgccaccatgcccagct A/C attttttttgtatttttttt   6474               TPST1   2   (intron 1 3520)   agaaaagcagattaatgtaa C/G agtgacgcttagacaacaag   6475               TPST1   3   (intron 1 3610)   ggcagaaagagaatatagca A/G ctattaaacacaaataaatt   6476               TPST1   4   (intron 1 20828)   tattgctgtccacctggtca A/G tgtgtcctgctgataagtgc   6477               TPST1   5   (intron 1 −6761)   aatacaatacttattctgta T/C aattctagagggcccagaga   6478               TPST1   6   (intron 1 −544)   tagaacaagtgaatatttta C/T gttcttagtggtttatggtt   6479               TPST1   7   (intron 1 −526)   tacgttcttagtggtttatg G/T ttggcagttttcccccaaca   6480               TPST1   8   (intron 1 −234)   tcaagacatttaataatgca C/T atgtttcagctaaccctttt   6481               TPST1   9   (intron 1 −48)   ttatagtgggtttaagcatg A/G tttctaaaaaatttaaataa   6482               TPST1   10   (intron 2 −18944)   aaaacattagaactgggaag G/A ttaaaaaatctttagtcttt   6483               TPST1   11   (intron 2 −18687)   tatgtgcaccctaataacat A/G tttccttaaaactagtacta   6484               TPST1   12   (intron 2 −18501)   ttggaaggtaacttaatgta A/G gtgcctgaaaaacagggata   6485               TPST1   13   (intron 2 −159)   gaatggggatttccctcagt C/G ctgcccactggctgctcttg   6486               TPST1   14   (intron 2 −19)   acctgttgccttaaactcac G/A cctgctttgtttttccaggt   6487               TPST1   15   (intron 3 158)   tgctggggaagaaagatcag C/G gtctgggacttgttgatttt   6488               TPST1   16   (intron 3 3779)   agcagggcacgtcaccctcc C/T ggcacacccatgtgttcacc   6489               TPST1   17   (intron 4 292)   ttgttattttcattatgaac C/T atgaaatatttcagctgaaa   6490               TPST1   18   (3′untranslated region 1518)   gttgtctgtacatgttctaa T/G gttttgtagaacacgtgtgc   6491               TPST1   19   (3′flanking region 264)   acggtgcttggcctgcatta C/T cattttgtagtgaagtttct   6492               TPST2   1   (intron 2 578)   tcacctatcatcctcactgc G/A aggatgccaggatacctccc   6493               TPST2   2   (intron 2 789)   cttaagccatcgtgcaggtc A/G ttgctgtcttctgctcactt   6494               TPST2   3   (intron 3 2009)   cccaggctggagtgtagtgg T/C gtgatct c/t ggctcactgcaa   6495               TPST2   4   (intron 3 2017)   ggagtgtagtgg t/c gtgatct C/T ggctcactgcaacctccgcc   6496               TPST2   5   (intron 3 2035)   ctcggctcactgcaacctcc G/A cctcccgggttcaagcagtt   6497               TPST2   6   (intron 4 104)   aatgttcagtctctcaattc C/T tggtcatctgatttgttcct   6498               TPST2   7   (intron 4 379)   taaetaaataaactattggt C/T cctttcttgtcttataaggt   6499               TPST2   8   (intron 4 588)   tactgcagcctgatacttct C/T ggcttaagccatcctctcac   6500               TPST2   9   (intron 4 626)   caccccaggctcctgagtag C/T taggactgcaggtgcacgcc   6501               TPST2   10   (intron 4 718)   cccaggctggtctagaactc C/G tggccgtaagggatgcccct   6502               TPST2   11   (intron 4 873)   gttgatggccttatttatac G/A tttccattacagcttctegt   6503               TPST2   12   (intron 4 949)   caaatetttgaaaatgggac C/G caggcctgaggaagagcttt   6504               TPST2   13   (intron 4 1033)   taagctcagcatttctgagc G/A tgtgctgattttaggaaata   6505               TPST2   14   (intron 4 1051)   gcgtgtgctgattttaggaa A/G taaacagttatcgtattgaa   6506               TPST2   15   (intron 4 1356)   gattcaacgtacataccagc C/T gacattgacaggtgaatggc   6507               TPST2   16   (intron 4 1707)   gtctccttaaaaggtggctc G/T ctgcccctggcttgccccag   6508               TPST2   17   (intron 5 215)   aagaccagcctgaccaaaac G/A gtgaaaccccgtctctacta   6509               TPST2   18   (intron 5 341)   tgggaggcageggtcgcagt G/A agctgagatcacgccgttgc   6510               TPST2   19   (intron 6 31)   ggacttcactgggggttccc G/A ctgcttctgggtggccccgg   6511               TPST2   20   (intron 6 273)   gtttgtctgacactggggac A/G gggcaggaagcaccactatg   6512               TPST2   21   (intron 6 693)   aaagggatttttttgaactt G/C gtaattcaaagatttaagat   6513               TPST2   22   (intron 6 1635)   tcctgggtacagagttggcc T/G tgaacaaacatgagtccttc   6514               TPST2   23   (3′untranslated region 1147)   cttccccactttcagatctc C/T gcaaatgacttcattgccaa   6515               CST   1   (intron 1b 6302)   agagctccccagagaggact A/G tgaggctgcatgatgcatga   6516               CST   2   (intron 2a 1004)   gagtgagacccccatctcta C/T aaaattttttttaaaaagta   6517               CST   3   (intron 2a 1395)   atgcctaagtttacagtagc T/C aggcaggaaaggcacaacca   6518               CST   4   (intron 1d 473)   ccagagcctgaggttggtgc T/A ggggcccctccatggctgcc   6519               CST   5   (intron 2b 726)   ctatctctccagtgcctctc T/C gtccctgtctggaccctgct   6520               CST   6   (intron 2b 745)   ctgtccctgtctggaccctg C/A tggggggccacagagcaggc   6521               CST   7   (coding region 85   tcactagtttcctgctgctg G/A tgtactcctatgccgtgccc   6522               (Val 29 Met))               CST   8   (intron 3 308)   tcgtctgaggtcaggagttc G/A agaccagcctggccaacatg   6523               CST   9   (intron 3 853)   ttttgtcctataaaatggca G/A tttcatgtggcccaagctga   6524               CST   10   (coding region 198   gaggcagtgatccgggccaa C/T ggctcggcgggggagtgcca   6525               (Asn 66 Asn))               ST1B2   1   (intron 1 80)   acttgtccataaaatcatta C/T cattctaaataaagttaata   6526               ST1B2   2   (intron 2 −352)   aacatttaaatagtcattta T/C agcaatgcacaggtataata   6527               ST1B2   3   (intron 2 −85)   attacataatgctcaaaaat G/A tcttgaaaaactggttggca   6528               ST1B2   4   (intron 4 460)   gtacttgacatteaaaaata T/C ctgatgttt a/g tatatccata   6529               ST1B2   5   (intron 4 470)   ttaaaaaata t/c ctgatgttt A/G tatatccataaatagctaat   6530               ST1B2   6   (intron 4 518)   tttaagattgtcctcatatt C/G ttacttcctttggttactaa   6531               ST1B2   7   (intron 4 616)   aatgtttatgaaaatagact T/C ttatctggttttagtggcct   6532               ST1B2   8   (intron 5 58)   ctgcatcatgctgtaaaagg G/A ttgatatttgctttccaact   6533               ST1B2   9   (coding region 612   taatagaatccaaaggagga A/C atcaagaagatcattagatt   6534               (Glu 204 Asp))               ST1B2   10   (intron 6 582)   aatacattacttccatttaa G/A tagtctgtttattgtggctt   6535               ST1B2   11   (intron 6 3130)   agatgtaaaaaettattcaa A/T ttttaaaegcctgaeaaatt   6536               ST1B2   12   (3′untranslated region 907)   tttaaagtgtctaaatcaca C/A atctgaageaataegagatt   6537               ST1B2   13   (3′flanking region 50)   tcagatcccagttttgttcc T/G ttgattctgagtttccaaat   6538               ST1B2   14   (3′flanking region 328)   tttgacccaggacactgtgt T/G ccactgctgtctaccgagtt   6539               ST1B2   15   (3′flanking region 446)   gtagttcagattttggaaat C/A ttttttctatatcatarcta   6540               CHST1   1   (intron 1 3900)   gccctgcccccactcccaga C/G ttgcggccctccagcccctt   6541               CHST1   2   (intron 1 6520)   cctcccccagaggagctggg C/T acactggggccttgtgttgt   6542               CHST1   3   (intron 1 7963)   aaaacattcatgggggatta G/C tgctggctacgtcagagtca   6543               CHST1   4   (intron 1 9173)   gcgctgccacagatcaggcc G/A aggtgggggacagaaatgcc   6544               CHST1   5   (intron i 9701)   cccagaattctgaatacagc A/G gcgatgacgggactacgagg   6545               CHST1   6   (intron 1 12132)   aacagatccacaggaccaga C/A agcaaaggggaggaacatgc   6546               CHST1   7   (intron 1 12465)   atgcagggaaggggcttggc G/A caaaactgtcaactgagata   6547               CHST1   8   (intron 1 12561)   atgctccctggtccactttc G/A ctttgagtttcaggtagctg   6548               CHST1   9   (intron 3 529)   ccatggtctgcaggggtcct T/G catgctcaggggattggggt   6549               CHST1   10   (intron 3 617)   agaggacagaggaaagagga C/A cacctggagaactgggcgcc   6550               CHST1   11   (intron 3 796)   aagaggcttccgcagctgtc C/T gcaggttaaatcctggggtg   6551               CHST1   12   (intron 3 818)   caggttaaatcctggggtgc A/G aggaatgtttgttcagctcc   6552               CHST1   13   (3′flanking region 762)   ataactggtacaggtttact G/C gtgtctacactggcagagaa   6553               CHST1   14   (intron 1 7874)   gttttccccttgccttgcct T/Δ cattttcatcacctcatttt   6554               CHST1   15   (3′flanking region 335-349)   ggattttagtagagacgggg   6555               CHST2   1   (5′flanking region −260)   agccggacagtccgccgggc G/A gtgatccgggggccgctccc   6556               CHST2   2   (5′flanking region −56)   gcgctggggaccagccgccg C/T gcccgcctcggagtcgcggc   6557               CHST2   3   (3′flanking region 218)   aggagtgaaacacatctttg T/A attctaaaggcagaaaccaa   6558               CHST2   4   (3′flanking region 383)   gcagagaccaatgttttggt G/C ctgaggctggttcagaaaaa   6559               CHST2   5   (3′flanking region 952)   tactgaaacattctgcagaa T/C gttatactatgagaagaaat   6560               CHST3   1   (5′untranslated region −294)   tccagcgtgccgaccggccc C/G gcagcgcctccatccctccg   6561               CHST3   2   (intron 1 96)   gcgtccaggcgcgcgcgcca G/A actttggagggagaaggggg   6562               CHST3   3   (intron 1 4467)   agagaagaatggggcagagc C/G ggagcagccaggggaggtga   6563               CHST3   4   (intron 1 4853)   ggatgagcactgcccagctg A/G tccetgcccaccttccacag   6564               CHST3   5   (intron 1 4965)   tccactgcagaggggacaca G/C tgaccaggacggaagttggg   6565               CHST3   6   (intron 1 5046)   gggctgtccatctttgtacc C/T ctggttccatcccagtgcct   6566               CHST3   7   (intron 1 5300)   ccttttcttctctaaggcct A/G aagagatgacagaatgctgc   6567               CHST3   8   (intron 1 5354)   agcgcgtggactccacagcg G/A ggtgtggggtggcccctggc   6568               CHST3   9   (intron 1 5428)   gacacgrttcagccctctgt C/G tctattgccccaaatctggc   6569               CHST3   10   (intron 1 6555)   gagtggggcactgctggaag G/C ttctggttcctgctttgttc   6570               CHST3   11   (intron 1 6990)   aaacacactgggccaccccc G/A tccccgcactgtgactacac   6571               CHST3   12   (intron 1 7133)   ctgagggcctgtcctgcagg T/G ttgatgtgtctgaagaggcc   6572               CHST3   13   (intron 1 7161)   ttctgaagaggccccgagaa T/C agaaatctagaacctgccag   6573               CHST3   14   (intron 1 7199)   cagtcacgaagcagtgtcac C/T caccagaggatgaagaactg   6574               CHST3   15   (intron 1 7316)   cttgcatctggtgtaggtgc C/T tgggggtagcgtgcccagga   6575               CHST3   16   (intron 1 7967)   gacaggaaccccaccccgag T/G gatgtctggccctgtgacct   6576               CHST3   17   (intron 1 11412)   gcttgcacttctgattcatt C/T tgcagtcactggctctttgt   6577               CHST3   18   (intron 1 11591)   ccctggaagggcctcactgc G/A gtgactcattacccagcatg   6578               CHST3   19   (intron 1 12541)   acccaracagcatgaatggg G/C ccagccccagcctgcccgct   6579               CHST3   20   (intron 1 12672)   gtagccacagctggggctgt G/C gggtcagggcatggcaaggg   6580               CHST3   21   (intron 1 14809)   ggatgtgtagggtttgggct C/T ggccttaagggatgggtgga   6581               CHST3   22   (intron 1 16161)   gatgctggtcaggcattgtc G/A ttgggatctttaacaccacc   6582               CHST3   23   (intron 1 16385)   tatttagcatgtgggtttca A/C ctttctgttttttcaaaggg   6583               CHST3   24   (intron 1 33638)   gacttgggccacgtccttgg G/C catgaatcttggtctatgtc   6584               CHST3   25   (intron 1 35145)   agggaagccgaagcctcact T/C gctggggcttgcctggcctc   6585               CHST3   26   (intron 1 35340)   tgtgaagttttgcccacagt T/C ggtggccatggttcgcaccg   6586               CHST3   27   (intron 1 35436)   gccactcatgtatggagcaa T/C tgcctttttttcttcctctt   6587               CHST3   28   (intron 1 36150)   ccatagaagaggctgggcct G/T aggaagccagggaagcagga   6588               CHST3   29   (intron 1 36194)   ggtgtggggaggccagcagg G/A gtgtgggcctcagcggggag   6589               CHST3   30   (intron 1 37602)   ctggaacagcaacttaaaaa A/T agaaatagtccctggaaggg   6590               CHST3   31   (intron 1 37725)   gggtagccagggcagctccc C/T gacccgca c/g ctgccttttca   6591               CHST3   32   (intron 1 37734)   gggcagctccc c/t gacccgca C/G ctgccttttcacccctctcc   6592               CHST3   33   (intron 1 38208)   gccattctagatgcgagtcc C/T gactttgggg t/c gcttgcatt   6593               CHST3   34   (intron 2 255)   ctacagctgtgaaaggttag A/G caagatacttaacatttctg   6594               CHST3   35   (3′untranslated region 2202)   acacctcagaggagcctgtg C/A ttaacatttgtaggattatt   6595               CHST3   36   (3′untranslated region 2569)   aggcctcatctggggtaggg C/G caagaggaaagtacagagtg   6596               CHST3   37   (3′untranslated region 2717)   ctggaattcctccttagggc C/T ctgggaagagtattgcttaa   6597               CHST3   38   (3′untranslated region 2753)   cttaacgcaggatgtgctgg G/A tgttttgtttcgggctttta   6598               CHST3   39   (3′untranslated region 2800)   gcttggtgtctttcttgttt C/T atggctgtgtttttgctttt   6599               CHST3   40   (3′untranslated region 3283)   ccgagggctgcccagctctg C/T ttctggtttcctggacaatt   6600               CHST3   41   (3′untranslated region 3327)   ctgtcagatacggcccattg T/C aaacccagagggctgcattt   6601               CHST3   42   (3′untranslated region 3787)   gttccccatgtggaggtcgg A/G ggggctgggactggggaggg   6602               CHST3   43   (3′untranslated region 3860)   ggccctgctaatgtggacag T/C agactttatccctccttctt   6603               CHST3   44   (3′untranslated region 4915)   ccagatgtgcatagaagcca G/A tctctgtcacatacaccgca   6604               CHST3   45   (3′untranslated region 4993)   taaagcaaatttaggctttt G/A tccttctgcaatacatgcac   6605               CHST3   46   (3′untranslated region 6208)   atttcatgtctgcatggtac G/A agacaccccttcac g/a gcata   6606               CHST3   47   (3′flanking region 281)   agacaggagtgttgggccag C/T ggtcagggggcctggggatg   6607               CHST3   48   (3′flanking region 997)   acctcttaaagtatttgagc C/T ggtgcctgtcatcccaacct   6608               CHST3   49   (intron 1 22595)   cgggagcaggaaaaaaaaaa A/Δ gaataagaagaaaagaggct   6609               CHST3   50   (intron 1 35423-35424)   gctcatgctcacagccactc AT/Δ gtatggagcaa t/c   6610                   tgcctttt               CHST4   1   (5′flanking region −1092)   atgaagccttgtgccatctc G/A ctgtgtcgtgccagcacctg   6611               CHST4   2   (5′flanking region −941)   ttgccagagagaaacaggaa G/A ggaggaagagccacacaati   6612               CHST4   3   (intron 1 −150)   caggaaatgatttggagaag G/T actggtgccattgttggcac   6613               CHST5   1   (intron 1 −144)   ggcctcttaggtttcagcca A/C gacaggtgactcttagcacc   6614               CHST5   2   (intron 2 17)   caacgtaagagcgcttctca T/A tgtccagctcctttgtttct   6615               CHST5   3   (intron 2 139)   aatcccagcactttgggagg C/A ggagatgtgcggatggatca   6616               CHST5   4   (intron 3 1829)   gactgtatgtctgctattca T/C ataggaacaaataattcatg   6617               CHST5   5   (intron 3 2037)   aaatgaaaccaacaccaaca C/G tgcagagaagcaaacaaaag   6618               CHST5   6   (intron 3 2134)   aagcagctaaattgtgttcc G/A tacaggtgcaattaggcagg   6619               CHST5   7   (intron 3 2528)   atggtaaagttcgcctgggt G/A cagtatgtcagcatcctgct   6620               CHST5   8   (intron 3 2674)   gcacttatcctagaaaggcc A/G tttctgaagactcagcagga   6621               CHST5   9   (intron 3 7039)   ttggctcccgccggccaccc T/C gggaccgcagccacgtctga   6622               CHST5   10   (intron 3 7211)   gtagccccaggacaccccca T/G cctcaacatcccattctggg   6623               CHST5   11   (intron 3 7294)   ggagcttccagtggcttggt T/C acccccgactcttcgtccat   6624               CHST5   12   (intron 4 108)   gcagggtcctgcactctgca G/A ggggcaatcacaggtgggag   6625               CHST5   13   (intron 4 402)   agcactggaaaaagtacagt T/C gcacttgtagcggaggtggg   6626               CHST5   14   (intron 4 547)   ctcctgtccccgcattgagg C/G gaaggagcagaggtgagatc   6627               CHST5   15   (intron 4 1142)   gccccaggtctcatagctcc C/G cattggcagtgctgggattt   6628               CHST5   16   (intron 5 1187)   cactgggcagtaattggggc A/G tgggatgggcatgagggccc   6629               HNK − 1ST   1   (intron 1 139)   gtgttttggcgacttgaaga C/T ctccctagttcgcgggagta   6630               HNK − 1ST   2   (intron 1 1020)   acctgagcagaaaattctct T/C cttcgctgaaatgaaaattg   6631               HNK − 1ST   3   (intron 1 1091)   aagaatttgtaaacatcaca G/A gcaacttgcagttatattcg   6632               HNK − 1ST   4   (intron 1 1971)   ctataactatttcaaacata C/T gaaacaggcataattggatt   6633               HNK − 1ST   5   (intron 1 2096)   atttagaatattcatttacc A/cCagaaatccaaatataacctg   6634               HNK − 1ST   6   (5′untranslated region −91)   ctatccagtgacaagaggaa C/A caagaacctcagttcagggg   6635               HNK − 1ST   7   (intron 2 −530)   tgtgggcggaggcgagaagc G/A tcagtgttcattcctttgct   6636               HNK − 1ST   8   (intron 2 −466)   gctacatcttgtcagccagt C/T agaattttaaacacagccag   6637               HNK − 1ST   9   (intron 2 −92)   acggaaatatttgtgctgat A/T cttactgactgaaatcacct   6638               HNK − 1ST   10   (intron 3 152)   catggcctccgttccttcat G/A ttacagaggtgtgaggggag   6639               HNK − 1ST   11   (intron 3 312)   cacagtggccttatgccttg C/T agcagggcgcctctcaggct   6640               HNK − 1ST   12   (intron 3 1948)   tcctttgatgtatcaagttt T/C gtgctgaatgttttcagtgt   6641               HNK − 1ST   13   (intron 3 2140)   ttacacctggagaggagcac C/T gcagcggtccttaatactgc   6642               HNK − 1ST   14   (coding region 187   agaagcacattcctgaggaa C/T tgaaggtgggcacagccagg   6643               (Leu 63 Leu))               HNK − 1ST   15   (intron 4 581)   cctgatcattccctagctgg G/A atgaggggtgcactctggaa   6644               HNK − 1ST   16   (intron 4 615)   tctggaaggcctctcacttc G/C taacccccattctggatcta   6645               HNK − 1ST   17   (intron 5 7)   gattgttctaaatggtgtgt G/A tgggtctactgaatgtccac   6646               HNK − 1ST   18   (intron 5 123)   acctgaagggactggtggcc G/T tccagacaggcctgtttttg   6647               HNK − 1ST   19   (intron 5 721)   ataattatgggctctgctta T/C gaaatttagcttcagacagg   6648               HNK − 1ST   20   (intron 5 867)   tgctgcccacagagtcggtg G/A tcactcctggccactgtttg   6649               HNK − 1ST   21   (coding region 444   ccaggagcattttcttccat T/C gaggagatccccgaaaacgt   6650               (Ile 148 Ile))               HNK − 1ST   22   (intron 6 94)   ctgagttctgtacttggcag A/G ttgatcggaggaccacagag   6651               HNK − 1ST   23   (intron 6 247)   catgaaggtgacatcatttt G/A ttaatagaaattagcaggca   6652               HNK − 1ST   24   (coding region 696   tggaggaaccggacagagac C/G cgggggatccagtttgaaga   6653               (Thr 232 Thr))               HNK − 1ST   25   (coding region 870   gagaccctggaggacgatgc C/T ccatacatcttaaaagaggc   6654               (Ala 290 Ala))               HNK − 1ST   26   (3′untranslated region 1110)   tcaaatatctttattagacc T/C ggggctaaccaggtgaagat   6655               HNK − 1ST   27   (3′untranslated region 1178)   ccacacccctcctttgagga C/T gcccggggtctcccacaggc   6656               HNK − 1ST   28   (3′untranslated region 1393)   ggaagcatcacacagcgtta G/A gagccgtttccttcaggtgt   6657               HNK − 1ST   29   (3′untranslated region 1452)   tgaggttctcctggctagtc A/G gggtggcttcacccatcact   6658               HNK − 1ST   30   (3′untranslated region 1540)   gcaagggggctgctgaaatc G/C cagagacttttgcagcatca   6659               HNK − 1ST   31   (3′untranslated region 1696)   gggtggtgtggtgtccaggg G/A tccatctttccagaatccat   6660               HNK − 1ST   32   (3′untranslated region 1829)   aggggaggctttttctacct G/A agaaggggagtgtctttgag   6661               HNK − 1ST   33   (3′untranslated region 2211)   tccagcagtgcggcttcctg G/T c/t aaceaggtaggccctggtg   6662               HNK − 1ST   34   (3′untranslated region 2212)   ccagcagtgcggcttcctg g/t C/T aacaaggtaggccctggtgc   6663               HNK − 1ST   35   (3′flanking region 1016)   cacacgaaggtgtgcactca C/T ggcctgcagggcacccaggt   6664               HNK − 1ST   36   (3′flanking region 1152)   gcatgctttgctcatctgga A/C tctccagaagcagggaacag   6665               HNK − 1ST   37   (3′flanking region 1291)   gccgagaccctcagcaggat A/G gtgcagttacagggctgagc   6666               STE   1   (5′flanking region −605)   caggtttctaaaataataat C/T gasaggtgagtgatgtttac   6667               STE   2   (5′flanking region −536)   taaaattttcaggtctgctt A/G agagttaaaggcaaagagtt   6668               STE   3   (5′flanking region −231)   ccttcttccccaacccctga C/T ggcagacttgggaatttgaa   6669               STE   4   (5′untranslated region −64)   tgcagcttaagatctgcctt G/A gtatttgaagagatataaac   6670               STE   5   (intron 1 69)   aaatatagaatgaaaattat G/A tattacaaagctcttaaaaa   6671               STE   6   (intron 1 311)   caatgagaaaataaagcaag C/G agggtagaaggaggtagaat   6672               STE   7   (intron 1 655)   tctaagaaagtagggactat G/A agaacccctatgtatctata   6673               STE   8   (intron 1 671)   ctatgagaacccctatgtat C/T tatatccaccatagtattct   6674               STE   9   (intron 1 772)   aaaaggcaggttggaagatg C/A aggaggggagtatgcagaaa   6675               STE   10   (intron 1 1715)   taaccatcttgcttaacctt A/G tcatttttagccaagtcatt   6676               STE   11   (intron 1 1928)   aaatgatacatattcaggaa A/G tcaaaaatctctgacttaga   6677               STE   12   (intron 1 1953)   aaatctctgacttagatacc C/T ggcaataataatcaaatgta   6678               STE   13   (intron 1 2087)   aattttgaaagaaattgaag T/G tctgtggtttttatttatca   6679               STE   14   (intron 1 2323)   taggtatgtaggagggtccc G/C ttatatacatagttgttaat   6680               STE   15   (intron 2 165)   tctattccatgaccacaatt T/G ttacctgtaacttgaatagt   6681               STE   16   (intron 2 1707)   cctaggacccaacaigagac A/G taatataccatcagtaaaat   6682               STE   17   (intron 3 850)   ggtgtccattccctcaagaa T/G ttatactttgtgttacacac   6683               STE   18   (intron 4 1653)   agtaacaggctagtagataa T/C ataaataactgaggccaacg   6684               STE   19   (intron 4 1899)   tacatgaacttagagaatca A/G gtagatcacacacaccaaca   6685               STE   20   (incron 4 1930)   cacaccaacaataaaattac A/G cagaatgataaaagaatttg   6686               STE   21   (intron 5 666)   ttctgatcatgtagtaacaa T/C tataaagaaaataataatgt   6687               STE   22   (intron 5 982)   aggcaaagcagaaccttttg A/C ctcacacaacattatattat   6688               STE   23   (intron 7 369)   agattttattcctctctctt T/C ttgagttgaagaaataagtt   6689               STE   24   (intrOn 7 447)   cacctttcaagggtaagtgg C/A aaaaaatagaaattcaaata   6690               STE   25   (intron 7 672)   aatcttgctctttgaaccat A/T ctgtcagtgagagtcaggga   6691               STE   26   (intron 7 856)   tgttacagaggacttaaaac A/G gttgtcttgcttgcaaacgg   6692               STE   27   (3′flanking region 218)   cagcctcccaagtagctagg A/G ctacagacatgtgcaaccat   6693               NQO1   1   (intron 1 80)   aggaggttgtaggggcttgg C/A ctgaattttgttccttgact   6694               NQO2   1   (5′flanking region −434)   tttctgttgcaccacggacc C/G tcattctgtaaccgggatac   6695               NQO2   2   (5′flanking region −406)   gtaaccgggataccagccag A/G gatggggagcgggaggcgca   6696               NQO2   3   (5′untranslated region −102)   tcctgcggctcctactgggg A/C gtgcgctggccggaaggtga   6697               NQO2   4   (intron 1 1919)   tcactcaaatagagctgagt T/C agtcactcagctcttggacc   6698               NQO2   5   (intron 1 2004)   acaaactcacatgccaccag C/G catatgatgtaaacatgtaa   6699               NQO2   6   (intron 1 3391)   aaagcagagggctgtgcagg C/T gcccctgcccctaggctagg   6700               NQO2   7   (intron 1 3456)   caaaggcctcatcctcaggg C/A ggccaactcttctgttttag   6701               NQO2   8   (intron 1 3595)   actgcccagctttaggttca T/C tcttgtaagtgttgctggtg   6702               NQO2   9   (intron 1 3596)   ctgcccagctttaggttcat T/C cttgtaagtgttgctggtgt   6703               NQO2   10   (intron 1 3598)   gcccagctttaggttcattc T/C tgtaagtgttgctggtgtca   6704               NQO2   11   (intron 1 3651)   ccctgcgctttgaagggatg A/G atgtgacctctcccacattc   6705               NQO2   12   (intron 1 6036)   tggtgtggcggttcactgat C/T ccccagccttctgctcgatc   6706               NQO2   13   (intron 2 14)   atggcaggtaatgattcact A/G ttgtggagtaagactttttt   6707               NQO2   14   (intron 2 192)   gccacgtggaagtgtataaa C/T tatctggaattatcttgttt   6708               NQO2   15   (intron 2 635)   caccctgtttagcacctagc A/C ccatccctggcctctgccca   6709               NQO2   16   (intron 2 685)   agtagcacccctcccccacc G/A gctgtgacaaaccaaaatgt   6710               NQO2   17   (coding region 139   ctgatttgtatgccatgaac T/C ttgagccgagggccacagac   6711               (Phe 47 Leu))               NQO2   18   (intron 3 36)   aatgctctatttataaaaac T/C atctttatgttttttacttt   6712               NQO2   19   (intron 3 728)   aacgtgggcataaaccacca T/C ctagtgccaaaaagcaggtg   6713               NQO2   20   (intron 4 1577)   tgcctctgcacaccccttcc C/T gacaccagccctttctttac   6714               NQO2   21   (intron 4 1832)   tcggccggccacgtggagcc C/T gctttcctcctcgcacccac   6715               NQO2   22   (intron 4 2583)   tggtgttacgcacagctcct C/T gtcccctccctgcctgccca   6716               NQO2   23   (coding region 330   ctgtactggttcagcgtgcc A/G gccatcctgaagggctggat   6717               (Pro 110 Pro))               NQO2   24   (coding region 405   atcccaggattctacgattc C/T ggtttgctccaggtatgtgc   6718               (Ser 135 Ser))               NQO2   25   (intron 5 21)   gtatgtgctcttggataagg A/T tcactatggatagttggagg   6719               NQO2   26   (intron 5 253)   atggcaaacaagggagtggg T/C caggtgtcaggtgacggggg   6720               NQO2   27   (intron 6 2435)   ccccccttaaatcatttaac T/C gaatggtatgtaacaggtgt   6721               PIG3   1   (5′flanking region −47)   gggaaggaggaaaggaaaga G/A ggggagggtggttctgctta   6722               PIG3   2   (intron 2 243)   taacaccggacgcccagcag A/C agtcccagcttcttagaatc   6723               PIG3   3   (3′flanking region 282)   agcaggccccagccctgccc G/A ctactcacctgggccccacc   6724               PIG3   4   (5′untranslated region −93)   tccgcgaggatacagcggcc (CCTGY) 16   6725                   cagacaatatgttagccgtg               PIG3   5   (3′flanking region 625-626)   ctcctcaggccccgcccctt (T) ccattactcacttgggtccc   6726               PIG3   5   (3′flanking region 625-626)   ctcctcaggccccgcccctt     ccattactcacttgggtccc   6727               PIG3   6   (3′flanking region 770)   tcacctgggtcccgccctac C/Δ tgtcataaccctgctcaagc   6728               NDUFA1   1   (5′flanking region −1437)   agggctaaaaatcctgatta T/A acctaccttgaagcttttaa   6729               NDUFA1   2   (intron 2 3071)   aataaaagtacatggcatat C/A tttgatgggaacagacttgt   6730               NDUFA1   3   (3′flanking region 1218)   aactccatgtgtataaagca A/G caccacagatgacacttcca   6731               NDUFA1   4   (3′flanking region 1411)   ggattgtgccatcccttgat C/T ggcaatgaccttttactttt   6732               NDUFA1   5   (3′flanking region 1411)   ggattgtgccatcccttgat C/G ggcaatgaccttttactttt   6733               NDUFA2   1   (intron 2 1087)   aacatacaaaaattagccgg A/G t a/g tggtggcgggcacctgta   6734               NDUFA2   2   (intron 2 1089)   cacacaaaaattagccgg a/g t A/G tggtggcgggcacctgtaat   6735               NDUFA2   3   (intron 2 1356)   ttccctgaaacaacccattg T/C ggccatccagaatcagccaa   6736               NDUFA2   4   (3′flanking region 467)   cacagcctcatgggtcagcc C/T actccagagggtgcattccc   6737               NDUFA2   5   (3′flanking region 744)   ggaagcaggggccctggcca C/T agccgctggcagtaagcagg   6738               NDUFA2   6   (3′flanking region 838-839)   tatagtctacaaagaatgaa (ACAC) aaagatcataacaatagcta   6739               NDUFA2   6   (3′flanking region 838-839)   tatagtctacaaagaatgaa   6740                   aaagatcataacaatagcta               NDUFA3   1   (intron 2 2656)   tccctgctgccctcccctgc G/A cactttatcttccctttgcc   6741               NDUFA3   2   (coding region 241(Leu 81 Val))   tgggccccagcctggagtgg C/G tgaagaaactgtgagcacct   6742               NDUFA3   3   (3′flanking region 1019)   tccttacctgcactggcacc A/G gctctggagccccagtccct   6743               NDUFA5   1   (intron 3 2155)   agactctagcatggtacctg G/C aacataaggttccttagaaa   6744               NDUFA5   2   (intron 3 2493)   ggcatattgctagttttctc G/T gtctcaatttcatcatctat   6745               NDUFA5   3   (intron 3 2712)   acaaattttgaactgttcac C/T taacacaggctttttctgaa   6746               NDUFA5   4   (3′flanking region 1296)   aggtatctaaaaggtattgc A/C atttggtcattggttctttc   6747               NDUFA5   5   (intron 3 30-31)   aagtcagttttgttgtcttg (GATTTGTGGTATCCAG)   6748                   tgtaacatttaaccaaaaaa               NDUFA5   5   (intron 3 30-31)   aagtcagttttgttgtcttg   6749                   tgtaacatttaaccaaaaaa               NDUFA5   6   (intron 3 427-428)   attaagtagcagttaataaa AG/Δ tctagactgctgattcatac   6750               NDUFA5   7   (intron 3 4733-4734)   tataggaattttaaaatata TA/Δ ggatattgaaacattcagtt   6751               NDUFA6   1   (5′flanking region −1148)   tttataatttatatatgtta C/T gtgctttcttttgtatagct   6752               NDUFA6   2   (5′flanking region −363)   actaccaaggagcgcggcgg G/A cagccggatagcaggacgct   6753               NDUFA6   3   (coding region 26 (Ala 9 Val))   ggggagcggcgtccgccaag C/T tacttctaccgccagcacct   6754               NDUFA6   4   (intron 1 1318)   attcagcagtttgaaaacat A/G atgtttgcctggcagaatac   6755               NDUFA6   5   (intron 2 562)   agttaaagaatctgaaaagt G/C tcagaaatgatttaccctga   6756               NDUFA6   6   (5′flanking region −861)   ctgtaaaatggggatgctga (T) ggtacctacctgacctatga   6757               NDUFA6   6   (5′flanking region −861)   ctgtaaaatggggatgctga     ggtacctacctgacctatga   6758               NDUFA6   7   (intron 1 1251-1278)   tgtggggagtgactgtagca (GT) 12-14   6759                   ttcggggtggtgcattcaaa               NDUFA7   1   (5′flanking region −731)   accaaccaaaggtctatcaa A/G ggggtgtcctctttgcaccc   6760               NDUFA7   2   (5′flanking region −434)   aaagggaaccatcagaaccc C/T gtgatgaaatgagaatcggc   6761               NDUFA7   3   (5′flanking region −395)   gctcccggattccggctggc A/G ggggttagggcagggtagag   6762               NDUFA7   4   (5′flanking region −100)   agaggagtcacgtgcttcgg G/A gagagcctttataggacgtt   6763               NDUFA7   5   (intron 1 92)   tcacctccctcctaagccgg G/A acccttcgctctccccgaat   6764               NDUFA7   6   (intron 1 133)   ctccctgggaacccccagct A/C gt c/g accccttcagcccggga   6765               NDUFA7   7   (intron 1 136)   cctgggaacccccagct a/c gt C/G accccttcagcccgggaccc   6766               NDUFA7   8   (intron 2 89)   tcctttagacccctgaaacg G/C agggctgacatcctgccac   6767               NDUFA7   9   (coding region 196   gccgccgggaatctgtgccc C/G cttccatcatcatgtcgtcg   6768               (Pro 66 Ala))               NDUFA7   10   (intron 3 4203)   gcctccacccctggggcgcc T/G cctccatcaccccaccctcc   6769               NDUFA7   11   (intron 3 4604)   gggccttgtgtacgctggag A/G ccaaaagtgggaagggagga   6770               NDUFA7   12   (5′flanking region   agggtccagggtcccctgct CAGAGGCT/Δ    6771               (−1353) − (−1360))   aacactggccgaagagaag               NDUFA7   13   (5′flanking region   agccctgatccacccactct CT/Δ gaaacttctttgctaataaa   6772               (−1233) − (−1234))               NDUFA7   14   (intron 2 4142-4143)   cattttgtgactgaggtgac AG/Δ gggcccacagcggggccatg   6773               NDUFA8   1   (intron 1 −75)   tttgtgttctctattctgac C/T cgcatgaggtaaagctgaga   6774               NDUFA8   2   (intron 2 790)   caaacctagacaaagtgtgc c/T ctttatccagaagtgagcag   6775               NDUFA8   3   (intron 2 900)   ttcaggagataaaaagctct G/A attgctcaggcctgagatgg   6776               NDUFA8   4   (intron 2 3837)   gaagttgtcttgtaagtgag A/G taagaatatgtactcacata   6777               NDUFA8   5   (intron 2 3942)   tcattgttttgcaaagagat G/T cccctaacccagctttcttt   6778               NDUFA8   6   (intron 3 −66)   gaggagacaccaggaggcgc A/G ttgatggttacagattcctc   6779               NDUFA8   7   (3′untranslated region 520)   tttatttctggaccaagtaa A/G gatgggtccgtggcccacac   6780               NDUFA8   8   (3′flanking region 367)   gtcatacaaggggagcctcc A/G ggatagaagtgcagaaactt   6781               NDUFA8   9   (3′flanking region 777)   attcttttttcactactagg C/T tgtttcctccacatctgact   6782               NDUFA8   10   (3′flanking region 1053)   aaagaaaaagcactgtgtga T/A ctgccatggccgcttctgca   6783               NDUFA8   11   (3′flanking region 1190)   gattctctaatgaaaaataa G/T acttttttttgcattttttt   6784               NDUFA8   12   (intron 2 449-453)   tcattgtgcatgatacttaa GTAAA/Δ aaaaaactaagctgtgtaat   6785               NUUFA8   13   (intron 2 455-459)   tgcatgatacttaagtaaaa AAAAA/Δ ctaagctgtgtaattgtagg   6786               NDUFA8   14   (intron 2 707-708)   tcattttggaaagactctca (A) ccttgctgtaccaaaaatgg   6787               NDUFAB   14   (intron 2 707-708)   tcattttggaaagactctca     ccttgctgtaccaaaaatgg   6788               NDUFA9   1   (5 flanking region −807)   gatggctctttgtagaacaa T/G gcagattctcaaaggtgacc   6789               NDUFA9   2   (5 flanking region −769)   accacagttaaagaaaaaat T/C acaagccattgcgctagaga   6790               NDUFA9   3   (5′flanking region −353)   cacaccctattttggtttct C/G ttctccacttttcccctcgt   6791               NDUFA9   4   (5′flanking region −322)   ttcccctcgttcttgtcccc C/T cttttctctctcctgggccc   6792               NDUFA9   5   (intron 1 447)   attcatatgagcacaatgga A/G atgataatattacaatacca   6793               NDUFA9   6   (intron 1 1039)   ggcttgatgttcagcctgag G/A caagaattaggagtgtttag   6794               NDUFA9   7   (intron 1 4010)   aatgtatccaaaagagattc T/G cattcctgccatatgaagaa   6795               NDUFA9   8   (intron 3 49)   gacaaatataaattactaag G/A tcatttttaggagtgatagg   6796               NDUFA9   9   (intron 3 107)   aatttcttcccagaatggac C/T aaaggcatcctctgttccca   6797               NDUFA9   10   (intron 3 1183)   atctctggtaatattcatac A/G gattatttgtaatcccttta   6798               NDUFA9   11   (intron 3 1395)   attcctagttctttgtccct C/T aagtttgttggtcaccttgt   6799               NDUFA9   12   (intron 3 2363)   agaaaatagtcatgaatggc C/T ccaactaacactagtcttta   6800               NDUFA9   13   (intron 3 2608)   gtcatttgattacctgagta A/C agtgtactgttacctgtttg   6801               NDUFA9   14   (intron 4 561)   attttataaattctttgatg A/C cttgggggtcttattcaact   6802               NDUFA9   15   (intron 4 860)   attgtgtagagtaatgacag C/T agagctgtcaacttttttaa   6803               NDUFA9   16   (intron 4 879)   gcagagctgtcaactttttt A/T aaaaaataattttagcttaa   6804               NDUFA9   17   (intron 4 893)   ttttttaaaaaaataatttt A/G gcttaaaaaaattaaaaatt   6805               NDUFA9   18   (intron 4 1090)   atcattgctgtttaaaagtt T/C aagtagtgtgaatttcagta   6806               NDUFA9   19   (intron 4 1188)   aaccaatccttttatttttt A/T tcttccagaaactttgattt   6807               NDUFA9   20   (intron 5 161)   gggtgtgtgtgatgttttga C/T gttttgattgattgccttct   6808               NDUFA9   21   (intron 5 373)   ctttctcaccccttgcactg C/T agtggttttgtgccactctt   6809               NDUFA9   22   (intron 5 457)   gccagggaagatgcctattc A/C cacagtgcttatgctccttt   6810               NDUFA9   23   (intron 5 3113)   gatttttctccttcttcaat G/A taagcttcccttaaaataaa   6811               NDUFA9   24   (intron 5 3339)   tctaaactcaaaacaggttt G/A tttggttattgtttaggctg   6812               NDUFA9   25   (intron 6 414)   tatagttttgccttttccag G/C atattacatatatggttaga   6813               NDUFA9   26   (intron 6 518)   ctttcatttcttttcatagc T/C tgatagctcatttctttata   6814               NDUFA9   27   (intron 7 974)   ggattatgcgtacttggaaa A/G tacttggatagcggtgatta   6815               NDUFA9   28   (intron 8 368)   acattaattttgatggagta T/G cacaatgcctccagaggctg   6816               NDUFA9   29   (intron 8 954)   gcatgcaatcagttatatag T/C ctagataagaattacaattc   6817               NDUFA9   30   (intron 8 1253)   tcctcttgaaattgtagata G/T gtatctacacatttctcatc   6818               NDUFA9   31   (intron 8 11608)   gaaaagatagatgtataaat G/A accaaaaattcgtgaagaaa   6819               NDUFA9   32   (intron 8 11930)   ctacaaatatattctaaatg C/T gtaatcatggataagtacaa   6820               NDUFA9   33   (intron 9 1998)   tgtttttcaagcctttaaac G/A gctgtggaaccctgtgctca   6821               NDUFA9   34   (intron 9 2238)   ccagctacttgggaggctga A/G gtgggaggatcacttgagcc   6822               NDUFA9   35   (intron 9 2885)   acagcggtctgtcttcctgc A/G gttctcataggctagcttac   6823               NDUFA9   36   (intron 10 801)   tacactaaagtgtctcttac G/A tttatacttgagaaagtgtt   6824               NDUFA9   37   (intron 10 910)   tgcagactttcaggtgggta G/C gatgagggattgctgctgct   6825               NDUFA9   38   (intron 10 1180)   aaaactgagtcagaacgccc G/A tgctcagaaaacaggggcgt   6826               NDUFA9   39   (3 flanking region 554)   gtgccagcacttaggaatta T/G gaccttctaatgaagttctt               NDUFA9   40   (5′flanking region   taaacagtaggggcaagata (TC) gagtggaaacagccaagatt   6828               (−1129) − (−1128))               NDUFA9   40   (5′flanking region   taaacagtaggggcaagata   6829               (−1129) − (−1128))   gagtggaaacagccaagatt               NDUFA9   41   (5′flanking region −341)   tggtttct c/g ttctccacttt T/Δ cccctcgttcttgtcccc   6830                   c/t c               NDUFA9   42   (intron 4 594)   attcaactttttatcccccc T/Δ aatgattaacatagtgtatt   6831               NDUFA9   43   (intron 10 356-375)   taacttcctcctaacgtcct GAAGAAACTGTTGACAGTTT/Δ   6832                   cttccttctttctttaacct               NDUFA9   44   (intron 10 379-381)   gaaactgttgacagtttctt CCT/Δ tctttctttaacctactcca   6833               NDUFA9   45   (intron 10 384-387)   tgttgacagtttcttccttc TTTC/Δ tttaacctactccagtcagg   6834                   ccatttctcccctaaaattg (TTCTTTTAAAATTG)   6835               NDUFA9   46   (intron 10 436-437)   ctcttttcaaggttatccac               NDUFA9   46   (intron 10 436-437)   ccatttctcccctaaaattg    +01 ctcttttcaaggttatccac   6836               NDUFA9   47   (intron 10 495-496)   gccacatccaatggtcagtt (TTCAGGCCTTT)   6837                   ctcagacctcatgtcatgtg               NDUFA9   47   (intron 10 495-496)   gccacatccaatggtcagtt    +01 ctcagacctcatgtcatgtg   6838               NDUFA9   48   (intron 10 519-520)   tgcatttgcttctagggagg   6839               NDUFA9   48   (intron 10 519-520)   tgcatttgcttctagggagg   6840               NDUFA9   49   (intron 10 558-559)   gatgcaaaataaaataaaaa (A) tactataccaataccacatc 6841               NDUFA9   49   (intron 10 558-559)   gatgcaaaataaaataaaaa     tactataccaataccacatc   6842               NDUFA10   1   (5′flanking region −1734)   tgcaccttgaactgtttact T/C tcctgtaaccatttaccctt               NDUFA10   2   (5′flanking region −1492)   aaaacatccacgcaaacagg T/C tgtgagaagttacgtctgcg               NDUFA10   3   (intron 3 370)   aagactgtgcatgtgccatg C/A agacagagatgtggatgcca   6845               NDUFA10   4   (intron 3 2485)   ttgttattttcttttctctg G/A aatgcagtgatcagttgaca   6846               NDUFA10   5   (intron 4 236)   ctgtgaaagcagattggagc C/T ctggacctcaaacacacgca   6847               NDUFA10   6   (intron 4 1742)   tgtcggcatctgctgagtgt C/T tgctgaagtctgaggactgg   6848               NDUFA10   7   (intron 4 2090)   ggctgggggaaagcagatca T/C gttggctaaaggacaggtgg   6849               NDUFA10   8   (intron 4 3054)   cagctgattatactactgaa A/C cgggataaatg c/t agcttgat   6850               NDUFA10   9   (intron 4 3066)   ctactgaa a/c cgggataaatg C/T agcttgatgattttcagctg   6851               NDUFA10   10   (intron 4 3377)   gtcacagtttaaatgctgct G/A ttttactctgtgtaagtagc   6852               NDUFA10   11   (intron 5 46)   aagcatctctattttgaatg T/C agatcagcactaaaagccct   6853               NDUFA10   12   (intron 8 1465)   gcaacgcccagttcctggta C/T aggcctcatatccagcgtgc   6854               NDUFA10   13   (intron 8 1809)   cctggaggcacaaggatggc C/A ggggcactcaacttccctct   6855               NDUFA10   14   (intron 8 11226)   gttgtgtgactgtgtggggc A/G tctcacctctcgggctgcag   6856               NDUFA10   15   (intron 8 11319)   atcttgccttccctcctgcc G/A tctgttcaggcttgaatcct   6857               NDUFA10   16   (intron 8 11386)   ccataatcctagcttgaacc C/T tcctttttccctgctgaccc   6858               NDUFA10   17   (intron 8 13361)   ccaggccactgattgctttc G/A cattttctagcattttctta   6859               NDUFA10   18   (intron 9 183)   tttctgtgtggaaagctgat G/A aagtcctcagatgacagccc   6860               NDUFA10   19   (intron 9 8028)   gaggacattccacagaacgt G/A tgactattagagcagaaggt   6861               NDUFA10   20   (intron 9 10742)   ctggaggagaggggtggagc C/G agttcagccagcactggggt   6862               NDUFA10   21   (intron 9 13908)   cacattgttatgtaaccaag C/T CT g/t gaattgcagtgtgaaga   6863               NDUFA10   22   (intron 9 13911)   attgttatgtaaccaag c/t CT G/T gaattgcagtgtgaagaact   6864               NDUFA10   23   (intron 9 14064)   tcttgactattagaaaccct A/G tcagataaattttaaaacag   6865               NDUFA10   24   (intron 9 14184)   tggctttggttgggaacagc G/A agagatacagaaccgacggt   6866               NDUFA10   25   (intron 9 16487)   cttgaagctgatcgttccct C/A cttgaagctgatcgttccct   6867               NDUFA10   26   (intron 9 16779)   gccagacgtgactgctttag G/A ttcctcatgacattcagacc   6868               NDUFA10   27   (intron 9 17663)   ttccaaatcaccccagaact T/G tgcagtattttgaagctcct   6869               NDUFA10   28   (5′flanking region   gtaaaattgttttaactaga (C) 9-11 ttcctaaaccaaggtataaa   6870               (−1668) − (−1659)               NDUFA10   29   (5′flanking region   ctgtatccattggaaggcac (A) 15-21   6871               (−1355) − (−1334)   tgcaaaggaaacaaggcaaa               NDUFA10   30   (intron 1 46-61)   tggcggggtggcagggtggc GGGGTGGCGGGGTGGG/Δ   6872                   gagcagttccacatctcccc               NDUFA10   31   (intron 4 2486)   ctcactggaacttttttttt T/Δ aatttaatttttaaaatttt   6873               NDUFA10   32   (intron 7 1600-1601)   cacttccattctgactgtta (A) cggtgtgattcttcctgcca   6874               NDUFA10   32   (intron 7 1600-1601)   cacttccattctgactgtta     cggtgtgattcttcctgcca 6875               NDUFA10   33   (intron 8 1054)   gcgcgtgctgtttctccctt A/Δ tctgtccttgtacacgtgtg   6876               NDUFA10   34   (intron 9 8161-8172)   aatgttgaaaatatgtgttt   6877               NDUFA10   35   (intron 9 8646-8647)   aattcccccattgcttctct (TT) ctgtagacattttaaaccta   6878               NDUFA10   35   (intron 9 8646-8647)   aattcccccattgcttctct ctgtagacattttaaaccta   6879               NDUFA10   36   (intron 9 16503-16523)   ccct c/a cttgaagctgatcgt TCCCTCCTTGAAGCTGATCGT/Δ   6880                   gtccaagatagttgctagga               NDUFA10   37   (intron 9 17905-17936)   caaatatatgtatacatgta (CA) 12-18   6881                   tccttcatgaaaactctttc               NDUFAB1   1   (intron 1 8451)   cagcaccctgtagaggcctc G/A ggatgctgaagatgccatga   6882               NDUFAB1   2   (intron 1 8495)   gacacaggcattctgcagac G/A ctagacaattttagtggcag   6883               NDUFB3   1   (5′flanking region −1439)   ttaaaagttgacttttttct G/A cc g/a ggcacggtggctcacgc   6884               NDUFB3   2   (5′flanking region −1436)   aaagttgacttttttct g/a cc G/A ggcacggtggctcacgcctg   6885               NDUFB5   1   (5′flanking region −213)   ggcggatgaaactctcctac A/C aagaagggccaaaccggccg   6886               NDUFB5   2   (intron 1 6288)   ggggatgttgattacctagg T/C cagtaaagtaaagaaggcat   6887               NDUFB5   3   (intron 1 −1581)   cttctgggccactgtatcct A/G tttctttcccttgttaccct   6888               NDUFB5   4   (intron 1 −1487)   ccctcttagaccgtatatag T/G tctagcataggatctgcaca   6889               NDUFB5   5   (intron 2 556)   ttgtctggaccatctgccac G/A gtagataaagctctgaatca   6890               NDUFB5   6   (intron 3 467)   ggcgccatcgcactccagcc C/T gggcaacagagtgagactct   6891               NDUFB5   7   (intron 3 497)   agtgagactctgtccccccc C/G caaaaaaaaactataatcct   6892               NDUFB5   8   (coding region 397   atgatagtcctgaaaagata T/C atgaaagaacaatggccgtc   6893               (Tyr 133 His))               NDUFB5   9   (intron 1 213-215)   attagcatttctaaaacgtt GTT/Δ attcaccatcccaattaatg   6894               NDUFB7   1   (intron 1 68)   cctgaacacctggcacccca G/A ggctggcaccccagggctgg   6895               NDUFB7   2   (intron 2 266)   gggctctctaggggcctgtt T/C gatggggacagggcaggtgg   6896               NDUFH7   3   (intron 1 4480-4481)   agttctgaggctgagagaga (GA) ggccacgccgccggccagtg   6897               NDUFB7   3   (intron 1 4480-4481)   ggccacgccgccggccagtg   6898               NDUFS1   1   (5′flanking region −3)   tcctagggggtcgtcgtggt C/G cagacagtttagcagaacag   6899               NDUFS1   2   (intron 1 445)   gtgttagcaatggctcacgc T/C tctgtttgttgtccttgttt   6900               NDUFS1   3   (intron 1 470)   tttgttgtccttgtttgttt G/T gtccattgaccacgttggac   6901               NDUFS1   4   (intron 1 502)   acgttggacagcattttttt A/G ttcctttaactaacgggaaa   6902               NDUFS1   5   (intron 1 557)   ttttgaaaagttagcccagg A/G ttgcattgcaaataacaaaa   6903               NDUFS1   6   (intron 1 5218)   tatctcagaatatctcagga A/G catttagtagacagctatgc   6904               NDUFS1   7   (intron 3 1371)   aagccctaaaatagatagtg T/G caatgggaatgaaaacaaga   6905               NDUFS1   8   (intron 5 414)   ttttgaaacgaggtctcact A/G tgttgtccaggctgggcttg   6906               NDUFS1   9   (intron 10 812)   gagtgcggtggcgcgatctc G/A atctcgggtcactgcagcct   6907               NDUFS1   10   (intron 11 233)   ggaggccaaggcaggcagat C/T gcctaagtgcaggagtttga   6908               NDUFS1   11   (intron 11 283)   ggccaacatggcgaaacccc G/A tctctactaaaaatacaaaa   8909               NDUFS1   12   (intron 11 585)   ctgtatgtcttaattttaaa G/T taaatttgcattttatatat   6910               NDUFS1   13   (coding region 1251   gcaccactgtttaatgctag A/G attcgaaagaggttggtaat   6911               (Arg 417 Arg))               NDUFS1   14   (intron 13 5159)   attacttttagaaaacgtgt T/C ttagctgatactcaggcata   6912               NDUFS1   15   (intron 14 250)   aaaaattgttatattagtta C/T accttggttcaaaaattgca   6913               NDUFS1   16   (intron 14 550)   gataaagtctcactatgttg C/T ccaggttgatctcaaactcc   6914               NUUFS1   17   (intron 14 2429)   ctgaaaatacaaaaattagc C/T gggtgtggtggcatgtgcct   6915               NDUFS1   18   (intron 14 2530)   ttacagtgagccgagatcac G/T ccactgcgctccagcctggg   6916               NDUFS1   19   (intron 14 2659)   acacatttaattttttacat T/C gaaaatactgcagttatggt   6917               NDUFS1   20   (intron 16 150)   agaaaacatgtattcagaaa C/T aggaattcaaggttacagtg   6918               NDUFS1   21   (intron 18 279)   cactgtgtagcaatttatgg T/C gaattttccaaagtggcaaa   6919               NDUFS1   22   (3′flanking region 182)   tctaggataattataattaa T/A aataatcatagtaacaatgg   6920               NDUFS1   23   (intron 12 3226)   aaatgtattgtctgtgcttt T/Δ aacattttgtaatagtaaat   6921               NDUFS3   1   (5 flanking region −194)   tctgccacaaggagctagga C/T cacgctcacctcacgatttc   6922               NDUFS3   2   (intron 1 46)   cggggtcaggcgcagcggcg T/C gcccagtgcagagagctcct   6923               NDUFS3   3   (intron 6 −439)   aaagctgtgtcaaatgtact G/A ctttagatctggactgtgaa   6924               NDUFS3   4   (intron 6 −280)   ggtgggtgagcagtcagttc G/A gagctcctgatgtgggagtg   6925               NDUFS4       (5′flanking region −439)   aactgaatacagccctgtcc T/A gagggcttgcaaagtgaatc   6926               NDUFS4   2   (intron 1 1829)   gaaaaaaaatcttaatgcca G/T ggaagacgttttttaaatac   6927               NDUFS4   3   (intron 1 2057)   attaatgggaaaatctacat C/G taaaattcattttattgtaa   6928               NDUFS4   4   (intron 1 −521)   ttcattttaactaattttat T/G tctcccattttgtgaatggg   6929               NDUFS4   5   (intron 3 −1259)   ataaaattatgatattatta G/A tactaatatagccagccata   6930               NDUFS4   6   (intron 3 −1174)   aatatatataattataggaa T/C ctcagagtagcaaccatggt   6931               NDUFS4   7   (intron 4 10682)   cacaatataggcacaaactt A/C ctaccaaagcactaacaagt   6932               NDUFS4   8   (intron 4 12299)   tttactatatagatatatgg A/T atagactatagagtatctct   6933               NDUFS4   9   (intron 4 12s60)   accaaataaggtattatgca G/A gctcatctttttatataaga   6934               NDUFS4   10   (intron 4 18801)   ggaaagacttgctttgccag T/C gtatccgaaacctctgttat   6935               NDUFS4   11   (intron 4 19888)   tcgcacagctgagaagagca A/G ggggctggttttcagtaccc   6936               NDUFS4   12   (intron 4 20178)   agaaaagatgagtataattc G/A tctaacttacccattcttaa   6937               NDUFS4   13   (intron 4 23016)   ctactctgtgaaagtaaggt T/A atgttgaacaagtaaattaa   6938               NDUFS4   14   (intron 4 23124)   actttctttggagatggagt T/A ccagcagttgggaatgtaat   6939               NDUFS4   15   (intron 1 766)   tgtgatgatttttttttttt T/Δ ggctgtattaaccttccatt   6940               NDUFS4   16   (intron 1 1261)   tttctttctctttttttttt T/Δ gagatacattctcactctga   6941               NDUFS4   17   (intron 4 19744-19745)   ctcatcatttaggtgctggt (T) agttgggtttgtggcaaatc   6942               NDUFS4   17   (intron 4 19744-19745)   ctcatcatttaggtgctggt     agttgggtttgtggcaaatc   6943               NDUFS5   1   (intron 1 388)   ccaaacatagccagcacttc C/T ggctgtaactccgggctgtt   6944               NDUFS5   2   (intron 1 −13082)   agtgagccgagattgcacca G/A tgcattccagcctgggcaac   6945               NDUFS5   3   (intron 1 −12905)   gttttcaacaaaggactcca G/T agtagtagagaagtttctgt   6946               NDUFS5   4   (intron 1 −12564)   attttcatcacacctcaact T/G aaggtataacagccttaaga   6947               NDUFS5   5   (intron 1 −12561)   ttcatcacacctcaacttaa G/A gtataacagccttaagaatg   6948               NDUFS5   6   (intron 1 −10561)   aacaatgtggtatagtgggg C/G gggtggtgagcaggtgtcat   6949               NDUFS5   7   (intron 1 −9065)   cctgatgctcctggctccag G/A gtagaccttttccctttaga   6950               NDUFS5   8   (intron 1 −8871)   tcaccacgtgtctgtagata T/C aggaccgcagaccttcgctt   6951               NDUFS5   9   (intron 1 −7312)   aaatccttggcttctagaat G/T ggtcactgatggtatataat   6952               NDUFS5   10   (intron 1 −6827)   aacctctgcctccccgattc A/G cgccattctcctgcctcagc   6953               NDUFS5   11   (intron 1 −6725)   agtagagacggggtttcacc G/A tgttagccagcatggtctcg   6954               NDUFS5   12   (intron 1 −6631)   aggcgtgagccactgcgccc G/A gcctagaccttcttcttata   6955               NDUFS5   13   (intron 1 −6531)   cccaacagctcccaatgtaa A/G acagatctattaatattctg   6956               NDUFS5   14   (intron 1 −6348)   gcaacagatcttgacctata T/C cccatagggtacagctgagg   6957               NDUFS5   15   (intron 1 −6327)   atcccatagggtacagctga G/C gactttaatcagaaaaggag   6958               NDUFS5   16   (intron 1 −6122)   tagccttgcttttactctac T/C gttcctcccaaatcacaccc   6959               NDUFS5   17   (intron 1 −2512)   acaaactcttaatgcgaatt T/C tgcagatcaaagtgggctta   6960               NDUFS5   18   (intron 1 −1945)   tttaatctcctttaaatttc G/A caatttcacaacctagggta   6961               NDUFS5   19   (intron 2 75)   tttttttttttttttgagac G/A aagtctcactcttgtcccct   6962               NDUFS5   20   (intron 2 148)   ctgtagcctctgcctcccag G/A ttcaggcgattcgcgtacct   6963               NDUFS5   21   (3 flanking region 150)   cagattcaagtggttctcct G/C cctcagcctcccaagtagct   6964               NDUFS5   22   (intron 1 (−10682) − (−10681))   attataaacactaaacaaac AT/Δ gtgtggtctctttagagggg   6965               NDUFS5   23   (intron 1 −10267)   caagtgactaccctgaaaaa A/Δ gaagagatgaaacaaatcac   6966               NDUFS5   24   (intron 1 −2069)   accagacagagttcccttta C/Δ ttgttttcctgtggcaaaga   6967               NDUFS6   1   (intron 1 26)   ggccgctgggtacaggatgc A/C ccttcctccagccgcacctc   6968               NDUFS6   2   (intron 2 1076)   ggatcatggtggtggagagg G/A gcttgtgtctggtgggtttg   6969               NDUFS6   3   (intron 2 1260)   cagttgtcgagtaagtggtg T/C atagggtaagtgctctttct   6970               NDUFS6   4   (intron 2 1413)   caaaggagctcatggcattg C/T gaatgggacatttcttccgt   6971               NDUFS6   5   (intron 2 1568)   tggagaaggggaggtttctc T/C tagtgtggatgcggtatggt   6972               NDUFS6   6   (intron 2 1692)   gaccgtggtgacggaggttt C/T ctgggcatcgatgggtggtt   6973               NDUFS6   7   (intron 2 6488)   tagcttaaataattattggc A/G ttcatgttcagaatgcctga   6974               NDUFS6   8   (intron 2 6563)   tttaaacttttattttaaat G/A tccatgaatggggtcggtat   6975               NDUFS6   9   (intron 2 6740)   aaagatttaaacctacatat C/T tttatgcccaatcatttgat   6976               NDUFS6   10   (intron 2 6832)   gcgagggactcattttacag A/T ggttggacacttcactgtgt   6977               NDUFS6   11   (intron 2 7054)   ttcactgccggagcttggcc G/A tgtgaacccggagccgggct   6978               NDUFS6   12   (intron 2 7186)   ggtcagggtcacccttgagc T/C gcgcacactaaatgacggga   6979               NDUFS6   13   (intron 2 7225)   gagggcatcccgcgtcagtc G/A ccagtgtcgaggcgtcagca   6980               NDUFS6   14   (intron 2 7810)   cttccactctggggcgggga C/T gctgtagaaggagcacaaag   6981               NDUFS6   15   (intron 2 11080)   gtaactgttcagtgctttct C/T ctttggatttcatgtaaatc   6982               NDUFS6   16   (intron 2 11657)   gggacagaacgatgtggtgg G/A gagaagagggcgtggcagag   6983               NDUFS6   17   (intron 3 208)   cgaaaaccccctttcaactg T/C gaagtggtgggcggcatgtt   6984               NDUFS6   18   (intron 3 1031)   ctagagtgggactgggcacc C/T ggcatgtcccctcctgggct   6985               NDUFS6   19   (3′flanking region 270)   gcttcagagagccaaggtgg G/C tcttgaggtgcatagtgaag   6986               NDUFS8   1   (5′untranslated region −45)   agtgtagcctccgcctcccg A/C ttgactggcctgcttggcaa   6987               NDUFS8   2   (intron 1 163)   aggtgcagcggggagccggc T/C ctcagggcgcatgcgccgcc   6988               NDUFS8   3   (intron 3 123)   tctctgagcctgtttccact T/C ttaaaatgattatggtgatg   6989               NDUFS8   4   (intron 5 −505)   aggcaaggcaggccgggcac G/A gtggctcacgcttgtaatcc   6990               NDUFS8   5   (3′flanking region 491)   ggccctgagctggcctgcgt C/A cagccacatcctctttcctg   6991               NDUFS8   6   (3′flanking region 693)   ttcacttcatttgcagtgag G/A aaaccagctccgagaggtga   6992               NDUFS8   7   (3′flanking region 1267)   ttttcccegacgtaaccgcc G/A tcagagcgtggcatggagcc   6993               NDUFS8   8   (3′flanking region 1362)   cgctgggttctttcccttac C/T gtggtctcccaggcacttac   6994               NDUFS8   9   (3′flanking region 1449)   tgtcagaacaggcctatggc G/A cccaaccacaagtcccccaa   6995               NDUFS8   10   (3′flanking region 1572)   cagccccacaggcctgtgct C/A gctgtgtggggcttagggat   6996               NDUFS8   11   (3′flanking region 783-784)   cagagaccttgacccccccc (C) atctaccatcatttccaaaa   6997               NDUFS8   11   (3′flanking region 783-784)   cagagaccttgacccccccc     atctaccatcatttccaaaa   6998               NDUFV1   1   (intron 3 670)   ctgggtggagtggggtggca T/C ggagttgaagacccagtcct   6999               NDUFV1   2   (intron 6 160)   tgtgccggccccagccctga C/G catgcatccctttggggacc   7000               NDUFV1   3   (intron 9 27)   accacccttctgcgtagcac G/A gagggtgggtggcatcaagg   7001               NDUFV1   4   (3′flanking region 1111)   tgtaggctgaggtcagcccc A/C atccagtccaaagcccaccc   7002               NDUFV1   5   (3′flanking region 1658)   gaatgcggaagtgctctgtg G/A gcacccaccatgctccgggc   7003               NDUFV1   6   (3′flanking region 1713)   gatctggggcggagggtaca C/T ggggctggcgctgggtgaag   7004               NDUFV1   7   (intron 4 214)   tggtgtaaattttttttttt T/A gcttcaaaaatatagtattt   7005               NDUFV1   8   (3′flanking region 772-774)   tgaactcggggttcagggtc TTC/Δ ctgtgaacactggttttgaa   7006               NDUFV2   1   (intron 1 526)   ggaaatgctggctaaataaa C/T ggtatcaaactaactctgaa   7007               NDUFV2   2   (intron 1 6689)   tcgttggatggtagtattgt T/G tgaacaacagaagaaattca   7008               NDUFV2   3   (intron 1 14767)   ccaaatgcatgccagcagag C/T gtggcaggaaggtacacaag   7009               NDUFV2   4   (coding region (Ala 29 Val))   aaggaatttgcataagacag T/C tatgcaaaatggagctggag   7010               NDUFV2   5   (intron 2 −289)   cagaagatcttactctctaa T/G gaagctggataacacttttt   7011               NDUFV2   6   (intron 2 −168)   tttactttggtaatcatact T/C atcaaatgtgtgtttagaca   7012               NDUFV2   7   (intron 4 677)   aaaccacatactatttgatt C/A tgatgagaatcacataacca   7013               NDUFV2   8   (intron 4 2295)   tatgattcaactttcaaaag A/T gtattgtgatatgaaataga   7014               NDUFV2   9   (intron 5 102)   caacttctgccatcttattg G/A atctgtacttacctagtaat   7015               NDUFV2   10   (intron 7 5466)   tggtaagaggctttaagata A/C caaatgcicagctttcagga   7016               NDUFV2   11   (intron 1 13562-13563)   tactcttaaaattaatcctt (CTT) ttattataagtatacagtct   7017               NDUFV2   11   (intron 1 13562-13563)   tactcttaaaattaatcctt      ttattataagtatacagtct   7018               NDUFV3   1   (5′flanking region −222)   cgccgcgcccccgccacagc G/A cccaggcgcccgcagggcac   7019               NDUFV3   2   (5′flanking region −111)   tggccccaagggaggcactt A/G gccctactggggatgcgcgc   7020               NDUFV3   3   (intron 1 137)   ttgggccgctgaccccgctc C/T ctgggcccaggactgaccgc   7021               NDUFV3   4   (intron 2 152)   tatacaagacacaagatcta T/C aacagattttagaccaaaca   7022               NDUFV3   5   (intron 2 6304)   ttcacagatgaaggggttcc G/A aaatttttgtcaagaaagac   7023               NDUFV3   6   (intron 2 6433)   tcgccttcgtcttcatcctc T/G tccagctcctctgattctga   7024               NDUFV3   7   (intron 2 6563)   cctttgaaaacagagccccc C/T gagttacagtatcagcaaaa   7025               NDUFV3   8   (intron 2 9619)   actatcttctgtgcgcatgc G/A cagagcccaccttgcagagc   7026               NDUFV3   9   (intron 2 9858)   aggatgccagctctttaaat G/A agacatcgtttttgcttaac   7027               NDUFV3   10   (intron 2 11673)   cttggtaggtaagcgcctgt A/G tgtgagccaagtcattcata   7028               GGT1   1   intron 1 + 89   ttatccagtaaggtggctcc G/A tcacctcttttcctggtggg   7029               GGT1   2   exon 3 + 68   gacggccaggtccggatggt G/T gtgggagctgctgggggcac   7030               TGM1   1   exon 2 + 179   tgccgaaatgcggcagatga C/T gactggggacctgaaccctc   7031               TGM1   2   intron 9 + 1594   acttaccactctgtcctctc C/T tgccaggcctcttcctgtca   7032               TGM1   3   intron 9 + 1933   ccgcacatctgtaccctgcc C/G ccatcctccagcagagcagc   7033               TGM1   4   intron 10 + 54   tcagtcatgggttctctggt C/T ccaacttcaccgctgactga   7034               TGM1   5   intron 10 + 420   aggaggccgggagtcaggcc A/G ccctcagaccctctggctca   7035               TGM1   6   intron 12 + 101   gggagtccctgggggaagcc T/G catgtagggaagcaggcctc   7036               TGM1   7   intron 13 + 72   ggataaggacatcagaggtg G/A gcgctaagccagcagcaggc   7037               TGM1   8   intron 14 + 1671   atctcttacccacaccccca C/G catggtggggaggttcctca   7038               TGM1   9   intron 14 + 1691   ccatggtggggaggttcctc G/A tcctaagggatccgcagagc   7039               TGM1   10   intron 14 + 2983   tccctgcctccctccttcag G/A gagctcagaaacaccttcaa   7040               TGM1   11   intron 14 + 3158   ggaaacccctcagaaccagg T/C tccaagccaaatgctttgcc   7041               TGM1   12   intron 14 + 3816   cagaatacaaaagtgggatg G/C gaggcaaggagtcccgttag   7042               TGM1   13   exon 15 + 233   ctcgaggtggagcttagccc T/C gtgccaggagcaatgggact   7043               TGM1   14   exon 15 + 369   ggagtcagtcttcacttgca C/A tgggggaacagatgctaata   7044               CYP1A1   1   5′flanking − 1061   ccgccccgactccctccccc C/G tcgcgtgactgcgagccccc   7045               CYP1A1   2   5′flanking − 1035   tgactgcgagcccccgcgcc G/A ggccggggaatgggtcggct   7046               CYP1A1   3   5′flanking − 1020   gcgccgggccggggaatggg T/G cggctgggtggctgcgcggg   7047               CYP1A1   4   5′flanking − 947   cgcgcctccgggccaggtgg G/A gcggggacgggccgcctgac   7048               CYP1A1   5   intron 1 + (1326-1334)   cattcattgagaattgagcc (A) 8-9 ccctggcctggatttctctg   7049               CYP1A1   6   intron 1 + 1357   ctggcctggatttctctgac T/C aaagagctcaatctagctgg   7050               CYP1A1   7   intron 1 + 1590   ccactcttcaaaaggaggta C/T atgtgacagcagctggaaat   7051               CYP1A1   8   exon 2 + 160   gaatccaccagggccatggg G/A ctggcctctgattgggcaca   7052               CYP1A1   9   3′flanking + (710-720)   gagacggagtctcactgtgt   7053               CYP1A1   10   3′flanking + 834   gcctcagcctcccaagtagc C/T gggactacaggcgcctgcca   7054               CYP1A2   1   intron 1 + 103   gcctgggctaggtgtagggg T/G cctgagttccgggctttgct   7055               CYP1A2   2   intron 2 + 371   cttccctgtgttcacactaa C/T cttttccttctttgaaattg   7056               CYP1A2   3   intron 4 + 44   atagccaggagaagccttga G/A acccaggttgtttgttcagt   7057               CYP1A2   4   intron 4 + 206   aagagtgacatggggtataa G/C aggggataattcatggggca   7058               CYP1A2   5   intron 5 + (623-648)   catagaaaatagaaaaacat   7059               CYP1A2   6   intron 6 + 81   tccctgctaggaactgttta T/C ataatgaaaggaggggacct   7060               CYP1A2   7   exon 7 + 181   ctggccatcctgctacagca A/T ctggagttcagcgtgccgcc   7061               CYP1A2   8   exon 7 + 295   cggctgcgcttctccatcaa C/T tgaagaagacaccaccattc   7062               CYP1B1   1   5′flanking − 3669   tgtatcctgtgaagcatcac G/A gttatccttctctgcacatg   7063               CYP1B1   2   5′flanking − 3149   tgacagcacttaccaaccta g/C ttcctctgatttttgagtca   7064               CYP1B1   3   5′flanking − 1222   gggggaagccacccccgccc G/A agcgcctccggcttccctta   7065               CYP1B1   4   5′flanking − 376   ttccgggaagcaagctcaag T/C cgcggagagggaagggaggt   7066               CYP1B1   5   5f lanking − 265   ctggggacaccgtgcggcct C/T gattggaggtggctgtgatg   7067               CYP1B1   6   intron 1 + 129   tgcccgcagcgttgtcccca G/A attgcaggaaccgttacgcg   7068               CYP1B1   7   intron 1 + 379   tgagtgtcacgccttctcct C/T tctgtccccagcatgggcac   7069               CYP1B1   8   exon 3 + (799-800)   agcttctgggagattttttt (T) gagtcaaagacttaaagggc   7070               CYP1B1   8   exon 3 + (799-800)   agcttctgggagattttttt     gagtcaaagacttaaagggc   7071               CYP1B1   9   exon 3 + 1284   agtatagtggggttccatga G/T ttatcatgaattttaaagta   7072               CYP1B1   10   exon 3 + 1398   tcagcaaagaaaaaaaaaaa A/Δ gccagccaagctttaaatta   7073               CYP1B1   11   exon 3 + 1468   tctcataggttaaaaaaaaa A/Δ gtcaccaaatagtgtgaaat   7074               CYP1B1   12   exon 3 + 1964   ttgaataatatatgccttgt G/A taatattgaaaattgaaaag   7075               CYP1B1   13   exon 3 + 1762   ttgaaattctatttataata C/Δ agaatcttgttttgaaaata   7076               CYP1B1   14   3′flanking + (2216-2226)   aaaatttattcctatttcct   7077               CYP1B1   15   3′flanking + 2230   tttttctttttttttttaaa A/Δ tttattcctatttccttaca   7078               CYP3A4   1   intron 2 + (754-763)   cacaaaatgagtttgtgggg (T) 9-11 acacaaaggcggaatcacat   7079               CYP3A4   2   intron 7 + 258   accactaatcaactttctgc C/T tctatggatttgcctattct   7080               CYP3A4   3   intron 7 + 894   tgctgatctcactgctgtag C/T ggtgctccttatgcatagac   7081               CYP3A4   4   exon 9 + (32-33)   ttccttcagctgatgattga (A) ctctcagaattcaaaagaaa   7082               CYP3A4   4   exon 9 + (32-33)   ttccttcagctgatgattga     ctctcagaattcaaaagaaa   7083               CYP3A4   5   intron 10 + 12   tccaataaggtgagtggatg G/A tacatggagaaggagggagg   7084               CYP3A4   6   intron 10 + 459   agacatgtgacttttttttt T/Δ gaaaggtaacaatcactttc   7085               CYP3A4   7   intron 10 + 608   agccgtctcgaatgtctccc C/T acttcataactcctccacac   7086               CYP3A4   8   intron 12 + 2487   ttttttgcccattactccat A/G gagatcagaatatcactctg   7087               CYP3A5   1   exon 1 + 69   ggaagactcacagaacacag T/C tgaagaaggaaagtggcgat   7088               CYP3A5   2   intron 1 + (955-956)   tgtgggtagtggaggctcca (A) cctgtcccattaacttctac   7089               CYP3A5   2   intron 1 + (955-956)   tgtgggtagtggaggctcca     cctgtcccattaacttctac   7090               CYP3A5   3   intron 1 + 1126   acatttttaaatgaattgat A/G tggtttaaattcattcattt   7091               CYP3A5   4   intron 1 + 1145   tatggtttaaattcattcat T/G tttaaaccagaattttttgg   7092               CYP3A5   5   intron 1 + 1543   ttcatgggtcctggccccac C/A gtggaggtcactcaaagggc   7093               CYP3A5   6   intron 1 + 2366   cttatcttatatgccatact G/A caccatttgctatcaacagg   7094               CYP3A5   7   intron 4 + 1813   tggttctaattttactcttc G/A tgttcttcatccttgaaaat   7095               CYP3A5   8   intron 4 + 1887   aatgacatgaacaaggtgtg A/T ttgtgaagcaagggatattt   7096               CYP3A5   9   intron 4 + 3384   gagtgcttcgctatttgcct C/T aacaagaaaaagtcatttgt   7097               CYP3A5   10   intron 4 + 3415   agtcatttgtccacttttca T/C tgaacaatcttccttcatcc   7098               CYP3A5   11   intron 4 + 3760   aagataacacactggaagtc G/A cacaccaccataaaactgaa   7099               CYP3A5   12   intron 4 + 3885   acaattcacttcacgtggca C/T tgcaatagcgtcctctcgct   7100               CYP3A5   13   intron 4 + 5061   tacctacttttcaaaaaaaa A/Δ tcaccacatcatggcatccc   7101               CYP3A5   14   intron 4 + 5316   ccagatggctgggtctcccc A/T ctcccacccccgccccacat   7102               CYP3A5   15   intron 9 + 77   gttctgaaaatgtgcaggaa G/T tattccaggaagatgagaat   7103               CYP3A5   16   intron 9 + 1791   aaatttttattgggaaaaag C/T ctaccccatatttacttaca   7104               CYP3A5   17   intron 12 + 1408   atttaaataaaaaaaaaaaa A/Δ cacgagtccacaagaatttg   7105               CYP3A5   18   3′flanking + 542   tggagaaaatattcatagtt T/C cattctgccttctttgaaga   7106               CYP3A5   19   3′flanking + 737   atgaacactgaataaaaaat T/G gtcaattcgtcagttgattg   7107               CYP3A5   20   3′flanking + 804   ttttccttttttattctttc A/C ttttccctccttttctgaat   7108               CYP3A7   1   5′flanking − 1680   cccaaggaacatgtggctcc C/A ggcacatacctggcacaaca   7109               CYP3A7   2   5′flanking − 1191   tagaaaatcctccacttgtc A/C aaaaggaagccatttgcttt   7110               CYP3A7   3   intron 1 + 1173   cccccatttcaaatacacct G/A cttagcaggttatcctaaac   7111               CYP3A7   4   intron 1 + 1597   tttttctgttagcctcttca T/C tgtaaccaaaagcagcatta   7112               CYP3A7   5   intron 3 + 762   tccagtgtctgcctattccc T/C tcttctttttttcttccctt   7113               CYP3A7   6   intron 7 + (1060-1069)   atggtttcgttttctgttgg (T) 9-10 ctacagaagtctttccattc   7114               CYP3A7   7   intron 11 + (592-594)   taagacaaggtagggaggag AAG/Δ gaggagaattagaaaaacaa   7115               CyP3A7   8   intron 12 + 911   ccccctccattaacaatatc C/T tctcattttattccatttaa   7116               CYP3A7   9   intron 12 + 1137   gtctgtctgcagggaaaata T/Δ attcatgccttttgaaaatt   7117               CYP3A7   10   intron 12 + 2147   tattgtcagtaatttttttt T/Δ actttgatgctatactttct   7118               CYP3A7   11   exon 13 + 218   ttcatccaatgtgctgcata A/C ataatcagggattctgtacg   7119               CYP3A43   1   intron 1 + 3579   tcatgctcactttttttttt T/A ctcaaaatgatcagtcacac   7120               CYP3A43   2   intron 2 + 2427   tagagggaatcttttttttt T/A cctttttttctgctgcccag   7121               CYP3A43   3   intron 3 + 3034   tttttatatagctagggaga T/C tgtaaattaacaagtttcct   7122               CYP3A43   4   intron 3 + 3433   agtcaagataactttttttt T/Δ cataaaggaccacagtatgt   7123               CYP3A43   5   intron 3 + 3504   catgactcagtttccaacca T/C aacttttcattttggcatag   7124               CYP3A43   6   intron 4 + 2767   tagtgacttttgaaaaaaaa A/Δ ttagtaataagcaaaagact   7125               CYP3A43   7   exon 5 + 22   aaaacttaaggcacttttca G/A aaatcccattggacctaaag   7126               CYP3A43   8   intron 12 + (1585-1584)   tactttgagccctcattctc (A) ccaagtcacttcagtgtcag   7127               CYP3A43   8   intron 12 + (1585-1584)   tactttgagccctcattctc     ccaagtcacttcagtgtcag   7128               CYP4B1   1   5′flanking − 333   gaaacattcacagtgcttgt A/T tgagaagacagtggttatta   7129               CYP4B1   2   5′flanking − 18   gagcagctgaaggcaggtca G/T atgaaggctaggtggctgga   7130               CYP4B1   3   intron 1 + 341   tccaaaacctctggatagta C/T atagaagtaggcaatccatt   7131               CYP4B1   4   intron 1 + 542   cctatgggtggctcaggagc C/T gtgacaccttcccaggttca   7132               CYP4B1   5   intron 1 + 2856   gaggactttgcacatagtag G/A tgctcagctatattgttggc   7133               CYP4B1   6   intron 1 + (2923-2938)   caacaaattggtgtgtgtgg (GT) 7-8 agaatgccagctcccagatc   7134               CYP4B1   7   intron 1 + 6086   tttggaatctaaagactggg G/T cacgatgctagttgtgtgac   7135               CYP4B1   8   intron 1 + 6598   ttttggggtgtggggagagg G/A cccatagtagggagacagct   7136               CYP4B1   9   intron 1 + 6660   acctaagggtgtccatcctg A/G aggagagcagtcctaggggg   7137               CYP4B1   10   intron 1 + 7242   ccctggtctcccttaactca T/C gctggactgttccctttggt   7138               CYP4B1   11   intron 2 + 107   gcctgtgtactaagtctgcg C/G agctgaggttcccaccctac   7139               CYP4B1   12   intron 3 + 361   atggtgtggtggtaggacca C/T ggctggtcaccagaggctgt   7140               CYP4B1   13   intron 4 − 492   aaaggctttcacatctaaaa C/A gtgtctcctcattttctgtc   7141               CYP4B1   14   intron 4 − 315   ggattacttacatatacacc A/G tgcgggggagctcaccacct   7142               CYP4B1   15   intron 4 − 157   ctacccaccctatcctgata T/C tccagcaggatggagggcag   7143               CYP4B1   16   exon 5 + 22   acaagtgggaagagaaagct C/T gggagggtaagtcctttgac   7144               CYP4B1   17   intron 5 + 125   cccagggagccttagcttgc G/A gggagacaggacctgctcat   7145               CYP4B1   18   intron 5 + (287-289)   tgtctaagccaatccctcct CCT/Δ accctctgcttagcagggac   7146               CYP4B1   19   intron 6 + 54   gcctgggttcctcctcctgg C/T ccctctatgccccctcccat   7147               CYP4B1   20   intron 7 + (99-100)   agctcttaagcatttccccc (TC) tttcctcagcaaatataacc   7148               CYP4B1   20   intron 7 + (99-100)   agctcttaagcatttccccc     tttcctcagcaaatataacc   7149               CYP4B1   21   exon 8 + 114   tcctggtttctctactgcat G/A gccctgtaccctgagcacca   7150               CYP4B1   22   exon 8 + 139   tgtaccctgagcaccagcat C/T gttgtagagaggaggtccgc   7151               CYP4B1   23   intron 8 + 247   agaaagttgtcaacaagagg C/T tgatattttgtgtgctaact   7152               CYP4B1   24   intron 8 + 366   tgtgggggtgaacagagctg A/G gacagctgggagagccagtt   7153               CYP4B1   25   intron 8 + 650   cctttgcttgtggtcagaca C/A cctgcctttctctctgggct   7154               CYP4B1   26   intron 8 + 844   tcatatgtgagaatcccccc C/A ccacggggtatccagacaca   7155               CYP4B1   27   intron 8 + 1767   tcccattccaagaatgttct G/T gttgtgttgctggcagggat   7156               CYP4B1   28   exon 9 + 53   tgtgcatcaaggagagcttc C/T gcctctacccacctgtgccc   7157               CYP4B1   29   intron 9 + 652   agtcggatgtggtcatgaac G/T ctctgtcactggcagtggtc   7158               CYP4B1   30   intron 9 + 774   cctggtcaccaacctctgtt C/T tgcccacaggaagcctgatc   7159               CYP4B1   31   intron 10 + 33   tgggctgggagatcagacag G/T gtgggggactgggagggtca   7160               CYP4B1   32   exon 12 + 224   ccagatggctcaggctgtga C/A ctccctgggcaccaccctcc   7161               CYP4B1   33   exon 12 + 270   ctgggtgtggaggagttggg G/A ccccctgccttcaggaggct   7162               CYP4B1   34   3′flanking + 129   tctgtgtctcacagtcacgt G/A gtgctccaggcattcagggt   7163               CYP4F2   1   intron 1 + (145-146)   ccaagcccctggcaacctca CA/Δ gtgattcaggctgggccttt   7164               CYP4F2   2   intron 1 + 193   tttaatcagtctctctctct C/T tttcccattctaagtgctta   7165               CYP4F2   3   intron 1 + 324   ccctgctctacctccggcac T/C gcccgtccctgcctctccac   7166               CYP4F2   4   intron 1 + 367   tccctggaggtccctgggcc G/C ttctctgggcctcaggatct   7167               CYP492   5   intron 1 + 402   ggatctcaccgtccatcccg T/C ctgccctgcaggatgtccca   7168               CYP4F2   6   exon 2 + 35   gcctgtcctggctgggcctc T/G ggccagtggcagcatcccct   7169               CYP4F2   7   exon 2 + 166   cggtgtttcccacaaccccc A/G agacggaactggttttgggg   7170               CYP4F2   8   intron 2 + 125   ggcagagaagcagaggaggc A/G tcttactcattcctctgctt   7171               CYP4F2   9   intron 2 + 440   gggccgtctcccacttccac T/C acacccgaaggcacctttct   7172               CYP4F2   10   exon 3 + 48   gttctgactcagctggtggc C/T acctacccccagggctttaa   7173               CYP4F2   11   intron 3 + 701   agactccaccccagcttggg T/A ccctttccttgacccctgtg   7174               CYP4F2   12   intron 3 + 742   cttcccatcgttggacgggc G/A aggctgagcagggggaatgg   7175               CYP4F2   13   intron 3 + 1020   gctttagctttctccatgtc G/A cttttcctatcaaggtygcc   7176               CYP4F2   14   intron 3 + 1039   cgcttttcctatcaaggtgg C/A cttttcctcatgatgtcaac   7177               CYP4F2   15   intron 3 + 1040   gcttttcctatcaaggtggc C/G ttttcctcatgatgtcaacg   7178               CYP4F2   16   intron 3 + 1920   ccacctgtctaacctctgtt G/C ctgtttgctcatgtctgggg   7179               CYP4F2   17   intron 3 + 1945   ttgctcatgtctggggcgtg T/A ctctacaatggctgttatat   7180               CYP4F2   18   intron 3 + 2621   agcattctgtagaatgctga G/A ctgtgctcaggggttgcgga   7181               CYP4F2   19   intron 3 + 2665   tgttggatcgtgtaggaggc A/G tgtcaaggcatgctggaacc   7182               CYP4F2   20   intron 6 + 194   gggtttgaactggtgggtgt G/T gtcagagctctgtaggggac   7183               CYP4F2   21   intron 7 + 67   tgtgaaatgtcagatgaaag G/A atttgaacttgattaagagg   7184               CYP4F2   22   intron 7 + 2811   ttccaagggaaattgccatt T/G aattctcctgtaactcaggt   7185               CYP4F2   23   intron 7 + (3096-3097)   ggggtgggggttgggggggg (G) ttactgccttctctccagga   7186               CYP4F2   23   intron 7 + (3096-3097)   ggggtgggggttgggggggg     ttactgccttctctccagga   7187               CYP4F2   24   intron 8 + 145   ggtgctgtctaccttcgggt G/A ctgaagcagcccagagaccc   7188               CYP4F2   25   exon 9 + 44   ctctcctgggtcctgtacca C/T cttgcaaagcacccagaata   7189               CYP4F2   26   exon 11 + 48   gaacccatcacaacccagct G/A tgtggccggaccctgaggtg   7190               CYP4F2   27   intron 12 + 108   tggtccaagttccagctctc C/T ttccctcacctcctctggag   7191               CYP4F2   28   intron 12 + 285   gcatggggatccaggcacgg A/T tacccccttctctattcctc   7192               CYP4F2   29   exon 13 + 238   aagtgaagcctagaattacc C/A taagaccctgttccacagtc   7193               CYP4F2   30   exon 13 + 342   tgtgcgtgaatgttcatggc G/A gccctattcacagtagccaa   7194               CYP4F2   31   exon 13 + 563   tagtgtactgtccttttata T/C gaaatttccagaacagycca   7195               CYP4F2   32   exon 13 + 707   aaatgttccggacctagata G/C tgacgaaggtagcacgacac   7196               CYP4F3   1   intron 2 + 258   cattaatgcacctctgcggg G/T ctcttgggcagggggttggg   7197               CYP4F3   2   intron 2 + 916   ttagggacatgtcctgagtc C/T acactgctccccacaaacct   7198               CYP4F3   3   intron 2 + 3417   atccaggtctcacacagtgt C/T acttcctctcttggctttag   7199               CYP4F3   4   intron 2 + 4090   gagagcatgaattgggtcct G/A tgtctttctctccagattca   7200               CYP4F3   5   intron 3 + 89   tgtgctgcctccagcgggtc G/A cgtgcccatgtgcagacagg   7201               CYP4F3   6   intron 3 + 243   tcaagtctgctgtacggcta C/T gtcttgtcacctgtatattt   7202               CYP4F3   7   intron 3 + 502   aggtctgggacccagggtcc G/C taagtgaactgtctgagaca   7203               CYP4F3   8   intron 3 + 755   ttttgtggccatgtcaggac A/T tgtgaacacatgtcagtgtc   7204               CYP4F3   9   intron 3 + 855   gggacagacagggtgtccta G/A gtccttgtgaaggcattctg   7205               CYP4F3   10   intron 3 + 970   cctgacatagctcctacgtg C/T catgttaggcagtgtcattg   7206               CYP4F3   11   intron 6 + 122   gaggagttgttatacctgat C/T gttgaaggactggtatgaat   7207               CYP4F3   12   exon 7 + 159   ggtgcacgacttcacagatg C/A cgtcatccaggagcggcgcc   7208               CYP4F3   13   intron 7 + 2107   caggttgccagtgatttttt T/A ctcagaaagttttcatcaag   7209               CYP4F3   14   intron 7 + 2255   taccaagaagggtctaggag T/A gcaagatgggcttgggtttc   7210               CYP4F3   15   intron 8 + 132   cctcaatgcaaaggttgctgt A/C caccctcgggtgctgaagca   7211                CYP4F3   16   exon 9 + 59   taccaccttgcaaagaccc G/A gaataccaggagcgctgtcg   7212               CYP4F3   17   intron 9 + 13   attgaatggtgagtgcaggt G/A ctggtgccctgttcctgagc   7213               CYP4F3   18   9 + 36   ggtgccctgttcctgagcct G/C tctcattggctctgttcccc   7214               CYP4F3   19   intron 9 + 167   acccatcctgactgtctggg C/G aaaggttataggcccttagg   7215               CYP4F3   20   intron 9 + 369   tccctaattcctacccttcc G/A tccagtccagggatttataa   7216               CYP4F3   21   intron 9 + 458   tcattcatccatccagtcct T/C gttcagcaaatactctcata   7217               CYP4F3   22   intron 10 + 46   ctcctgggtaggaagagggg A/C ccctcaggcagggagcattg   7218               CYP4F3   23   intron 10 + 63   gggcccctcaggcagggagc C/A ttgtcctgactgcccccttc   7219               CYP4F3   24   intron 11 + 14   tcctgaggtgcgggcccccc C/G tctctgtttttgtccattcc   7220               CYP4F3   25   intron 11 + 84   gatcaggagaatccaacatc G/A cctccctccaagacacacac   7221               CYP4F3   26   intron 11 + 113   caagacacacaccactgtct T/C tccaaggctggcggactggg   7222               CYP4F3   27   intron 11 + 164   cggcaacccttcttggtctc T/G cctccaggtctatgacccct   7223               CYP4F3   28   intron 11 + 165   ggcaacccttcttggtctcg T/C ctccaggtctatgacccctt   7224               CYP4F3   29   intron 12 + 156   taaaaggcccacagagtagg G/A ttgggttggtcctagaagga   7225               CYP4F3   30   intron 12 + 253   gagctcggctaggctcgcag T/G atatgcaagcccacatgggg   7226               CYP4P3   31   intron 12 + 346   tgggtgtcccaggccaggtt A/C ccggcttgatgyggccagga   7227               CYP4F8   1   5′flanking − 61   accatgtttacccatcattg G/T tcctggagctccccagcccc   7228               CYP4F8   2   exon 1 + 67   gtggcagcatccccgtggct G/T ctcctgctggtggtcggggc   7229               CYP4F8   3   intron 1 + 707   tacgcagcaggtattcacca T/G tatttccacattatccactg   7230               CYP4F8   4   intron 1 + 857   acaccccctaccctcacatc G/A tgacacagctgggccagaag   7231               CYP4F8   5   intron 1 + 907   tgccatctccaccctccccc G/A tgcaggggcatcttctttat   7232               CYP4F8   6   intron 2 + 668   tgtggcacttccaccatatg T/C tcattgccctcttgctccag   7233               CYP4F8   7   intron 2 + 818   gccacagagaccatggctca G/A gccccaaaatgctgagtgac   7234               CYP4F8   8   intron 2 + 1079   tatgcttgggtgttgcagaa C/T atgttggaccatgtaggagc   7235               CYP4F8   9   intron 2 + 1194   ccggtcccctttatgccccc C/A accctcctttcttcttctgc   7236               CYP4F8   10   intron 5 + 45   aacatgggatggagtggggg G/T gtgggtgtggggagagcaaa   7237               CYP4F8   11   exon 8 + (19-20)   ggccatgacaccacggccag (GCCAG) tggcctctcctgggtcttgt   7238               CYP4F8   11   exon 8 + (19-20)   ggccatgacaccacggccag     tggcctctcctgggtcttgt   7239               CYP4F8   12   intron 8 + 222   tttatttccccactaacttg C/G tatgcaagcttagtaaaatc   7240               CYP4F8   13   intron 8 + 334   cttggagaattaacggcaaa A/T accgcaatgacttttggacc   7241               CYP4F8   14   intron 8 + 1999   ttctaagtacatttattctc T/C tgcttttagctatgatctag   7242               CYP4F8   15   intron 8 + 4184   caggagggccgtgtatgctc C/T ctggataattgttgggtgtt   7243               CYP4F8   16   exon 9 + 119   acgtggtgctcccagacagc C/T gagtcatccccaaaggtgcc   7244               CYP4F8   17   intron 11 + 282   gggttgggggttccgggcct G/C gttcctggcgcagtggggcc   7245               CYP4F8   18   intron 11 + 340   tgcagtcagaccttccacct C/T ggcccccaggaactgcatcg   7246               CYP4F8   19   3′flanking + 35   atcacctacctttgcaccaa T/C taccttttcagatttccggt   7247               CYP4F8   20   3′flanking + 83   ctgtgtiggcccctgtgcct G/C agtcccgcggatggccagta   7248               CYP4F8   21   3′flanking + 90   ggcccctgtgcctcagtccc A/G cggatggccagtagggggcg   7249               CYP27A1   1   intron 1 + 295   aggagggagctgtcttggga A/G gagagtggcagaggcaaatg   7250               CYP27A1   2   intron 1 + 17503   cagtgcataaagcctctgat C/T ctccttagagaaggagggac   7251               CYP27B1   1   intron 6 + 173   cagcccctagcctcatcttg C/T tgtctccattttgtgctttg   7252               CYP27B1   2   intron 8 + 113   atataagacctggtagaatg A/C atcttctgaaatatgataag   7253               CYP27B1   3   3′flanking + 1081   taccctggaatcagtgatga G/C aattctgcccatccgtactc   7254               AADAC   1   exon 1 + 29   attaaagtacactattcagg C/T atatcatgtaggtttacttt   7255               AADAC   2   intron 1 + 138   gctgtggcctttgacaatgt G/A ttacttagaaatgttgtttg   7256               AADAC   3   intron 1 + 142   tggcctttgacaatgtgtta C/T ttagaaatgttgtttgtttt   7257               AADAC   4   intron 1 + 1033   ttccagcagagacaccaaca A/G gtaaaaacaccccagctaca   7258               AADAC   5   intron 1 + 1253   tttttttccctcatatttgc T/C gtctgtgctacaatatgtga   7259               AADAC   6   intron 1 + 1366   ctctggtagccttttaatta A/G ttaattcattcatttactta   7260               AADAC   7   intron 1 + 1369   tggtagccttttaattaatt A/C attcattcatttacttacat   7261               AADAC   8   intron 1 + 2501   ggttacagaaagaatggtgg C/A ttggccaaaaaatgatatgg   7262               AADAC   9   intron 2 + 46   tgtcactgaggtagttcgca A/G acattttactaagtcttcag   7263               AADAC   10   intron 2 + 1971   aaatgagagttaagtaggag A/C attttcttttatttttgtgc   7264               AADAC   11   intron 2 + 1988   gagaattttcttttattttt A/G tgcaggagaaatataaacaa   7265               AADAC   12   intron 2 + 2341   aggtgccrtttctarrgtcc C/T atgcagacttaggtgatcct   7266               AADAC   13   intron 2 + 2546   gtctgacacagaaggatcaa T/A ggcaaaatgtgcaagacaaa   7267               AADAC   14   intron 2 + 2609   taggaggttcactgggaaac T/C tgaattccactgagtcatga   7268               AADAC   15   intron 2 + 2663   tataaatacagtgttaaatt T/C gtctctcgtattttaaggta   7269               AADAC   16   intron 4 + 605   tgtgtcagtaaaatattata T/C taagtaggtgaatgagatca   7270               AADAC   17   intron 4 + 621   tatattaagtaggtgaatga G/T atcatgtaattgtgagacta   7271               AADAC   18   intron 4 + 679   ttagagattcagacgaattc A/G tataatcttcgatggtgtat   7272               AADAC   19   intron 4 + 1680   gttaaaatgtggataaatac C/T acaatttgcaaaatatttgg   7273               AADAC   20   intron 4 + 1748   atttagaagttctatacatc T/C tttatagtatattacacact   7274               AADAC   21   intron 4 + 1771   tatagtatattacacacttc G/A aaaacacaaaattatttttt   7275               AADAC   22   exon 5 + 238   caagtcatctcttcaaattt A/G ttaattggagttccctgctc   7276               AADAC   23   exon 5 + 678   ttagaaattggtctttctta A/G aatggtctagttaagttcca   7277               AADAC   24   3′flanking + 208   aatgctaaaaaaaaaaaaaa A/Δ tcactgtggtactttgggga   7278               CES1   1   5′flanking − 983   tatttccttagccagcggta T/C cacagtgtgtttagtgaatt   7279               CES1   2   5′flanking − 814   tcacattgccttgacatcac A/C cctactgctcctccacccta   7280               CES1   3   5′flanking − 248   agtcctgcaagggtgacacc G/Δ ttatgccacaagcagttggg   7281               CES1   4   intron 1 + 22   tgagtccttctgaagtcaaa T/Δ atgcggggcactttttgaaa   7282               CES1   5   intron 1 + 30   tctgaagtcaaatatgcggg G/T cactttttgaaatccttgtt   7283               CES1   6   intron 1 + 1662   aagggaatccctgagctgag C/A atgaccagcccagtggtttc   7284               CES1   7   intron 1 + 1726   cctccctgaagtcctcagca A/C tcttagctggttcctcgccc   7285               CES1   8   intron 1 + 2716   tgcttccaaggaagttcatc T/G cagtattatttgtaattagc   7286               CES1   9   intron 1 + (2747-2749)   tgtaattagcaacaacaaca AAA/Δ gaaaagaagctaaatattga   7287               CES1   10   intron 1 + 3288   ttatttgtccattaaagaaa A/Δ°ctcaagcgcttagcctggca   7288               CES1   11   intron 1 + 3691   gagaatatgggacacccctt T/G ttcatcctctcatccagcat   7289               CES1   12   intron 1 + 3819   tccttcttgcatttattttt A/G gctggatgtttttatgcctc   7290               CES1   13   intron 1 + 3880   aaccagctcaatgggttagg G/A aggacattgatcgtcatccc   7291               CES1   14   intron 2 + 74   gagtcaaggcagtcccctga T/C gggctgatcctttgctctgg   7292               CES1   15   intron 2 + 552   atggaaggtgtgtccattca C/A cctggccaagctgggaagaa   7293               CES1   16   intron 2 + 885   cagtattttagatggtaaag T/C attatgatgtaatatattgt   7294               CES1   17   intron 2 + 2001   ttggcatgtcagggctgcaa G/A actcatgtagaaatcactcc   7295               CES1   18   intron 3 + 2119   cgctgagtgcatgaatagtc T/C aggcttgagggtgatgggag   7296               CES1   19   intron 4 + 127   taaggcatccaagccccttc G/A taattggacactacctaccc   7297               CES1   20   intron 4 + 347   tctgtcatgacacttagcag T/G cagcccagcaggtgaaggtt   7298               CES1   21   intron 4 + (1984-1985)   gtggtcctgaaggtcctgca (C) tgacatctctgctccccacc   7299               CES1   21   intron 4 + (1984-1985)   gtggtcctgaaggtcctgca     tgacatctctgctccccacc   7300               CES1   22   intron 5 + 766   gaggtgggcagagggtcagc T/C cactactggattcctcagtc   7301               CES1   23   intron 5 + 825   ggagtagatctagcctggaa T/G agcgagtgagtcactgaccc   7302               CES1   24   intron 5 + 828   gtagatctagcctggaatag C/T gagtgagtcactgaccccac   7303               CES1   25   intron 5 + 868   ctcctgagcatgaactctcc T/A cccctccactctgctgtcag   7304               CES1   26   intron 7 + 68   acttcttcatttcagctgtc C/G tcttgcccagggacagtttc   7305               CES1   27   intron 7 + 681   cctccaaaatcaacaatcca A/G ttatcgcctgtctgctagtt   7306               CES1   28   intron 7 + 885   aggaactatccaaagagaaa T/C acattcatatacttcgcagg   7307               CES1   29   intron 7 + 2151   gtcgtgtaaactgaaaatct C/G aggagttgatggcttcaggc   7308               CES1   30   intron 7 + 2470   atatagatatacgaattcac G/A gagtgatgcgggaagaacct   7309               CES1   31   intron 8 + 128   cgtgtttgtttctgaggccc A/C gagaggggtagtgactcacc   7310               CES1   32   intron 8 + 2618   cctgatggcaacacatgagt T/C gggctctctctaatctgtga   7311               CES1   33   intron 8 + 2665   aaaaattattcatcaaaggt G/A aaacctaaaattaagacatg   7312               CES1   34   intron 8 + 3785   ccatggcgcatggccatgcc G/A gtctatggtactggtctcac   7313               CES1   35   intron 8 + 3791   cgcatggccatgccggtcta T/C ggtactggtctcaccctcag   7314               CES1   36   intron 10 + 222   gtgggctggagaagctgcat C/T gctcacccggggctggtggt   7315               CES1   37   intron 10 + 230   gagaagctgcatcgctcacc A/C ggggctggtggtcacttttt   7316               CES1   38   intron 11 + 1177   ctagcaggtgccctgacaca C/G ctttgcacaggaaggggcag   7317               CES1   39   intron 11 + 1311   gccctatgctctgcgtctga A/G ctatatatagagttcccatc   7318               CES1   40   intron 11 + 2025   ttctcatttgggatgctaag A/G ttaaaaattagcataacact   7319               CES1   41   intron 11 + 2029   catttgggatgctaagatta A/C aaattagcataacacttcca   7320               CES1   42   intron 11 + 2317   cattcacaaaagctctttct T/C ctatggttggctctgagttt   7321               CES1   43   intron 11 + 3887   caaatatttggctctaattc C/T gcttccacctcagacagcta   7322               CES1   44   intron 12 + 2311   gcgcctctgggcatctcact G/A tgcatgcttaggcgccttgc   7323               CES1   45   intron 12 + 2331   gtgcatgcttaggcgccttg C/G ggctctgttgtttttcagaa   7324               CES1   46   3′flanking + 71   aacggtgatgaaagaggcga T/C gtgagaaggaaggtggcttt   7325               CES1   47   3′flanking + 362   ttgcatggcacttactgacc G/A ttgcacaggcctgcaacacc   7326               CES1   48   3′flanking + 581   atttctggattctgttagta C/T gtagaaagctctaaagcatg   7327               CES1   49   3′flanking + 1348   aaatctgctgctgggagaga G/C agcaaagcatgcagatcaac   7328               CES2   1   intron 1 + (1303-1321)   gtcaagcatggtggcagaca   7329               CES2   2   exon 5 + 60   ggaccaagtggctgcactac G/A ctgggtccagcagaatatcg   7330               CES2   3   exon 12 + 256   agcctgctgtgcccacacac A/G cccactaaggagaaagaagt   7331               CES2   4   3′flanking + (155-172)   gagagagtgtgtgattagaa   7332               CES2   5   3′flanking + (173-178)   tcaaaaaaaaaaaaaaaaaa (GA) 4-6 gtgtgtgattagaagctaaa   7333               CES2   6   3′flanking + 377   ggtcaaggtgagcagaacac C/G tgaggacaggagtttgagac   7334               GZMA   1   5′flanking − 424   cctcagcttgcacttggcct A/G ctaattcttatataacccaa   7335               GZMA   2   5′flanking − 134   agcctgcctgctggcagtga G/C ccatcatccaccattctcac   7336               GZMA   3   intron 1 + 1947   gacataaggttctctctatc A/T gcatgtatggtttgccttgt   7337               GZMA   4   intron 2 + 958   gactgcgtgaccaggtagaa C/T tagcctcagcatggaagggt   7338               GZMA   5   intron 2 + 1525   gttggtgtagtttatactag G/A ttatgaatgatagccttaat   7339               GZMA   6   exon 4 + 105   tgccaagttgcagggtgggg C/G aggactcacaatagtgcatc   7340               GZMA   7   intron 4 + 696   atagagccttacctgaagaa A/G ggtgtgcagtatgcatggtt   7341               GZMA   8   intron 4 + 1141   ctgttcagggaggatcccgg G/A ttccaacatggttctttatt   7342               GZMB   1   5′flanking − 961   tgtttagcaaatgtttactg T/C gagcctgttatgtgctgagc   7343               GZMB   2   5′flanking − 263   ggctgataccacatcctaca A/G ttcacttcataggcttgggt   7344               GZMB   3   exon 2 + 109   gtgcggtggcttcctgatac A/G agacgacttcgtgctgacag   7345               GZMB   4   intron 2 + (242-243)   tgggggcatactttggcata (A) gaatacaaactgaagcaatt   7346               GZMB   4   intron 2 + (242-243)   tgggggcatactttggcata     gaatacaaactgaagcaatt   7347               GZMB   5   intron 4 + 131   atttctctctggaaagagaa G/A aggggactagactgagctgg   7348               GZMB   6   intron 4 + 182   gggcctctgcaaacttacca G/A gaggcttatggtggatggtg   7349               GZMB   7   3′flanking + 54   attctcaggcaccacatctg C/T gctatgcaggccaatgacac   7350               GZMB   8   3′flanking + 184   tccacaccagtttctccagg G/T cctgcccttctgccaaggct   7351               GZMB   9   3′flanking + 256   ccactttggtcctggggctt T/A gggtaaacttcttacctcct   7352               GZMB   10   3′flanking + 406   ctgagctcaaggctcagctc G/A tcctccagcctcttggctgc   7353               ESD   1   5′flanking − 333   gtcttgggacagaggagttg G/A gggagttgaaattaggccct   7354               ESD   2   intron 1 + 603   gtcatttctgatggggtcat C/T agggaaatgggattgagcgc   7355               ESD   3   intron 1 + 698   tgtgtggtagaagcagcatt C/T taagcactacgtgaattaac   7356               ESD   4   intron 1 + 1864   gctttcatgcaggattgatc G/C tagtgggatgtattaggaag   7357               ESD   5   intron 1 + 2389   ttttgggaacacctgtctag G/A ttgttaagagccagtggaat   7358               ESD   6   intron 2 + 22   taaacttgttttattgttta T/C atgttactctgaacattgaa   7359               ESD   7   intron 2 + 589   taaaattagtatctctctct G/A taagttcattatttaagata   7360               ESD   8   intron 2 + 1499   tagaaaaatgtgtatcacac C/T gtaagtgttcagtaatgtta   7361               ESD   9   intron 3 + 92   ctttatctagatattatagt C/A cctcattttacttttaaact   7362               ESD   10   intron 3 + 422   gtaaagagattaaacacaca C/T gcacacatacatatacctat   7363               ESD   11   intron 3 + 581   agaaaacctgagaaatgaca C/T aatttatttaaagccatagt   7364               ESD   12   intron 3 + 2270   gccagtaattacatgtagcc G/A tttacatcaaattagctaat   7365               ESD   13   intron 3 + 2951   taatgaaagtaaatgtttca A/G cttccctaacaaaagttgaa   7366               ESD   14   intron 3 + 3003   aaatgtcagaaattttttgt G/A ccgtcagtcatcaacaagaa   7367               ESD   15   intron 3 + 3097   aaggagcatacagaaaactt G/C ccatgatggggcctttgtgg   7368               ESD   16   intron 4 + 2616   tctaatagtccccagtatta A/G tggtgcacatcttcatgtcc   7369               ESD   17   intron 5 + 392   tcttttttcatctctgttaa C/T atcaaccatacagttaaaca   7370               ESD   18   intron 7 + 107   ttagtattggaactaaactt T/C tctagtgttgagaactttgg   7371               ESD   19   intron 8 + 1091   aaattctaactaattaaagg G/T ttcatcctttagtaactaga   7372               ESD   20   intron 8 + 1652   tataaagttgtggttaatga A/G tatatatgaataagaatatt   7373               ESD   21   intron 8 + 2048   agaaggaaaaaggccatttt G/C ttaagaatzccctgagatatg   7374               ESD   22   intron 9 + (1523-1526)   ctgccaacaaagtctgaaaa (TC) 2-3 aagtttgttataaaaacagc   7375               ESD   23   intron 9 + 2468   atagaaggagaggctatact A/G cctccttaagtctcaggacc   7376               ESD   24   intron 9 + 3362   actaaggataaaaatatggc A/G tactcagtcacattggaact   7377               ESD   25   intron 9 + 5292   aggccttaatgacatatttc T/C cctcacataaagatacaaca   7378               ESD   26   intron 9 + 5298   taatgacatatttcccctca A/C ataaagatacaacatgcttt   7379               ESD   27   3′flanking + 798   tatggtaactgaagaaaatg A/G cattaagttcctaaagttat   7380               CEL   1   5′flanking − (611-617)   tggatcaaggcaaataattt (A) 6-7 ggaaattatttgaagaaaaa   7381               CEL   2   intron 1 + 20098   atctctaccaaggtaccaat T/G ccttaaggaagatyttaatt   7382               CEL   3   intron 1 + (20911-20924)   ctgaatatgactaaaactga   7383               CEL   4   intron 1 + 22374   ttaagttaaatgtaaacagc A/G cctttgcacactattcagtg   7384               CEL   5   intron 1 + (22460-22469)   ttaattttttagttaggttg (T) 9-10 ctcttttattttatcacatg   7385               CEL   6   intron 1 + 24205   agaatttgagtctattcttg T/G gtgccttctgactacatcct   7386               CEL   7   intron 1 + (24404-24417)   gcagatgataatcattctat   7387               CEL   8   intron 1 + 26983   tagattttgatgagtttgag T/G ttttttttttttttttccaa   7388               CEL   9   intron 1 + (26983-26999)   ccaaaagggtgggggttgtt   7389               CEL   10   intron 1 + (32166-32174)   tcaactttgctggtaaccag (A) 8-9 gaaaagccactattaatatc   7390               CEL   11   intron 1 + 37217   aaatttgtaagtgaatgtta T/G ataaaaatctgtaacaatta   7391               CEL   12   intron 1 + 37685   taattcaaatggattaatca T/A tgataatttctatttttaaa   7392               CEL   13   intron 1 + 38032   caggcctaataaatgaaatg T/C tcactactgttgccaacacc   7393               CEL   14   intron 1 + 38133   attcgggagtcctgtctgcc A/C tttgtagaaaccatccagct   7394               CEL   15   intron 1 + 38169   cagctcatcttcctactctt A/T gtgttggggatttttgcccc   7395               CEL   16   intron 1 + 38544   gtttctgtcaactctccaga T/C ataaaatcaaatgctcttcc   7396               CEL   17   intron 1 + (38642-38643)   caatttcttcacaatacctg (G) attgctgccaggcagcaata   7397               CEL   17   intron 1 + (38642-38643)   caatttcttcacaatacctg     attgctgccaggcagcaata   7398               CEL   18   intron 1 + 48429   gaaagagaaacttgtgtccc A/C gaaacttgtgtaagtatgcc   7399               CEL   19   intron 1 + 49038   ttgaaactgcactgacacta A/G tttaaattttacaagtaatt   7400               CEL   20   intron 1 + 49040   gaaactgcactgacactaat T/G taaattttacaagtaatttt   7401               CEL   21   intron 1 + 49256   acatgagaaaagaaatggag C/A taagtttaaaaacagaatga   7402               CEL   22   intron 1 + 49386   aatagttctcagtagatatt C/A ttttacctatatttagtata   7403               CEL   23   intron 1 + 50786   tactttgtcctcaccaatgc G/A tattcttcccctaaacagat   7404               CEL   24   intron 1 + 50977   ctccagccagagaygacaga T/C agctgagtttctgtttggct   7405               CEL   25   intron 1 + 51150   agcaccatggactgtttttg C/G agtcctcctctttattatgc   7406               CEL   26   intron 1 + 52333   tcagtcaaacttaaaggctc A/C gagatotattaatgcttatg   7407               CEL   27   intron 1 + 52589   gtgtcagcatctgtagagta C/A gggagggtgttgaaagaaaa   7408               CEL   28   intron 1 + 55838   tctcgcaggtaaatgaggat G/A gaatactttaaatacaaatc   7409               CEL   29   intron 1 + 56028   ataagtttggaaaatttgtg G/C taaaatacactaaatatttc   7410               CEL   30   intron 1 + 58738   tggtggagaaataggttata G/A tgctggtcaaactgtcccat   7411               CEL   31   intron 1 + 59358   cagaaattgtactttaaaat A/G cgaactgcaagcactgcagt   7412               CEL   32   intron 1 + 59359   agaaattgtactttaaaata C/T gaactgcaagcactgcagtc   7413               CEL   33   intron 1 + 59464   acccagaaaggagcatgtcc C/G tttgtcatttgtggtgaaac   7414               CEL   34   intron 1 + 61340   aaaaaaaacttcaaaatact C/G caatatccaaagttggtaca   7415               CEL   35   intron 1 + 62739   cagtctttaggcacaaagag A/G caaagagtcttctcatctct   7416               CEL   36   intron 1 + (64764-64779)   aatgtgggatagtggtataa   7417               CEL   37   intron 1 + 65243   tttcaggcttctggacagaa T/C agtattatgataaaagctat   7418               CEL   38   intron 1 + 65269   tatgataaaagctattaata T/A ttaggaagattcctctgact   7419               CEL   39   intron 1 + 65325   aattagaaaagcaagttttg G/C gggggggggtgcaaaacaaa   7420               CEL   40   intron 1 + (65326-65334)   attagaaaagcaagttttgg (G) 7-9 tgcaaaacaaaaaagaaaaa   7421               CEL   41   intron 1 + 65524   cacacccataaccaccagtt A/C gttgcctctcctgagccatg   7422               CEL   42   intron 1 + 65869   cagagtaacattcgggctcc A/T actgtcctttcttatagaga   7423               CEL   43   intron 1 + 65910   aaggctgtctcctgctgttt G/C tggatccaaggcctgctgaa   7424               CEL   44   intron 1 + 66000   gctgtgtttgcatgcctcac C/A gagcatattcactgtcctat   7425               CEL   45   intron 1 + (66226-66235)   tctgtttttgaaaaaacaag (A) 9-10 tctctccctgcctttggaaa   7426               CEL   46   intron 1 + 81816   aatgttgccttactttccac A/G tatttccagaagccctgatc   7427               CEL   47   intron 1 + 83480   tatgactgtcaggaagaaaa T/C tagaattatctttgtgtcct   7428               CEL   48   intron 1 + 83732   ggggtttgaaatctatggag T/C catttccttctttttaaaaa   7429               CEL   49   intron 1 + 85507   ctggaaagaaattttgtgtc A/T ctgcattatttaaatgttag   7430               CEL   50   intron 1 + 87299   caatggtcattatatcttcc G/A tgtgtgaagacagtcaagaa   7431               CEL   51   intron 1 + 87426   caacaggataatcccagaat G/C ctctgtCtgCCCttggctct   7432               CEL   52   intron 1 + 87670   tattttgttcctcatattca T/C gacatgacacaccaacataa   7433               CEL   53   intron 1 − (77494-77503)   ttggttcctgttttttcttt (A) 9-10 caactctgctaacaggggcc   7434               CEL   54   intron 1 − 77368   agctcaggggagagaacact G/C gggggaggcaagaaagcggg   7435               CEL   55   intron 1 − (75135-75129)   tggcggctggcccaaggggt (G) 6-7 tgggactcctctgacgcctc   7436               CEL   56   intron 1 − 74785   gctgcccacggaagctgggg G/C ctgttcgcctcttctcctgt   7437               CEL   57   intron 1 − 74755   tcttctcctgtgtccatgaa A/G cctcaggcctccaggtgcag   7438               CEL   58   intron 1 − 73099   ccccggggtctcctcctggc C/T tcttcttgccgccgcctgct   7439               CEL   59   intron 1 − 72559   agcagcagctgggccggtcc G/A tgcagggagtgaggtgggca   7440               CEL   60   intron 1 − 70098   acagggaggaaacagcaaaa T/C ctcaacactgttgatctcat   7441               CEL   61   intron 1 − 69440   gttggccatgagagaaaaca C/T aggaaggtattggaaaatga   7442               CEL   62   intron 1 − 65270   attctgcactggctgggaag G/C cttggcttgggcttcctggc   7443               CEL   63   intron 1 − 64434   ccacattagggagtggaatg C/T aacatctgaattaattttca   7444               CEL   64   intron 1 − 63966   agatcagacatcccccaccc C/T atcgcctagagaactgagcc   7445               CEL   65   intron 1 − 63916   gctgctcaccatgacctagc C/T ttcagggctgaccccagtcc   7446               CEL   66   intron 1 − 60392   tcctggggctccaggatgca C/T gtggaaatccctgggagcag   7447               CEL   67   intron 1 − 60321   aattacttgaaccccattcc A/T tcccaccccaacccttttcc   7448               CEL   68   intron 1 − 60318   tacttgaaccccattccatc C/T caccccaacccttttcctcc   7449               CEL   69   intron 1 − 56852   tgctccaagccctccccctg C/A gcccagcacgaccccatctc   7450               CEL   70   intron 1 − 56133   gctggctcgtgggatgtcta C/T ggggcttgcctggcaccccc   7451               CEL   71   intron 1 − 55964   ccccagcgcccctcagcccg G/A cctgagacttatcactgccc   7452               CEL   72   intron 1 − 52016   tcctggaactaggggtgggg G/A ggcactgccagtggccaggg   7453               CEL   73   intron 1 − 51998   gggggcactgccagtggcca G/A gggaggggactgcggggcac   7454               CEL   74   intron 1 − 51578   gtgggatcgacttgcatttt G/C gggggagaagcatccctggt   7455               CEL   75   intron 1 − 39557   ggcccagcacatggcttcca T/C gaggctctaagctccccaag   7456               CEL   76   intron 1 − 39490   gccctttcttccaggttgtc A/C tgggcactgatggtcaccag   7457               CEL   77   intron 1 − (31332-31340)   tccggacttctcattggctc (A) 8-9 ctcgctcggccctcggattc   7458               CEL   78   intron 1 − 19634   ttatttcagggctggccatc C/T tagctgcctgcaggagctgt   7459               CEL   79   intron 1 − 6589   gacgggtgatgcgagggact T/C gctgtcccccagtgtctggg   7460               CEL   80   intron 1 − (3340-3345)   gctggcagtgctggcctgtg (C) 4−Ωtcacatgtggtcgggttggg   7461               CEL   81   intron 3 + 35   tgccggactggccctgcggc G/A gggcgggtgagggcggctgc   7462               CEL   82   intron 6 + 157   gtggggagcggccttggtga C/T gggatttctgggtcccgtag   7463               CEL   83   exon 9 + 137   aacatggacggccacatctt C/T gccagcatcgacatgcctgc   7464               CEL   84   intron 9 + 41   tcaggggcgacccgtgcggg A/G gggccgccgggaaagcactg   7465               CEL   85   intron 9 + 151   ggggtgagtatgcacacacc T/C tcctgttggcacaggctgag   7466               CEL   86   exon 10 + 82   acgacctttgatgtctacac C/T gagtcctgggcccaggaccc   7467               CEL   87   exon 12 + 583   cccacgggtgactccggggc C/A ccccccgtgacccccacggg   7468               CEL   88   exon 12 + 759   gttttagcgtcccatgagcc T/C tggtatcaagaggccacaag   7469               IL17   1   5′flanking + 832   cctgagaaggaactattctc A/G aggacctgagtccaagttca   7470               IL17   2   5′flanking + 692   tgccccccttttctccatct C/T catcacctttgtccagtctc   7471               IL17   3   5′flanking + 76   ccctgaacccactgcgacac G/A ccacgtaagtgaccacagaa   7472               IL17   4   intron 1 + 18   gtggtgagtcctgcactaac G/A tgcgatgctcttgctgattt   7473               IL17   5   intron 1 + 126   ctgtatatgtaggataggaa A/G tgaaagctttggtaggtatt   7474               IL17   6   intron 1 + 762   ctgagaacaatggtgcagga G/A gatatttctacctagaaaat   7475               IL17   7   intron 2 + 594   tattttgatcatttgacttc A/T tacaaataagtctctgttct   7476               IL17   8   exon 3 + 1487   agctgatggggcagaacgaa C/T tttaagtatgagaaaagttc   7477               IL17   9   3′flanking + 657   ccctgaatctttttccttct G/T cctctccctcattcctaaca   7478               UCHL3   1   5′flanking − 1034   ataatgtgaagaagaaaaaa A/G agacactgctactgggctcc   7479               UCHL3   2   5′flanking − 490   cactcctgcaccccgacaaa G/C gaacaacagcaccgtgctgc   7480               UCHL3   3   5′flanking − 480   ccccgacaaacgaacaacag T/C accgtgctgcacggcgtcct   7481               UCHL3   4   5′flanking − 295   atgcgtagaacgcgagcgct T/C ggcaaggctcggctcggaag   7482               UCHL3   5   5′flanking − (25-11)   tgggcggaagcggcggcggc GGCGAAGGCGGCGGC/Δ   7483                   tgtcagagctggagggccgg               UCHL3   6   intron 2 + 28   aggtgtctgtcgctcgggac T/C tcggagtcttttctgtctgc   7484               UCHL3   7   intron 2 + (5639-5640)   aattttttattataataata (ATA) tataagtagaagaattatat   7485               UCHL3   7   intron 2 + (5639-5640)   aattttttattataataata     tataagtagaagaattatat   7486               UCHL3   8   intron 2 + 7862   aggtggattcacaccaccca G/A gctaactgctaacattttag   7487               UCHL3   9   intron 2 + (7936-7947)   aattgtaaaagtaggacatt   7488               UCHL3   10   intron 2 + (7975-7988)   gaagacgtgagtggtaaaag   7489               UCHL3   11   intron 2 + 8117   cctgactcatggcaatctgg A/C gtcaggatctaacaatatat   7490               UCHL3   12   intron 2 + 8361   ttgttagctttggctgacat G/A gagtagatttgcagtgaact   7491               UCHL3   13   intron 2 + 9800   taagatatagtgatgcattt C/T taatatgatttttgtttcct   7492               UCHL3   14   intron 2 + (10738-10747)   taccaactaatgttccattg (T) 9-10 ctttctttcttttaccagtt   7493               UCHL3   15   intron 3 + 11   tacagaaaaggtaattgtta A/T gtaaaatagaaagtttctgg   7494               UCHL3   16   intron 3 + (662-675)   cttaaatacagttttttcaa (TA) 6-7 aggaatcttctttgcttatt   7495               UCHL3   17   intron 3 + 866   tcaagtctacatattttagt T/C tttttttctagaatgatata   7496               UCHL3   18   intron 3 + (944-945)   tacatacgtatacgtatata                   (TGTATACGTATACATACGTATACATATATACATACGTATATA)   7497                   cgtacgtatatacgtatacg               UCHL3   18   intron 3 + (944-945)   tacatacgtatacgtatata     cgtacgtatatacgtatacg   7498               UCHL3   19   intron 3 + 5052   aggcagtcagctatagagcc T/C acatttttgatgcttattat   7499               UCHL3   20   intron 3 + 5282   acctctattaagtttttgca T/C accctttcagactttccaat   7500               UCHL3   21   intron 6 + 2191   tttctaggggtttcctagtg C/T gtagagcagtgattctcaag   7501               UCHL3   22   intron 6 + 8264   tctgcaagtcaaatgtgaag G/C caagaaagaaaaatccaaaa   7502               UCHL3   23   intron 6 + (8741-8744)   atgtgagtaaaccacaattt ATTT/Δ ttcatttccttaacttttga   7503               UCHL3   24   intron 6 + 9411   tcctctgtttagaatctact T/G ggcttttttggcccagccag   7504               UCHL3   25   intron 6 + 9459   tgtcagtggcagtaaatagt T/A taaagtttcatcttcattag   7505               UCHL3   26   intron 6 + 9772   gaaacaatacatgtatcatg T/C ggttcaagatgtagagtcca   7506               UCHL3   27   intron 6 + 10158   ttattttaaaggaaaattct C/T agaccgaacttaccagttca   7507               UCHL3   28   intron 6 + 10839   tttactaaaaaatctacaga A/C atccatttagaattaattta   7508               UCCH3   29   intron 6 + 12493   agtcaaattagttgacagtt A/G atggycgagtgaccttgcaa   7509               UCHL3   30   intron 6 + (20435-20437)   ttttttaattatgtagtcct CCT/Δ cgccatcctcatcacagcct   7510               UCHL3   31   intron 6 + 21202   ttgatctgatctttcctgcc C/T attcagtttctaaagatctt   7511               UCHL3   32   intron 6 + 21295   caaatttatgatttctcttt T/C ataggctaatgatatctgca   7512               UCHL3   33   intron 6 + 21639   taagaacaattaaaagtcaa C/T ggcaagcattctttccttcc   7513               UCHL3   34   intron 6 + 21778   tccatttctgctgagtatca A/G caaactcacatctctttcta   7514               UCHL3   35   intron 6 + 23299   cttttagattaaaggtgcaa T/C gatgcacaattttgagtcac   7515               UCHL3   36   intron 6 + 23498   tattcagttctctgactcca A/G ttgtactacttttacctcta   7516               UCHL3   37   intron 6 + 23790   ttagccttaaaaaattggac A/T ctcttctgattattgataaa   7517               UCHL3   38   intron 6 + 23894   actcattatcactgtcttca A/C atatttaaagaaatatgttc   7518               UCHL3   39   intron 6 + (24729-24732)   agtcttaatttcaaattgtt TGTT/Δ aagcatcaaagcaagagaaa   7519               UCHL3   40   intron 6 + (25083-25084)   catgtattcatttcattcag (A) taagtatgcaatgtgcatat   7520               UCHL3   40   intron 6 + (25083-25084)   catgtattcatttcattcag     taagtatgcaatgtgcatat   7521               UCHL3   41   intron 6 + 25084   catgtattcatttcattcag C/T aagtatgcaatgtgcatata   7522               UCHL3   42   intron 7 + 1342   gaagaagtcattattttggt G/A gtatataatggacctccagg   7523               UCHL3   43   intron 7 + 1387   ttttgaagatgtgccttgct G/A attgagtctacaaaatctgc   7524               UCHL3   44   intron 7 + 1760   actcggttttactagttaga T/G agctgtcttggctcagaggc   7525               UCHL3   45   intron 7 + 2096   taggtacattacaaagatgg G/A cagttgctgattcattgcaa   7526               UCHL3   46   intron 7 + 2873   ttaatgtattaattccctac T/G ctaataaattgtaaggttaa   7527               UCHL3   47   intron 7 + 7554   tctctgagcctcatggattc T/A tctgcagcgtatgcatttac   7528               UCHL3   48   intron 8 + 207   ctctatgaacaaatgtaaaa T/A ttgaaaaggcaagaatagta   7529               UCHL3   49   intron 8 + 252   aagacttgctcattatatcc C/C agatttcatcaaatccagga   7530               UCHL3   50   intron 8 + (883-892)   tttacactgaaaaatcatac (T) 9-10 cctccataggatgccataga   7531               DDOST   1   intron 2 629   attctgttaagaagttctta T/C attaagaaatattgtctcct   7532               DDOST   2   intron 2 3125   gagaatataggagcttctgc G/A tatgcctgaaagtcagtcag   7533               DDOST   3   intron 2 3920   attactcatttaatgaataa A/C tggattactgagcactgtct   7534               DDOST   4   intron 3 189   actgctgtccaggggtccat C/T tggggctgagcccagctgga   7535               DDOST   5   intron 6 185   ctgtcctcttgttcgggagg C/T gtggcagcttttcccttact   7536               DDOST   6   exon 8 37   aactatgaactagctgtggc C/T ctctcccgctgggtgttcaa   7537               DDOST   7   intron 9 37   tcctgcccaagaatgctgcc A/Δ aaaaacggccccaggcctca   7538               DDOST   8   intron 2 + 1299   atcttctgatgactgggctt C/T ggtgcagtaactggtgtttg   7539               DDOST   9   intron 2 + 1581   gatactgttggtgggagaaa T/C gacagagagtgtaaaacagt   7540               DDOST   10   intron 2 + 2822   gtttctcaacaggtgcattc T/C tgacgtttcagactggataa   7541               DDOST   11   intron 2 + 3392   cagaaggcgtggaggcctgc C/T gcgcctccctctgttgctgc   7542               DDOST   12   intron 5 + 495   attgcttgaacccaggaggc G/A gaggttgcagtgagccaagg   7543               DDOST   13   intron 6 + 226   ggaactgcttgggtcacagc C/T tcgttttgttcccagtatcc   7544               DDOST   14   intron 8 + 303   aagagaaataggtcattagg A/T tgaatttgttaggcaagaga   7545               DDOST   15   3′flanking + 40   cacagcgtggagacggggca G/A ggaggggggttattaggatt   7546               NTE   1   5′flanking − 535   cacgatctgtcctccgattc C/T tgttaactctagactttctg   7547               NTE   2   5′flanking − 15   gtaaatccccggcaaaaacc A/C gcagcgccttgcaagcccac   7548               NTE   3   5′flanking − 748   agcatggcgcggggaggagg C/T gtgggagggtcgggagggac   7549               NTE   4   5′flanking − 690   tgaataatttaaaggggccg T/C gcctgcggagccgggcggaa   7550               NTE   5   intron 6 + 605   tcttgccatatacttagtgg A/G ggggtctacatcaggggttt   7551               NTE   6   intron 6 + 748   agcctccagcctctcttctc C/T gggggttatctcaggcatct   7552               NTE   7   intron 6 + 987   ggtgctggctctgggatccc C/T gtgcgtcatgtagtctacct   7553               NTE   8   intron 6 + 1882   tggcctcaagcaatcctccc G/A cctcggcctcccaaagtgct   7554               NTE   9   intron 6 + 2222   gaatgtttatgtagaacaga G/A agactgtatctgcggtcttc   7555               NTE   10   intron 12 + 166   tatctggtaccgaggaagct C/C tggcctcgtccccaagggcc   7556               NTE   11   intron 13 + 69   atccaggtccaccgcctgcc C/T gtcttgattgttttaatctg   7557               NTE   12   intron 14 + 8   tgcccccgctcgggtaaggc C/T tgggaccctgcccggtggtg   7558               NTE   13   intron 16 − 113   gccaccgcgccctgcgcctt T/C atatttttcttaacccttcc   7559               NTE   14   intron 21 + 34   agagccggccggcccagagc A/C tgctgggagatgtagtccgg   7560               NTE   15   intron 21 + 128   gaagaaatcgtgcccctgag C/A gtttcaaaccctaagtagga   7561               NTE   16   intron 21 + 151   ttcaaaccctaagtaggacc C/C aggtgcagagcattctgggg   7562               NTE   17   intron 21 + 651   ccactgtactccagccggga C/T gacagagctagaacctgttt   7563               NTE   18   intron 21 + 737   tggaaaatagtctgtggatt C/T ttgtttaggactctgggcac   7564               NTE   19   intron 21 + 1752   acagctggtctaggctgtta C/C tggagaaactgggaagcaac   7565               NTE   20   intron 21 + 1788   gaagcaacagctgggtcaaa A/Δ gtagcttttcttttcttggc   7566               NTE   21   intron 21 + 1907   cactgcaacctctgcctccc A/C ggttcaagtgattctcctgc   7567               NTE   22   intron 21 + 2065   ctgcctcgttttatgttcag C/T tcccccattagacagaggaa   7568               NTE   23   intron 21 + 2336   agtctgggagcacaggagca C/A gaatttcagataaggaggaa   7569               NTE   24   intron 23 + 41   tggggagggtggtgggtggg C/C ctggagcctcaaattctttc   7570               NTE   25   intron 23 + 71   caaattctttcagacctgag T/C tcaagttctcggcttccaac   7571               NTE   26   intron 23 + 81   cagacctgagttcaagttct C/T ggcttccaaccacggagcct   7572               NTE   27   intron 24 + 150   gtggggcggctggtgacctc A/C gccgtccgtattccgcagct   7573               NTE   28   intron 29 + 37   gcctgcagcaaccgctgacg T/C cacgtggggttggggygatg   7574               NTE   29   intron 29 + 370   cgtcccaggtcagcgagccc G/A tcgggccggctgggcctccg   7575               NTE   30   intron 30 + 56   acctcccgcaccacacacac G/A cacacgcgtgggcacacaca   7576               NTE   31   intron 30 + 358   aaaaatacaaaaaattaacc A/G ggctggtggggtgtgcctgt   7577               NTE   32   intron 30 + 372   ttaaccaggctggtggggtg T/C gcctgtaatcccagctactc   7578               NTE   33   intron 30 + 430   aaatcacttgaacctgggag G/T tggaggttgcagtgagctga   7579               NTE   34   intron 30 + 655   gtgtgcacaccagctatata T/C gcaaatgctttctctcaggg   7580               NTE   35   intron 30 + 659   gcacaccagctatatatgca A/C atgctttctctcaggggcag   7581               NTE   36   intron 30 + 760   tgaaatagggcatttgccaa C/T gcatgccagtctgtcccgtt   7582               NTE   37   intron 30 + 835   gcacacacgtagataggatg T/C ggcacctctgaccgagttaa   7583               NTE   38   intron 31 + 40   tggtgcctgcatagytggtc T/C ggctaagctttgctacttaa   7584               NTE   39   intron 31 + 41   ggtgcctgcataggtggtct G/A gctaagctttgctacttaaa   7585               NTE   40   intron 31 + 1329   gtctgtcaagggcaggacag G/A ggatgtgtaggcgagtgtgc   7586               NTE   41   intron 35 + 31   aatggcttcctgtcgttttc G/A gactggggacccaccttctg   7587               L1CAM   1   intron 1 + 767   tttgacttccttacatgggt G/A actgtgtgagtcactctgtt   7588               L1CAM   2   intron 1 + 862   gcattgggtcatgtgtatgt G/C tgagtggggctgaatgtaag   7589               L1CAM   3   intron 1 + 1332   cagggatgaaggagcagagc C/T gctgagaggccacacaggtg   7590               L1CAM   4   intron 4 + 502   tttccctggggttttccctt T/C gcattccatcctccctgagc   7591               L1CAM   5   intron 18 + 147   agcgacgttatgaaattccc C/A acacttcacatttctataat   7592               L1CAM   6   intron 24 + 221   ctccttagccccccagaggg C/T cccaactttaagagcatact   7593               AANAT   1   5′flanking − 542   aggggtgcaggatggggtgt G/T agctggagggcagggggtag   7594               AANAT   2   5′flanking − 263   ccccccacataagaggtggg C/G ttgtccaagactccgaggga   7595               AANAT   3   intron 3 39   cgcccagctccagggaggcc T/A ctgaagacagaggtcagcca   7596               AANAT   4   exon 4 150   cagccggccgtgcgccgggc C/T gcgctcatgtgcgaggacgc   7597               ARD1   1   intron 1 + 317   ccgtcggtctgctcggcccc C/G ctccctcggggctgggcagg   7598               ARD1   2   intron 6 + 322   gctcctcagcatctgctcac G/A ccagggacccacacctctct   7599               ARD1   3   intron 6 + 1095   aaggctccatcctgagacaa A/C aagtccagtgtgacctgccc   7600               ARD1   4   intron 6 + 1179   aggaggaagacctgtatccc A/G gggacaccctcctccactcc   7601               ARD1   5   intron 7 + 159   cctccaggctgctaggcaga C/T ggcctcctctaaagcccagc   7602               ARD1   6   intron 7 + 295   tgaccagccctgccacccga G/T gagccttgggcagaaccctg   7603               ARD1   7   intron 7 + 416   actaccatggaggcccccac G/A acagagcgctgccccttgac   7604               NAT1   1   3′UTR 215   aataataataataataataa A/T aaatgtattttaaagatggc   7605               NAT2   1   exon 2 867   cgtgcccaaacctggtgatg G/A atcccttactatttagaata   7606               NAT2   2   3′flank 521   ccatccatactttgccacaa G/A agaaggaacatgagctttat   7607               NAT2   3   3′flank 573   gatttgaaatcctgtggaca C/T ggggtgaattacttttaaaa   7608               NAT2   4   3′flank 918   attttctgtttgtaaattcc A/G gtatcagggctatagtttaa   7609               NAT2   5   3′flank 979   actattctccctcttcgact C/T gtgatgactataataatctt   7610               NAT2   6   3′flank 1958   tacctattgaagtaagccta C/T gtcatatccacctatttgtt   7611               NAT2   7   3′flank 2034   ccactgattcccagagctag T/G tcattaagaagacagtgcct   7612               NAT2   8   3′flank 2201   cagattactggagggctact G/A tttgctcaccaatgcaaatg   7613               NAT2   9   3′flank 2818   gggatatttgtctcctttct C/G cccagtgcatgttggaaacc   7614               NAT2   10   3′flank 3237   atatatattccaattaaaaa A/Δ caaaataaatttccgaaact   7615               NAT2   11   3′flank 3386   caacaaagagattttttaaa G/A ctttttaaaacaccagacag   7616               NAT2   12   3′flank 3660   cagcactattcgcaatagca A/G agatgtggaatcaatctaaa   7617               NAT2   13   3′flank 3973   agcagaaaaaataaataatg C/T gtactaggcttactacctgc   7618               NAT2   14   3′flank 4029   caaaacaaacccccatgaca T/C gagtttatctatataacaaa   7619               NAT2   15   3′flank 4118   ataagattaatatctgcata C/A aaatctttgtttacagcttg   7620               NAT2   16   3′flank 4146   tgtttacagcttgttatata C/T tgaattatgtctgctccccc   7621               NAT2   17   3′flank 4279   ttaatctgataggattggtg G/C ctttataagaaaaagaaaag   7622               NAT2   18   3′flank 4323   ttgctctctccccagtgcag T/G taccaaggaaaggccatgtg   7623               NAT2   19   3′flank 4446   tcaattggctttatctgcga T/C tctggaatcaggcaatactc   7624               NAT2   20   3′flank 4462   gcgattctggaatcaggcaa T/C actccatttcataaaacaga   7625               NAT2   21   exon 2 + 288   atgttaggagggtattttta C/T atccctccagttaacaaata   7626               NAT2   22   5′flank − 2053   ctggattgcaacattttaat T/C ccaggtgtcaggtttccaac   7627               NAT2   23   5′flank − 1299   gaatcaccagtgcgggaggt A/G taacagtgaacccaagacac   7628               NAT2   24   5′flank − 1145   ctgtagaacacaagyatatt C/T ggaggcagtttgtacatgcc   7629               NAT2   25   5′flank − 1036   ccttcccacagagtcccgag T/A tcatgtggcagcatgccaga   7630               NAT2   26   5′flank − 94   aaagatttgctaagagattc G/A cagaggcaacctgaggccct   7631               NAT2   27   5′flank − 643   atgtttatattttatattaa T/C attaatgtaaataaaaattt   7632               ABCE2   1   5′flanking − 673   agctaagagtcaaagcaccc G/C ctttttccaccagcctcgcg   7633               ABCB2   2   5′flanking − 646   ccaccagcctcgcgtgcctg T/G tcccttcacggacactctag   7634               ABCB2   3   5′flanking − 563   ttgcaagcgctggctyctac A/C ggcgacctccctgcgctccc   7635               ABCB2   4   5′flanking − 236   gctttgcgcgcggcgctaac G/T tgtgtagggcagatctgccc   7636               ABCB2   5   intron 3 + 408   aaggaaactgaggccaagac C/T ctaaatyctgaaactgcaca   7637               ABCB2   6   exon 4 + 153   ccctcaccatggtcaccctg A/G tcaccctgcctctgcttttc   7638               ABCB2   7   intron 4 + 289   gtatttctttagcatccaag G/T ggcatagctgtgtctctttc   7639               ABCB2   8   intron 4 + 291   atttctttagcatccaaggg C/G catagctgtgtctctttctc   7640               ABCB2   9   intron 5 − 63   ttccttcaggttaatgactg C/T ggttctttgtgtcccctcca   7641               ABCB2   10   intron 7 − 185   gtctctgcccttgtctttgc C/T gcttcttctatctctactcc   7642               ABCB2   11   3′flanking + 71   agcgcacttttcagctgcgg G/A tgtctcctcttttatcatcc   7643               ABCB2   12   3′flanking + 129   aactgcatcaccttttccct T/C aagctttttaattcctatga   7644               ABCB2   13   3′flanking + 459   cattcagggaggcccaggtc G/A tgtgacgtcgacagttgctg   7645               ABCB3   1   intron 3 + 8   tctcctttggcaggtaggtg G/A tgggcagctgggtccatttg   7646               ABCB3   2   intron 4 + 104   cttcacccgtatgccaggac C/T tggggatgcttttctcttgt   7647               ABCB3   3   intron 10 + 219   gcagcagtggtgctccctcc A/G tgggcagccccgtcaggtcc   7648               ABCB3   4   intron 11 + (317-319)   atggtgcccaggtggatgtg GTG/t tccatctcattcctgtcttt   7649               ABCB3   5   exon 12 + 19   agctgcaggactggaattcc T/C gtggggatcgcacagtgctg   7650               ABCB3   6   exon 12 + (356-357)   aggtggggtggggtggggtg GG/TGGTGGGGTGGA   7651                   ggctgtctgtgtccaggaaa               GSTM3   1   5′flanking − 144   ccaacgccggcattagtcgc G/T cctgcgcacggccctgtgga   7652               GSTM3   2   intron 7 + 165   agcctaacttctataccttg A/G aggcactgtctacaaaaaaa   7653               GSTM3   3   intron 7 + 257   ctgttggactgggtggggtc T/G ttataagattggtgtatttt   7654               GSTM3   4   exon 8 + 91   cccagtggggcaacaagcct A/G tatgctgagcaggaggcaga   7655               GSTM4   1   intron 4 + 67   ttggctggattggggtgcta T/C gctcagagtgagtctgtgtt   7656               GSTM4   2   intron 7 + 77   gatgctttcccagtcctgga T/G ctgcataaagaataacttgc   7657               GSTM4   3   intron 7 + 80   gctttcccagtcctggatct G/A cataaagaataacttgcatt   7658               ALDH7   1   intron 1 + 464   catgaatgactctgggaaag A/G atcattcttagcaatggact   7659               ALDH7   2   intron 1 + 2269   aaatggaatccaaacagcaa G/G agacctcccctcaccggtca   7660               ALDH7   3   intron 2 + 1349   actgagcttctgccaccggc C/T gcctgccggccttcatgaga   7661               ALDH7   4   intron 2 + 1820   tccgtgtggaaggcaccttc C/G cccagcctcagtggctagga   7662               ALDH7   5   intron 2 + 2046   aacctcaggcgctgcctcag C/G cagggagccagcctggcccc   7663               ALDH7   6   intron 2 + 2939   aagcacgcactgaacatgga G/A tgagtgagtgaacgaatgaa   7664               ALDH7   7   intron 3 + 7   tgcccaagaacctggtgagc C/T ggccgggctgaggcgggcag   7665               ALDH7   8   intron 4 + 36   gccccttccggtcacccttc T/C ccgctcgaggcctcagggcc   7666               ALDH7   9   intron 6 + (116-117)   attctcctctctctctctct CT/Δ ggaccaggctgggagcagtc   7667               ALDH7   10   intron 6 + 263   cagaccctcatacgtgaccc T/C gctgccccccaggctcttag   7668               HMG17L1   1   3′untranslated + 864   ctttctgatttttgatagtc G/C gttgaagaagggagtttgaa   7669                  
 
      In some embodiments, a drug-metabolizing enzyme is at least one of the following: epoxide hydrolase, methyltransferase, N-acetyltransferase, sulfotransferase, quinone oxidereductase, glutathione S-transferase, UDP-glycosyltransferase, aldehyde dehydrogenase, alcohol dehydrogenase, esterase, NDUF, cytochrome P450 (CYP) and ATP-binding cassette.  
      The present invention relates to a method for detecting a genetic polymorphism in a test subject using the genetic polymorphism data related to a drug metabolizing enzyme. The present invention analyzes the effectiveness, safety and strength of drugs metabolized by a drug metabolizing enzyme. The relationship between a disease and the drug to be evaluated is based on the results of the analysis. The genetic polymorphism data for the drug metabolizing enzyme is different for each patient with a given disease. Therefore, the effectiveness and safety of a specific drug depends on drug metabolism in the presence of certain genetic polymorphism data and the side effects in the presence of certain genetic polymorphism data. As a result, a physician can determine whether a certain drug should be used by a certain patient and can tailor drugs for use by a certain patient based on the genetic polymorphism data (so-called “made-to-order” treatments).  
      “Drug metabolizing enzymes” refer to a group of enzymes that catalyze in vivo structural changes in exogenous materials including drugs. When used for clinical purposes, the group of metabolizing enzymes includes some endogenous materials. Because drug-metabolizing enzymes absorb, metabolize and secrete drugs, the polymorphism of an enzyme depends on the amount of enzyme expressed (transcription and translation) and the amount of activity. As a result, there are blood serum concentrations of both unchanged materials and metabolites.  
      Drug metabolizing enzymes expressed by the genes that are targeted for genetic polymorphism analysis in the present invention include, but are not limited to the following classes of enzymes:  
      Epoxide hydrolases  
      Methyltransferases  
      N-acetyltransferases  
      Sulfotransferases  
      Quinone oxidereductases  
      Glutathione S-transferases  
      UDP-glycosyltransferases  
      Aldehyde dehydrogenases  
      Alcohol dehydrogenases  
      Esterases  
      Ubiquinone dehydrogenases: NDUF  
      Cytochrome P450s (CYPs)  
      ATP-binding cassettes  
      ATP-binding cassettes/Transporters  
      Examples and descriptions of these enzymes are provided below.  
      (1) Epoxide hydrolases are enzymes that hydrolyze epoxide using a trans-cleavage mechanism to produce 1,2-glycol. Examples include microsomal epoxide hydrolase 1 and cytoplasmic epoxide hydrolase 2.  
      (2) Methyltransferases are enzymes that catalyze transmethylation in amino groups, hydroxyl groups and thiol groups. Examples include the following.  
      Catechol-O-methyltransferase  
      Vitamin-N-methyltransferase  
      Phenylethanolamine-N-methyltransferase  
      Phosphatidylethanolamine-N-methyltransferase  
      Nicotinamide-N-methyltransferase  
      Acetylserotonin-O-methyltransferase  
      Thiopurine S-methyltransferase  
      (3) N-acetyltransferases are enzymes that catalyze transacetylation in amino groups, sulfonamide groups and hydrazine groups. Examples include the following.  
      Arylamine-N-acetyltransferase 1, 2  
      Arylalkylamine-N-acetyltransferase  
      N-acetyltransferase homologues of  saccharomyces cerevisiae    
      LI intracellular adhesion molecules  
      (4) Sulfotransferases are enzymes that contribute to sulfate conjugation and catalyzes trans-sulfonylation in phenols, steroids, arylamines and biliary acid. Examples include the following.  
      Sulfotransferase 1A1, 1A2, 1A3, 1C, 1C2, 2A1, 2B1  
      Thyroid hormone sulfotransferase  
      Tyrosyl protein sulfotransferase 1, 2  
      Sulfotransferase-opening protein 3  
      Estrogen sulfotransferase  
      Cerebroside sulfotransferase  
      HNK-sulfotransferase 1  
      Carbohydrate sulfotransferase 2, 4, 5  
      Carbohydrate sulfotransferase 1, 3  
      (5) Quinone oxidereductases are enzymes that catalyze the reduction of quinones such as o-quinone and p-quinone. Examples include the following.  
      NAD(P)H: Quinone oxidereductase 1  
      NRH: Quinone oxidereductase 2  
      Quinone oxidereductase homologues  
      p53-induced gene 3 (PIG3) of a quinone oxide transferase homologue  
      (6) Glutathione S-transferases are enzymes that catalyze the conjugation of glutathione. Examples include the following.  
      Glutathione S-transferase Mu1, Mu2, Mu3, Mu4, Mu5  
      Glutathione S-transferase Z (zeta)  
      Glutathione S-transferase P (pi)  
      Glutathione S-transferase 1 T1 (zeta)  
      Glutathione S-transferase 1 Theta 1, Theta 2  
      Microsomal Glutathione S-transferase 1  
      Microsomal Glutathione S-transferase 1-1  
      Microsomal Glutathione S-transferase 2, 3  
      Microsomal Glutathione S-transferase Ha Subunit 1, 2  
      Microsomal Glutathione S-transferase A3, A4  
      Glutathione S-transferase A1, A4  
      Glutathione S-transferase M1, M2, M3, M4  
      (7) UDP-glycosyltransferases are enzymes that catalyze the contribution of glucuronic acid to functional groups such as hydroxyl groups, carboxyl groups, amino groups and thiol groups after their introduction in the 1 st drug metabolism route. Examples include the following.  
      UDP-glycosyltransferase 1  
      UDP-glycosyltransferase 1 Family Polypeptide A1  
      UDP-glycosyltransferase 2 Family Polypeptide A1, B7, B10, B4, B11, B15, B17  
      UDP-glycosyltransferase 8  
      Dolichyl-diP-oligosaccharide protein glycosyl transferase  
      (8) Aldehyde dehydrogenases are enzyme that converts aldehydes into carboxylic acids. Examples include Aldehyde dehydrogenase 1 through 10.  
      Aldehyde dehydrogenase 1 family member A1, A2, A3  
      Aldehyde dehydrogenase 1 family member B1  
      Formyltetrahydroforate dehydrogenase  
      Aldehyde dehydrogenase 2  
      Aldehyde dehydrogenase 3 family member A1, A2  
      Aldehyde dehydrogenase 3 family member B1, B2  
      Aldehyde dehydrogenase 5 family member A1  
      Aldehyde dehydrogenase 6 family member A1  
      Aldehyde dehydrogenase 8 family member A1  
      Aldehyde dehydrogenase 9 family member A1  
      (9) Alcohol dehydrogenases are enzymes that convert alcohols into aldehydes or ketones. Examples include the following.  
      Alcohol dehydrogenase 1 through 7  
      Hydroxy-CoA-dehydrogenase  
      Short-chain alcohol dehydrogenase family genes  
      (10) Esterases are enzymes that hydrolyze some esters. Examples include the following.  
      Arylacetoamide deacetylase  
      Granzyme A  
      Granzyme B  
      Interleukin 17  
      Ubiquitin carboxyl-terminal esterase L1, 3  
      Carboxyl esterase 1  
      Lipase A  
      Esterase D-formylglutathione hydrolase  
      Carboxylester lipase  
      Dolichyl-diphosphooligosaccharide-protein glycosyltransferase (DDOST)  
      Neuropathy target esterase  
      (11) Ubiquinone dehydrogenases (NDUF) are enzymes that support energy metabolism, e.g., as in the mitochondrial respiratory chain. Examples include NADH ubiquinone dehydrogenase 1a Subunit 1 through 10.  
      NADH-dehydrogenase (ubiquinone)1α-subcomplex 1 through 3 and 5 through 10  
      NADH-dehydrogenase (ubiquinone)1α/β-subcomplex 1  
      NADH-dehydrogenase (ubiquinone)1β-subcomplex 3, 5, 7  
      NADH-dehydrogenase (ubiquinone) Fe—S protein 1, 3, 4, 5, 6, 8  
      NADH-dehydrogenase (ubiquinone) flavoprotein 1 through 3  
      (12) Cytochrome P450s (CYPs) are enzymes that regulate 1st drug metabolism and introduce oxygen atoms to the drug. Examples include Cytochrome P450 (CYP) 1A1, CYP1A2, CYP1B1, CYP 2A6, CYP 2B6, CYP 2C8, CYP 2C18, CYP 2C9, CYP 2C19, CYP 2E1, CYP 2D6, CYP 2E1, CYP 2F1, CYP 3A3, CYP 3A4, CYP 3A5, CYP 3A7, CYP 3A43, CYP 4A11, CYP 4B1, CYP 4F2, CYP 4F3, CYP 4F8, CYP11B1, CYP 1B2, CYP17, CYP19, CYP 21A2, CYP 21A1, CYP 27B1 and CYP 27.  
      (13) ATP-binding cassettes absorb the drug and adjust the interstitial concentration with a transporter. Examples include the following. 
          ATP-Binding Cassette Subfamily A Members 1 through 6, 8     ATP-Binding Cassette Subfamily A Members 1, 4, 7, 8     ATP-Binding Cassette Subfamily B Members 1 through 11     ATP-Binding Cassette Subfamily B Members 1, 4, 7, 8, 9, 10, 11     ATP-Binding Cassette Subfamily C Members 1 through 6, 8 through 10     ATP-Binding Cassette Subfamily C Members 1, 2, 3, 4, 5, 7, 8, 9     ATP-Binding Cassette Subfamily D Members 1 through 4     ATP-Binding Cassette Subfamily D Members 1, 3, 4     ATP-Binding Cassette Subfamily E Members 1     ATP-Binding Cassette Subfamily F Members 1 through 3     ATP-Binding Cassette Subfamily F Member 1     ATP-Binding Cassette Subfamily G Members 1     ATP-Binding Cassette Subfamily G Members 1, 2, 4, 8     Organic anion transporters 1, 2, 3     Organic anion transporter polypeptides 1, 2, 8     Transporter 1 ATP-binding cassette subfamily B     Transporter 2 ATP-binding cassette subfamily B     SLC22A4 solute carrier family 22 (organic cation transporter) member 4     SLC22A5 solute carrier family 22 (organic cation transporter) member 5     SLC22A1 solute carrier family 22 (organic cation transporter) member 1     SLC22A2 solute carrier family 22 (organic cation transporter) member 2     SLC10A2 solute carrier family 10 (sodium/bile acid cotransporter family) member 2     SLC15A1 solute carrier family 15 (oligopeptide transporter) member 1        

      (14) Other enzymes include gamma glutamyl transferase 1, transglutaminase 1 and dihydropyrimidine dihydrogenase.  
      Genetic polymorphism data relating to DMEs can be obtained using any general genetic polymorphism detection method. Examples include, but are not limited to, PCR or other amplification methods, hybridization methods using an allele-specific oligonucleotide matrix (e.g., TAQMAN PCR method, INVADER assay method), primer extension reaction methods, sequencing methods, MALDI-TOF/MS methods and the DNA chip methods (e.g., microarrays). Examples of detection methods that are applicable to analysis of the DME associated polymorphisms of the present invention include but are not limited to those listed below.  
      1. Direct Sequencing Assays  
      In some embodiments of the present invention, variant sequences are detected using a direct sequencing technique. In these assays, DNA samples are first isolated from a subject using any suitable method. In some embodiments, the region of interest is cloned into a suitable vector and amplified by growth in a host cell (e.g., a bacteria). In other embodiments, DNA in the region of interest is amplified using PCR.  
      Following amplification, DNA in the region of interest (e.g., the region containing the SNP or mutation of interest) is sequenced using any suitable method, including but not limited to manual sequencing using radioactive marker nucleotides, or automated sequencing. The results of the sequencing are displayed using any suitable method. The sequence is examined and the presence or absence of a given SNP or mutation is determined.  
      2. PCR Assay  
      In some embodiments of the present invention, variant sequences are detected using a PCR-based assay. In some embodiments, the PCR assay comprises the use of oligonucleotide primers that hybridize only to the variant or wild type allele (e.g., to the region of polymorphism or mutation). Both sets of primers are used to amplify a sample of DNA. If only the mutant primers result in a PCR product, then the patient has the mutant allele. If only the wild-type primers result in a PCR product, then the patient has the wild type allele.  
      3. Fragment Length Polymorphism Assays  
      In some embodiments of the present invention, variant sequences are detected using a fragment length polymorphism assay. In a fragment length polymorphism assay, a unique DNA banding pattern based on cleaving the DNA at a series of positions is generated using an enzyme (e.g., a restriction enzyme or a CLEAVASE I [Third Wave Technologies, Madison, Wis.] enzyme). DNA fragments from a sample containing a SNP or a mutation will have a different banding pattern than wild type.  
      a. RFLP Assay  
      In some embodiments of the present invention, variant sequences are detected using a restriction fragment length polymorphism assay (RFLP). The region of interest is first isolated using PCR. The PCR products are then cleaved with restriction enzymes known to give a unique length fragment for a given polymorphism. The restriction-enzyme digested PCR products are generally separated by gel electrophoresis and may be visualized by ethidium bromide staining. The length of the fragments is compared to molecular weight markers and fragments generated from wild-type and mutant controls.  
      b. CFLP Assay  
      In other embodiments, variant sequences are detected using a CLEAVASE fragment length polymorphism assay (CFLP; Third Wave Technologies, Madison, Wis.; See e.g., U.S. Pat. Nos. 5,843,654; 5,843,669; 5,719,208; and 5,888,780; each of which is herein incorporated by reference). This assay is based on the observation that when single strands of DNA fold on themselves, they assume higher order structures that are highly individual to the precise sequence of the DNA molecule. These secondary structures involve partially duplexed regions of DNA such that single stranded regions are juxtaposed with double stranded DNA hairpins. The CLEAVASE I enzyme, is a structure-specific, thermostable nuclease that recognizes and cleaves the junctions between these single-stranded and double-stranded regions.  
      The region of interest is first isolated, for example, using PCR. In preferred embodiments, one or both strands are labeled. Then, DNA strands are separated by heating. Next, the reactions are cooled to allow intrastrand secondary structure to form. The PCR products are then treated with the CLEAVASE I enzyme to generate a series of fragments that are unique to a given SNP or mutation. The CLEAVASE enzyme treated PCR products are separated and detected (e.g., by denaturing gel electrophoresis) and visualized (e.g., by autoradiography, fluorescence imaging or staining). The length of the fragments is compared to molecular weight markers and fragments generated from wild-type and mutant controls.  
      4. Hybridization Assays  
      In preferred embodiments of the present invention, variant sequences are detected a hybridization assay. In a hybridization assay, the presence of absence of a given SNP or mutation is determined based on the ability of the DNA from the sample to hybridize to a complementary DNA molecule (e.g., a oligonucleotide probe). A variety of hybridization assays using a variety of technologies for hybridization and detection are available. A description of a selection of assays is provided below.  
      a. Direct Detection of Hybridization  
      In some embodiments, hybridization of a probe to the sequence of interest (e.g., a SNP or mutation) is detected directly by visualizing a bound probe (e.g., a Northern or Southern assay; See e.g., Ausabel et al. (eds.), Current Protocols in Molecular Biology, John Wiley &amp; Sons, NY [1991]). In a these assays, genomic DNA (Southern) or RNA (Northern) is isolated from a subject. The DNA or RNA is then cleaved with a series of restriction enzymes that cleave infrequently in the genome and not near any of the markers being assayed. The DNA or RNA is then separated (e.g., on an agarose gel) and transferred to a membrane. A labeled (e.g., by incorporating a radionucleotide) probe or probes specific for the SNP or mutation being detected is allowed to contact the membrane under a condition or low, medium, or high stringency conditions. Unbound probe is removed and the presence of binding is detected by visualizing the labeled probe.  
      b. Detection of Hybridization Using “DNA Chip” Assays  
      In some embodiments of the present invention, variant sequences are detected using a DNA chip hybridization assay. In this assay, a series of oligonucleotide probes are affixed to a solid support. The oligonucleotide probes are designed to be unique to a given SNP or mutation. The DNA sample of interest is contacted with the DNA “chip” and hybridization is detected.  
      In some embodiments, the DNA chip assay is a GeneChip (Affymetrix, Santa Clara, Calif.; See e.g., U.S. Pat. Nos. 6,045,996; 5,925,525; and 5,858,659; each of which is herein incorporated by reference) assay. The GeneChip technology uses miniaturized, high-density arrays of oligonucleotide probes affixed to a “chip.” Probe arrays are manufactured by Affymetrix&#39;s light-directed chemical synthesis process, which combines solid-phase chemical synthesis with photolithographic fabrication techniques employed in the semiconductor industry. Using a series of photolithographic masks to define chip exposure sites, followed by specific chemical synthesis steps, the process constructs high-density arrays of oligonucleotides, with each probe in a predefined position in the array. Multiple probe arrays are synthesized simultaneously on a large glass wafer. The wafers are then diced, and individual probe arrays are packaged in injection-molded plastic cartridges, which protect them from the environment and serve as chambers for hybridization.  
      The nucleic acid to be analyzed is isolated, amplified by PCR, and labeled with a fluorescent reporter group. The labeled DNA is then incubated with the array using a fluidics station. The array is then inserted into the scanner, where patterns of hybridization are detected. The hybridization data are collected as light emitted from the fluorescent reporter groups already incorporated into the target, which is bound to the probe array. Probes that perfectly match the target generally produce stronger signals than those that have mismatches. Since the sequence and position of each probe on the array are known, by complementarity, the identity of the target nucleic acid applied to the probe array can be determined.  
      In other embodiments, a DNA microchip containing electronically captured probes (Nanogen, San Diego, Calif.) is utilized (See e.g., U.S. Pat. Nos. 6,017,696; 6,068,818; and 6,051,380; each of which are herein incorporated by reference). Through the use of microelectronics, Nanogen&#39;s technology enables the active movement and concentration of charged molecules to and from designated test sites on its semiconductor microchip. DNA capture probes unique to a given SNP or mutation are electronically placed at, or “addressed” to, specific sites on the microchip. Since DNA has a strong negative charge, it can be electronically moved to an area of positive charge.  
      First, a test site or a row of test sites on the microchip is electronically activated with a positive charge. Next, a solution containing the DNA probes is introduced onto the microchip. The negatively charged probes rapidly move to the positively charged sites, where they concentrate and are chemically bound to a site on the microchip. The microchip is then washed and another solution of distinct DNA probes is added until the array of specifically bound DNA probes is complete.  
      A test sample is then analyzed for the presence of target DNA molecules by determining which of the DNA capture probes hybridize, with complementary DNA in the test sample (e.g., a PCR amplified gene of interest). An electronic charge is also used to move and concentrate target molecules to one or more test sites on the microchip. The electronic concentration of sample DNA at each test site promotes rapid hybridization of sample DNA with complementary capture probes (hybridization may occur in minutes). To remove any unbound or nonspecifically bound DNA from each site, the polarity or charge of the site is reversed to negative, thereby forcing any unbound or nonspecifically bound DNA back into solution away from the capture probes. A laser-based fluorescence scanner is used to detect binding, In still further embodiments, an array technology based upon the segregation of fluids on a flat surface (chip) by differences in surface tension (ProtoGene, Palo Alto, Calif.) is utilized (See e.g., U.S. Pat. Nos. 6,001,311; 5,985,551; and 5,474,796; each of which is herein incorporated by reference). Protogene&#39;s technology is based on the fact that fluids can be segregated on a flat surface by differences in surface tension that have been imparted by chemical coatings. Once so segregated, oligonucleotide probes are synthesized directly on the chip by ink-jet printing of reagents. The array with its reaction sites defined by surface tension is mounted on a X/Y translation stage under a set of four piezoelectric nozzles, one for each of the four standard DNA bases. The translation stage moves along each of the rows of the array and the appropriate reagent is delivered to each of the reaction site. For example, the A amidite is delivered only to the sites where amidite A is to be coupled during that synthesis step and so on. Common reagents and washes are delivered by flooding the entire surface and then removing them by spinning.  
      DNA probes unique for the SNP or mutation of interest are affixed to the chip using Protogene&#39;s technology. The chip is then contacted with the PCR-amplified genes of interest. Following hybridization, unbound DNA is removed and hybridization is detected using any suitable method (e.g., by fluorescence de-quenching of an incorporated fluorescent group).  
      In yet other embodiments, a “bead array” is used for the detection of polymorphisms (Illumina, San Diego, Calif.; See e.g., PCT Publications WO 99/67641 and WO 00/39587, each of which is herein incorporated by reference). Illumina uses a BEAD ARRAY technology that combines fiber optic bundles and beads that self-assemble into an array. Each fiber optic bundle contains thousands to millions of individual fibers depending on the diameter of the bundle. The beads are coated with an oligonucleotide specific for the detection of a given SNP or mutation. Batches of beads are combined to form a pool specific to the array. To perform an assay, the BEAD ARRAY is contacted with a prepared subject sample (e.g., DNA). Hybridization is detected using any suitable method.  
      C. Enzymatic Detection of Hybridization  
      In some embodiments of the present invention, hybridization is detected by enzymatic cleavage of specific structures (INVADER assay, Third Wave Technologies; See e.g., U.S. Pat. Nos. 5,846,717, 6,090,543; 6,001,567; 5,985,557; and 5,994,069; each of which is herein incorporated by reference). The INVADER assay detects specific DNA and RNA sequences by using structure-specific enzymes to cleave a complex formed by the hybridization of overlapping oligonucleotide probes. Elevated temperature and an excess of one of the probes enable multiple probes to be cleaved for each target sequence present without temperature cycling. These cleaved probes then direct cleavage of a second labeled probe. The secondary probe oligonucleotide can be 5′-end labeled with a fluorescent dye that is quenched by a second dye or other quenching moiety. Upon cleavage, the de-quenched dye-labeled product may be detected using a standard fluorescence plate reader, or an instrument configured to collect fluorescence data during the course of the reaction (i.e., a “real-time” fluorescence detector, such as an ABI 7700 Sequence Detection System, Applied Biosystems, Foster City, Calif.).  
      The INVADER assay detects specific mutations and SNPs in unamplified genomic DNA. In an embodiment of the INVADER assay used for detecting SNPs in genomic DNA, two oligonucleotides (a primary probe specific either for a SNP/mutation or wild type sequence, and an INVADER oligonucleotide) hybridize in tandem to the genomic DNA to form an overlapping structure. A structure-specific nuclease enzyme recognizes this overlapping structure and cleaves the primary probe. In a secondary reaction, cleaved primary probe combines with a fluorescence-labeled secondary probe to create another overlapping structure that is cleaved by the enzyme. The initial and secondary reactions can run concurrently in the same vessel. Cleavage of the secondary probe is detected by using a fluorescence detector, as described above. The signal of the test sample may be compared to known positive and negative controls.  
      In some embodiments, hybridization of a bound probe is detected using a TAQMAN assay (PE Biosystems, Foster City, Calif.; See e.g., U.S. Pat. Nos. 5,962,233 and 5,538,848, each of which is herein incorporated by reference). The assay is performed during a PCR reaction. The TAQMAN assay exploits the 5′-3′ exonuclease activity of DNA polymerases such as AMPLITAQ DNA polymerase. A probe, specific for a given allele or mutation, is included in the PCR reaction. The probe consists of an oligonucleotide with a 5′-reporter dye (e.g., a fluorescent dye) and a 3′-quencher dye. During PCR, if the probe is bound to its target, the 5′-3′ nucleolytic activity of the AMPLITAQ polymerase cleaves the probe between the reporter and the quencher dye. The separation of the reporter dye from the quencher dye results in an increase of fluorescence. The signal accumulates with each cycle of PCR and can be monitored with a fluorimeter.  
      In still further embodiments, polymorphisms are detected using the SNP-IT primer extension assay (Orchid Biosciences, Princeton, N.J.; See e.g., U.S. Pat. Nos. 5,952,174 and 5,919,626, each of which is herein incorporated by reference). In this assay, SNPs are identified by using a specially synthesized DNA primer and a DNA polymerase to selectively extend the DNA chain by one base at the suspected SNP location. DNA in the region of interest is amplified and denatured. Polymerase reactions are then performed using miniaturized systems called microfluidics. Detection is accomplished by adding a label to the nucleotide suspected of being at the SNP or mutation location. Incorporation of the label into the DNA can be detected by any suitable method (e.g., if the nucleotide contains a biotin label, detection is via a fluorescently labeled antibody specific for biotin).  
      5. Other Detection Assays  
      Additional detection assays that are produced and utilized using the systems and methods of the present invention include, but are not limited to, enzyme mismatch cleavage methods (e.g., Variagenics, U.S. Pat. Nos. 6,110,684, 5,958,692, 5,851,770, herein incorporated by reference in their entireties); polymerase chain reaction; branched hybridization methods (e.g., Chiron, U.S. Pat. Nos. 5,849,481, 5,710,264, 5,124,246, and 5,624,802, herein incorporated by reference in their entireties); rolling circle replication (e.g., U.S. Pat. Nos. 6,210,884 and 6,183,960, herein incorporated by reference in their entireties); NASBA (e.g., U.S. Pat. No. 5,409,818, herein incorporated by reference in its entirety); molecular beacon technology (e.g., U.S. Pat. No. 6,150,097, herein incorporated by reference in its entirety); E-sensor technology (Motorola, U.S. Pat. Nos. 6,248,229, 6,221,583, 6,013,170, and 6,063,573, herein incorporated by reference in their entireties); cycling probe technology (e.g., U.S. Pat. Nos. 5,403,711, 5,011,769, and 5,660,988, herein incorporated by reference in their entireties); Dade Behring signal amplification methods (e.g., U.S. Pat. Nos. 6,121,001, 6,110,677, 5,914,230, 5,882,867, and 5,792,614, herein incorporated by reference in their entireties); ligase chain reaction (Barnay Proc. Natl. Acad. Sci USA 88, 189-93 (1991)); and sandwich hybridization methods (e.g., U.S. Pat. No. 5,288,609, herein incorporated by reference in its entirety).  
      6. Mass Spectroscopy Assay  
      In some embodiments, a MassARRAY system (Sequenom, San Diego, Calif.) is used to detect variant sequences (See e.g., U.S. Pat. Nos. 6,043,031; 5,777,324; and 5,605,798; each of which is herein incorporated by reference). DNA is isolated from blood samples using standard procedures. Next, specific DNA regions containing the mutation or SNP of interest, about 200 base pairs in length, are amplified by PCR. The amplified fragments are then attached by one strand to a solid surface and the non-immobilized strands are removed by standard denaturation and washing. The remaining immobilized single strand then serves as a template for automated enzymatic reactions that produce genotype specific diagnostic products.  
      Very small quantities of the enzymatic products, typically five to ten nanoliters, are then transferred to a SpectroCHIP array for subsequent automated analysis with the SpectroREADER mass spectrometer. Each spot is preloaded with light absorbing crystals that form a matrix with the dispensed diagnostic product. The MassARRAY system uses MALDI-TOF (Matrix Assisted Laser Desorption Ionization-Time of Flight) mass spectrometry. In a process known as desorption, the matrix is hit with a pulse from a laser beam. Energy from the laser beam is transferred to the matrix and it is vaporized resulting in a small amount of the diagnostic product being expelled into a flight tube. As the diagnostic product is charged when an electrical field pulse is subsequently applied to the tube they are launched down the flight tube towards a detector. The time between application of the electrical field pulse and collision of the diagnostic product with the detector is referred to as the time of flight. This is a very precise measure of the product&#39;s molecular weight, as a molecule&#39;s mass correlates directly with time of flight with smaller molecules flying faster than larger molecules. The entire assay is completed in less than one thousandth of a second, enabling samples to be analyzed in a total of 3-5 second including repetitive data collection. The SpectroTYPER software then calculates, records, compares and reports the genotypes at the rate of three seconds per sample.  
      In some embodiments, the present invention provides an oligonucleotide comprising a DME related sequence, or a complement of a DME-related sequence. In preferred embodiments, an oligonucleotide of the present invention comprises a sequence or a complement of a sequence selected from the group consisting SEQ ID NOs. 1-7669, or a substantially similar sequence.  
      In some embodiments, an oligonucleotide probe or oligonucleotide primer is created so the 5′ terminus, 3′ terminus or central base contains the genetic polymorphism site. In some preferred embodiments, an oligonucleotide is created comprising at least 13 contiguous bases of a sequence selected from SEQ ID NOs 1 through 7669, or the complement thereto, and further comprising the 21 st  nucleotide of the sequence selected from SEQ ID NOs 1 through 7669, or the complement thereto.  
      In some embodiments, an oligonucleotide of the present invention flanks or is adjacent to a polymorphic site, such that the presence of the polymorphism can be detected by modification of the oligonucleotide in a manner dependent on the presence or absence of the polymorphism.  
      In some embodiments, the present invention provides kits comprising one or more of the components necessary for practicing the present invention. For example, the present invention provides kits for storing or delivering the enzymes of the present invention and/or the reaction components necessary to practice a cleavage assay (e.g., the INVADER assay). The kit may include any and all components necessary or desired for the enzymes or assays including, but not limited to, the reagents themselves, buffers, control reagents (e.g., tissue samples, positive and negative control target oligonucleotides, etc.), solid supports, labels, written and/or pictorial instructions and product information, inhibitors, labeling and/or detection reagents, package environmental controls (e.g., ice, desiccants, etc.), and the like. In some embodiments, the kits provide a sub-set of the required components, wherein it is expected that the user will supply the remaining components. In some embodiments, the kits comprise two or more separate containers wherein each container houses a subset of the components to be delivered. For example, a first container (e.g., box) may contain an enzyme (e.g., structure specific cleavage enzyme in a suitable storage buffer and container), while a second box may contain oligonucleotides (e.g., INVADER oligonucleotides, probe oligonucleotides, control target oligonucleotides, etc.). In some embodiments one or more the reaction components may be provided in a predispensed format (i.e., pre-measured for use in a step of the procedure without re-measurement or re-dispensing). In some embodiments, selected reaction components are mixed and predispensed together. In preferred embodiments, predispensed reaction components are predispensed and are provided in a reaction vessel (including but not limited to a reaction tube or a well, as in, e.g., a microtiter plate). In particularly preferred embodiments, predispensed reaction components are dried down (e.g., desiccated or lyophilized) in a reaction vessel.  
      Examples of genetic polymorphism data (especially the SNP data) that can be used in the method of the present invention are shown in Table 1.  
      In Table 1, the name of the gene encoding the drug metabolizing enzyme is recorded in the gene name column. The base in capital letters is the SNP data in the sequence column. Two bases separated by a forward slash indicate the SNP of homo and hetero bases. For example, A/G indicates a homo allele A/A and G/G as well as a hetero allele A/G. The sequences in this table have 20 bases before and after the SNP. Here, the base in parentheses, for example the 26th (T) in ABCB4, indicates a polymorphism with an inserted base, and D, such as the 10th spot in NAT2, indicates a polymorphism with a deleted base. In Sequence No. 674, n is VNTR and (cctgy)x, where x is an integer between 1 and 50, indicates a repeated sequence. The bases with numbers in parentheses indicate the number of times they are repeated. For example, “(T) 9-12” in Sequence No. 1552 (ABCB11 No. 55 in Table 1) indicates T is repeated 9 to 12 times.  
      Here, “position” indicates the position of the SNP genome. The position of SNPs in the 5′ flanking region, intron region and 3′ flanking region are intron base sequences counted as a single number starting at the exon-intron junction. The position of SNPs in the exon region are exon base sequences counted as a single number starting at the exon-intron junction. Also, (+) or no symbol indicates a number counted in the 3′ upstream direction and (−) indicates a number counted in the 5′ downstream direction. The number in the “number” column indicates the position of the SNP in the gene maps of the various genes ( FIG. 9  through  FIG. 141  and  FIG. 144  through  312 ).  
      The sequence represented by the SEQ ID Nos. 1-7669 can readily be associated with the corresponding gene, chromosome, and chromosomal position. Each of the genes shown in Table 1 correlates to a corresponding Figure in the present application. The Figures show a map of the gene with positional identifiers for each of the polymorphisms. The Figures also provide an accession number that correlates to public genome databases, allowing the genetic context of the polymorphism and the gene to be understood. Using the information in Table 1, the Figures, and public genome databases, one skilled in the art is able to identify flanking sequences. This allows, for example, the development of PCR primers that flank the polymorphism. Considerations for PCR primer design are known in the art for both single PCR reactions and multiplex reactions (See e.g., Henegariu et al., BioTechniques 23:504-511 [1997] and PCR Applications, edited by Innis, Gelfand, and Sninsky, Academic Press, San Diego, Calif. 1999), each of which is herein incorporated by references in its entirety). Examples of primers that find use in the amplification of sequences containing polymorphisms, as well as amplification conditions, are found at the IMS-JST JSNP database website (See, submissions from Laboratory for Genotyping, The SNP Research Center, The Institute of Physical and Chemical Research (RIKEN)).  
      One example of information generated using SEQ ID Nos. 1-7669 and information in publicly available databases is provided in  FIG. 143 . The first column in this figure shows that 3360 entries are made, corresponding to the first 3360 entries found in Table 1. The second column, entitled “GENE” provides a gene name abbreviation, while the next column provides a long gene name. The next columns show the chromosome (CHROM), a reference mRNA accession number (REF. mRNA), a locus link database accession number (L-LINK), an OMIM database accession number (OMIM_ID) which allows disease association information to be readily obtained, the exon count for the gene (EXONS), and the number of polymorphisms in the gene (NO GENE).  
      Creating an Oligonucleotide Probe or Oligonucleotide Primer  
      In some embodiments, an oligonucleotide used as a primer and/or probe in the detection method of the present invention serves as the template of the base sequences (Sequence No. 1 through 7669) shown in Table 1 if, for example, a SNP is to be detected. The primer/probe can be designed so it is synthesized as the base sequence itself or as a portion of the base sequence. In preferred embodiments, the SNP is included in the base sequence of the primer/probe (and denoted in capital letters in the base sequence column of Table 1). The primers/probes may also be complementary to the non-mutant sequence.  
      The SNP in the following example is designed so it is on the 3′ or 5′ end of the base sequence. It is designed to be within four bases of the 3′ or 5′ end, and ideally within two bases of the end. The SNP can also be in the center of the oligonucleotide base sequence. Here, “center” means the number of the bases from the SNP base to the 5′ end is substantially equal to the number of bases from the SNP base to the 3′ end. If there is an odd number of bases in the oligonucleotide, the central region should be essentially five bases in length, preferably three bases in length, and ideally one base in length. In a base sequence with 41 bases, for example, the central region should be bases 19 through 23, preferably bases 20 through 22, and ideally base 21. If there is an even number of bases, the central region should be four bases and ideally two bases. In a base sequence of 40 bases, for example, the central region should be bases 19 through 22 and ideally base 20.  
      If the polymorphism consists of a plurality of bases, in some embodiments, the probe/primer is designed so the full polymorphism sequence is contained in the probe/primer. In some preferred embodiments, it is designed so one of the bases 1 through 4 on the 5′ end or 3′ end complementing the primer DNA corresponds to the base at the very end of the polymorphism bases. (This is called the “corresponding base”; ideally, it is the base at the 5′ or 3′ end). For example, in the INVADER assay, if a probe and INVADER oligonucleotide are prepared to detect a genetic polymorphism (CAGAGGCT) in No. 12 of NDUFA7 in Table 1 (Sequence No. 828), the position of the corresponding base in the probe in  FIG. 4   a  (a “T” base in the figure) is designed to become “C” at the far left of sequence CAGAGGCT, and the N base in the INVADER oligonucleotide shown in  FIG. 4   b  is designed to replace the “C” at the far left of CAGAGGCT with A, T, C or G). Conversely, if designed so the position of the corresponding base in the INVADER oligonucleotide is the far right “T” in CAGAGGCT, the “N” base is such that the corresponding base in the probe is “T.” Further, the corresponding base of the INVADER oligonucleotide and the allele probe can be set anywhere in the CAGAGGCT sequence.  
      In preferred embodiments, the length of the base sequence is at least 13 bases, preferably between 13 and 60 bases, more preferably between 15 and 40 bases, and ideally between 18 and 30 bases. These oligonucleotide base sequences can be used as probes, as forward (sense) primers or as reverse (anti-sense) primers to detect target genes.  
      These oligonucleotides can link regions hybridized with genome DNA in tandem to unhybridized regions. The linking order can be upstream or downstream. The hybridized regions in these oligonucleotides can be designed from base sequence data containing the SNP described in Table 1, and created so the sequence containing the region hybridized with genome DNA closest to the 5′ or 3′ end is the SNP. These oligonucleotides can be used as probes to detect SNP using the INVADER assay.  
      The primer used in some embodiments of the present invention is designed to determine the functional change caused by the SNPs in the base sequences in Table 1, to determine whether the change is effective or ineffective, and to determine the existence of side effects. It is designed to include the SNP in the PCR-amplified base sequence. In some preferred embodiments, the primer should have at least 15 base sequences, preferably between 15 and 30 base sequences, and ideally between 18 and 24 base sequences. The template DNA regions in the primer base sequence should contain 500 bp or less amplified fragments, preferably between 100 and 300 bp fragments, and ideally between 100 and 150 bp fragments.  
      The oligonucleotide probes and primers designed in this manner can be synthesized chemically using any method commonly known in the art. For example, the oligonucleotides can be synthesized using a commercially available chemical synthesis device. The production of probes can be conducted automatically by adding fluorescent tags (e.g., FAM, VIC, Cy3) or other labels.  
      These oligonucleotides can be included in genetic polymorphism detection kits along with polymerase (e.g., Taq polymerase), a buffering solution (e.g., a Tris buffering solution), dNTP, fluorescent dyes (e.g., VIC, FAM), or other desired kit components.  
      Detection  
      In some embodiments, the oligonucleotides prepared in the examples above are used as primers/probes, and the genes or a portion thereof (template DNA) encoding the drug metabolizing enzyme is amplified using DNA polymerase. A primer/probe prepared in this manner can be hybridized with template DNA and used to detect DNA with the target genetic polymorphism. The DNA used as the template can be prepared using any method commonly known in the art. Examples include cesium chloride density gradient ultra centrifugation method, the SDS solvency method or the phenol chloroform extraction method.  
      1 Detection Using PCR  
      The amplification can be performed using a polymerase chain reaction (PCR). The DNA polymerase can be LA Taq DNA polymerase (Takara), Ex Taq polymerase (Takara), AMPLITAQ Gold polymerase (Applied Biosystems), AMPLITAQ (Applied Biosystems) or Pfu DNA polymerase (Stratagene), as well as other polymerases.  
      An illustrative example of amplification conditions is provided below. The present invention is not limited to the conditions provided in this example. In preferred embodiments, each cycle in the transforming phase should last between 10 and 40 seconds at 85° C. to 105° C. and preferably 20 and 30 seconds at 94° C., each cycle in the annealing phase should last 30 seconds to 1 minute at 50° C. to 72° C. and preferably 20 seconds to 1 minute at 60° C., and each cycle in the elongation phase should last 1 minute to 4 minutes between 65° C. and 75° C. and preferably 2 minutes to 3 minutes at 72° C. There should be 30 to 40 cycles, although fewer or more cycles are contemplated. In order to completely transform the template DNA and the primer, each cycle in the transforming phase should last 1 minute to 5 minutes at 95° C. before the amplifying cycle. If AMPLITAQ GOLD polymerase manufactured by Applied Biosystems is used, it should last from 8 minutes to 15 minutes and ideally from 10 minutes to 12 minutes. In order to completely elongate the amplified DNA, the elongation phase should last between 1 minute and 10 minutes at 72° C. after the amplification cycle. If the amplified product is not immediately detected, it should be processed again at 4° C. to make sure the amplification was not irregular. In this way, the gene encoding the drug metabolizing enzyme is amplified.  
      After amplification, gel electrophoresis is performed on the amplified product, the amplified product is stained using ethidium bromide or SYBR Green, and one, two or three bands are detected in the amplified product (DNA fragments) to determine the portion (DNA fragment) of the drug metabolizing enzyme containing the genetic polymorphism in the gene encoding the drug metabolizing enzyme. Polyacrylamide gel electrophoresis or capillary electrophoresis can be performed instead of aerogel electrophoresis. PCR can be performed using a primer tagged with a fluorescent dye to detect the amplified product. A detection method that does not require electrophoresis can also be used, such as bonding the amplified product in solid phase to a microplate and detecting the amplified product using a fluorescent or enzymatic reaction.  
      2. Detection Using the TAQMAN PCR Method  
      In the TAQMAN PCR method, the PCR reaction is performed using a fluorescent dye-tagged allele-specific oligo and Taq DNA polymerase. The allele-specific oligo used in the TAQMAN PCR method (TAQMAN probe) can be designed based on the SNP data. The 5′ end of the TAQMAN probe is tagged using a fluorescent reporter dye R such as FAM or VIC, and the 3′ end is tagged using a quencher Q (light-quenching substance). (See  FIG. 1 .). Here, the fluorescent light energy absorbed by the quencher is not detected. Because the 3′ end of the TAQMAN probe is phosphorylated, there is no elongation reaction from the TAQMAN probe in the PCR reaction ( FIG. 1 ). However, a PCR reaction is performed on the TAQMAN probe with TaqDNA polymerase and a primer designed to amplify the region containing the SNP. The following reaction occurs.  
      First, the TAQMAN probe is hybridized in a specific sequence of template DNA ( FIG. 2   a ) and an elongation reaction is simultaneously performed from the PCR primer ( FIG. 2   b ). Because the Taq DNA polymerase has 5′ nuclease activity, the hybridized TAQMAN probe is severed as the PCR primer elongation reaction continues. When the TAQMAN probe is severed, the quencher has no effect on the fluorescent dye, and the fluorescent light is detected ( FIG. 2   c ).  
      For example, suppose there is an A allele (Allele 1) and a G allele (Allele 2) at the SNP position as shown in  FIG. 3 . Allele 1 is tagged by a specific TAQMAN probe with FAM and Allele 2 is tagged by a specific TAQMAN probe with VIC (see  FIG. 3 ). Two different allele-specific oligos are added to the PCR drug, and TAQMAN PCR is performed on the detected template. The fluorescence detector then detects the fluorescent intensity of the FAM and VIC. When the SNP position in the allele and the position corresponding to the SNP in the TAQMAN probe are complementary, the probe is hybridized with the allele, the fluorescent dye in the probe is severed by the Taq polymerase, the effect of the quencher is eliminated, and the intensity of the fluorescence is detected.  
      If the template is homozygous for Allele 1, strong FAM fluorescence is detected and hardly any VIC fluorescence is detected. If the template is heterozygous for Allele 1 and Allele 2, both FAM and VIC fluorescence are detected.  
      3. SNP Detection Using the INVADER assay  
      In the INVADER assay, an allele-specific oligo and the template are hydridized to detect the SNP. In the INVADER assay, two different non-tagged oligos and one fluorescent dye-tagged oligo are used. One of the two non-tagged oligos is known as the probe. In some embodiments, the probe has a region hybridized to the genome DNA (template DNA) and a region (called a flap) that is not hydridized with the genome DNA, and that has a sequence unrelated to the sequence of the genomic DNA. The hybridized region has base sequences corresponding to the SNP ( FIG. 4   a ). The flap sequence is complementary to a FRET probe (described below). The other of the two non-tagged oligos is called the INVADER oligonucleotide. This oligonucleotide is designed so that it is hybridized in complementary fashion from the SNP position towards the 3′ end of the genome DNA ( FIG. 4   b ). In some preferred embodiments, the sequence corresponding to the SNP position can be any base (denoted by N in  FIG. 4   b ). When the template DNA genome is hybridized with the two probes, the base (N) from the INVADER oligonucleotide is inserted in the SNP position ( FIG. 4   c ) forming a cleavage structure at the SNP position.  
      In some embodiments, the fluorescent dye-tagged oligonucleotide is a sequence completely unrelated to the alleles. This probe is a FRET (fluorescence resonance energy transfer) probe ( FIG. 5 ). The fluorescent dye R tags the base (reporter) at the 5′ end of the FRET prove. A quencher Q absorbs the fluorescence. Here, the quencher absorbs the fluorescent light and the light is not detected. A specific region (Region 1) is designed on the 5′ end of the FRET probe (reporter base) to face the 3′ end from Region 1 (This region is Region 2). As a result, Region 1 and Region 2 form a complementary duplex ( FIG. 5 ). The 3′-region from the regions forming the complementary duplex can be hybridized with the flap of the allele probe to form a complementary chain ( FIG. 5 ).  
      In the INVADER assay, a cleavage agent (e.g., CLEAVASE enzyme, Third Wave Technologies, Madison, Wis.) is used, which is an enzyme (5′ nuclease) with specific endonuclease activity for identifying and cleaving a specific DNA structure. When the genome DNA, the probe and the INVADER oligonucleotide form a cleavage structure at the SNP position, the cleavage agent severs 3′ of the SNP position on the allele probe. The section with three bases forming a flap with the 5′ end is identified as shown in  FIG. 4   c , and the flap is severed. The structure with the SNP position is identified by the cleavage agent ( FIG. 6   a ), the probe is severed at the flap position, and the flap is separated ( FIG. 6   b ). Next, the released flap from the probe bonds with the FRET probe in complementary fashion to form a duplex ( FIG. 6   c ). The cleavage agent identifies this structure and cleaves the section with the fluorescent dye. The cleaved fluorescent dye is no longer affected by the quencher and fluorescent light becomes detectable ( FIG. 6   d ). If the SNP position does not match the sequence corresponding to the SNP in the allele probe as shown in  FIG. 7 , the specific DNA structure is not identified by the cleavage agent, the probe is not severed, and fluorescent light is not detected.  
      When the SNP is T/C, for example, a T INVADER oligonucleotide, a T probe, a FRET probe with FAM bonded to the reporter for the T SNP, a C INVADER oligonucleotide, a C probe and a FRET probe with VIC bonded to the reporter for the C SNP are prepared. These are combined and SNP detection is performed. If there is a T/T homo, FAM fluorescence is generated. If there is a C/C homo, VIC fluorescence is detected. If there is a T/C hetero, both FAM and VIC fluorescence are detected. Because the FAM and VIC fluorescence wavelengths are different, both can be readily identified.  
      Detection Using the SniPer Method  
      In order to detect SNP using the SniPer method, an allele identifier is amplified using RCA. The genome DNA template is a straight chain, and a probe is hybridized with the genome DNA. When there is a complementary match between the probe sequence and the genome DNA template sequence and a complementary chain forms, a ligation reaction on the genome DNA forms a ring. As a result, RCA continues on cyclic DNA. If the end of the probe does not match the genome DNA, the RCA reaction does not occur because there is no ligation and no ring. In the SniPer method, therefore, a single chain probe is designed to anneal the genome DNA and create a ring. This single chain probe is called a padlock probe. The severed end of the padlock probe is the sequence corresponding to the target SNP. The padlock probe and the genome DNA mix and a ligation reaction occurs. If the severed end of the padlock probe and the SNP section of the genome DNA are complementary, the severed end of the padlock probe connects and forms a ring during the ligation reaction. If they are not complementary, a ring does not form. Therefore, only a padlock probe corresponding to the target SNP forms a ring and is amplified by the DNA polymerase. The presence of amplification is used to detect the SNP. A synthetic oligonucleotide with a hairpin structure and a fluorescent dye and quencher on both ends can be used in the detection process.  
      Detection Using the MALDI-TOF/MS Method  
      In the matrix assisted laser desorption-time of flight/mass spectroscopy (MALDI-TOF/MS) method, SNP typing is performed using a mass spectrometer. A preferred embodiments of this method has the following steps.  
      (i) PCR Amplification and Refinement of DNA Fragments Containing SNP  
      After making sure the base at the SNP location and the PCR primer do not overlap, the DNA fragment is amplified, exonuclease or alkali phosphatase processing is performed on the amplified product, the dNTP is removed, and the amplified fragment is refined.  
      (ii) Primer Extension Reaction (Thermal Cycle) and Refinement  
      A primer ten or more times the template in the region identified as the PCR product is added, a thermal cycle reaction is performed, and a primer elongation reaction is performed. The primer used here is designed so the 3′ end is next to the base corresponding to the SNP position. The primer length should be 15 to 30 bases, ideally 20 to 25 bases. If there is a multiplex reaction, a sequence that is not complementary to the template is added to the 5′ end. There should be 20 to 30 (ideally 25) thermal cycles at two different temperatures. These should be 85 to 105° C. (ideally 94° C.) and 35 to 40° C. (ideally 37° C.).  
      The reaction product is then refined using a refining kit so it can be used in the mass spectrometer.  
      (iii) Mass Spectroscopy Using a Mass Spectrometer  
      The elongated and refined reaction product is applied to the mass spectrometer, and a quality of the target product is measured. In other words, the refined product is mixed with the matrix and 0.5 to 1.0 mL spots are formed on the MALDI plate. After drying the plate, the substance is irradiated by a laser beam and a spectrogram is produced.  
      Detection Using the Base Sequence Determining Method  
      In the present invention, a polymorphism can be detected using an elongation reaction on a single base. In other words, four different types of dideoxynucleotides identified by different fluorescent compounds are added to reaction systems including the gene to be detected and a single base elongation reaction is performed. Here, the base to be elongated is the polymorphism. Two reactions are performed; one to stop the DNA synthesis and another to identify the 3′ end of the DNA molecule with fluorescence. Electrophoresis is performed on four different reaction solutions with the same lanes and capillaries for the sequencing gel. The sequence is determined by detecting the differences in the fluorescent dyes identifying the DNA bands using a fluorescence detector. The oligonucleotides with one base elongated have the elongation confirmed using different types of fluorescent dyes in a fluorescence detector and mass spectrometer. Instead of fluorescent-tagged dideoxynucleotides, the primer can be identified using fluorescence used with non-tagged dideoxynucleotides.  
      Drug Evaluation  
      Using information obtained by the methods of the present invention, the efficacy and stability of the drug metabolized by the drug metabolizing enzyme can be evaluated.  
      For example, in some embodiments, the drug can be evaluated using a typing system. In other words, the frequency of expressed and unexpressed alleles (e.g., toxic alleles that cause undesired side effects) can be compared using any one of the detection methods mentioned above. Once they have been compared, markers can be selected to indicate, for example, a toxic expression where the allele frequency differs. In statistical analysis, this is usually set as ×2. However, this is different in other methods such as the Fisher method. The active components (altered and metabolized drug components) in the drug will be reflected in blood and tissue concentrations. All of the genetic polymorphisms can be checked against the causes of the toxic effects to isolate specific correlating genetic polymorphisms. The substances corresponding to the probes or primers used to analyze all of the genetic polymorphisms are prepared beforehand on reaction plates, cards or glass plates, and unprepared human genome DNA is added and reacted to determine the allele pattern. If there are genetic polymorphisms correlating with toxicity or other phenotypes, then human side-effects can be expected or predicted. The same is true of drug effectiveness. Because the genetic polymorphisms correlating to effectiveness and side-effects differ depending on the drug, typing performed using genetic polymorphisms can be performed to anticipate effectiveness and side-effects.  
      Differences in allele frequency can be determined in certain instances by comparing the frequency of genetic polymorphisms to effectiveness/ineffectiveness or the presence/absence of side-effects. If, for example, an SNP analysis is performed on persons with a toxic reaction (side-effect) to Drug A, the results may show a 90% of the people have T/T (e.g., detected based on the intensity of fluorescent FAM light). The same results may show 10% of people with no toxic reaction have a T/T and 90% have a C/C. As a result of the SNP analysis, the evaluation may be not to administer Drug A to persons with T/T.  
      Drug Screening  
      In the present invention, the genetic polymorphism data obtained as described above is compared to genetic polymorphism data from genes encoding certain drug metabolizing enzymes to indicate the safety and effectiveness of drugs metabolized by these drug metabolizing enzymes. Therefore, the genetic polymorphism data obtained using the method of the present invention can be used to determine the likely effectiveness of certain drug therapies and to select the appropriate drug.  
      The evaluation methods described above can be used. Genetic polymorphisms with correlations to side-effects and effectiveness are said to be influenced by the activation, transfer and translation of certain enzymes. The cause and effect relationship with the side-effect or effectiveness expression mechanism may be indirect. The metabolization of drugs is being studied by pharmaceutical companies in laboratory and clinical testing. If there are genetic polymorphisms in enzyme genes correlating with severe side-effects, they can be removed and used under different conditions. The same is true of effectiveness. Drugs can be screened, therefore, using side-effects and effectiveness data. A wide variety of conditions and diseases (See e.g., Physician&#39;s Desk Reference) benefit from analysis using the systems and methods of the present invention.  
      In some embodiments of the present invention, a sample is taken from a subject (e.g., by a drug company) and sent to a laboratory for analysis using a detection assay. The laboratory results (e.g., detection assay test result data) is returned to the party providing the sample such that an appropriate decision can be made, including, but not limited to, development or administration of a drug to a subject.  
      In clinical testing (Tests I through III), the frequency of the expression of genetic polymorphisms can be studied in volunteers exhibiting certain side-effects and volunteers not exhibiting the same side-effects to a drug. In this way, novel genetic polymorphisms correlating with side-effects and effectiveness can be detected. This information can be used to screen drugs. Exemplary drugs and drug-related data and other information that find use in or with the present invention, including but are not limited to the methods and databases described herein, are described in the PHYSICIANS&#39; DESK REFERENCE (PDR). (e.g., 2002 Edition, Medical Economics Company, Inc., Montvale, N.J.). The PDR is expressly incorporated by reference herein as if fully set forth.  
     EXPERIMENTAL EXAMPLES  
      The following examples are provided in order to demonstrate and further illustrate certain preferred embodiments and aspects of the present invention and are not to be construed as limiting the scope thereof.  
     Example 1  
     Obtaining SNP Data  
      (1) DNA Extraction  
      Blood was extracted from 48 unrelated people in the presence of EDTA. The DNA was extracted in the following way based on the method in the Genome Analysis Manual (Yusuke Nakamura ed., Springer-Verlag Tokyo).  
      Ten milliliters of blood was transferred to a 50 ml test tube and centrifuged for five minutes at room temperature and 3000 rpm. After the supernatant (blood serum) had been removed using a pipette, 30 ml of RBC-dissolving buffer (10 mM NH4 HCO3, 144 mM NH3Cl) was added. After mixing until there was no sediment, it was allowed to stand for 20 minutes at room temperature. After being centrifuged for five minutes at room temperature and 3000 rpm, the supernatant (blood serum) was again removed using a pipette to obtain white blood cells. Another 30 ml of RBC-dissolving buffer was added and the process was repeated twice. Then, 4 ml of proteinase K buffer [50 mM Tris-HCl (pH 7.4), 100 mM NaCl, 1 mM EDTA (pH 8.0)] was added to the white blood cells, 200 ml of SDS was added, 200 ml of 10 mg/ml proteinase K was added, and the solution was tumble-mixed. The solution was then allowed to stand overnight at 37° C. The next day, 4 ml of phenol was added, and the solution was slowly tumble-mixed for four hours using a Taitec T-50 Rotator. After being centrifuged for 10 minutes at room temperature and 3000 rpm, the supernatant was removed using a new tube. Then, 4 ml of phenol-chloroform-isoamylalcohol (volume ratio 25:24:1) was added, the solution was tumble-mixed for two hours in the manner described above, and the solution was centrifuged. The supernatant was removed using a new tube, 4 ml of chloroform-isoamylalcohol (volume ratio 24:1) was added, and the solution was tumble-mixed. Fibrous white precipitate (DNA) was removed using a 2 ml tube, 1 ml of 70% ethanol was added, and the solution was tumble-mixed. The DNA was transferred to a new tube, dried and dissolved in 500 ml of TE solution [10 mM Tris-HCl (pH 4.7), 1 mM EDTA (pH 7.4)] to obtain a genome DNA sample.  
      (2) PCR  
      A genome sequence was obtained from the GenBank DNA Database. After removing the repeating sequences using the RepMask computer program, the PCR primer was set so there would be approximately 1 kb of PCR product. The genome DNA from 48 unrelated people was prepared at the same concentration. After mixing the same amount of DNA from three people in a single tube, 60 ng was used in the PCR. The PCR was Ex-Taq (Takara 2.5 U) and performed using the GeneAmp PCR System 9700 (PE Applied Biosystems). After reacting for two hours at 94° C., denaturing was performed for 30 seconds at 96° C., annealing was performed for 30 seconds at 55° C. or 60° C., and elongation was performed for one minute at 72° C. in each cycle. There were 35 cycles.  
      (3) Sequence  
      After refining the PCR product using Arraylt (Telechem), the sequence reaction was performed using the BigDye Terminator RR Mix (PE Applied Biosystems). After reacting for two hours at 96° C., denaturing was performed for 20 seconds at 96° C., annealing was performed for 30 seconds at 50° C., and elongation was performed for 4 minutes at 60° C. in each cycle using the GeneAmp PCR System 9700 (PE Applied Biosysytems). There were 25 cycles. After the sequencing reaction, the sequencing was analyzed using the ABI Prism 3700 DNA Analyzer.  
      (4) SNP Detection  
      An analysis was performed on the SNP detection using the PolyPhred computer program (Nickerson et al., 1997, Nucleic Acid Res., 25, 2745-2751).  
      (5) Results  
      The SNP results shown in Table 1 were obtained. The analyzed drug metabolizing enzyme, the abbreviation of the enzyme, the databank (GenBank) accession number, the structure of the gene for the drug metabolizing enzyme, and the position of the SNPs are shown in  FIG. 9  through  FIG. 141  and  FIG. 144  through  312 . In  FIG. 9  through  FIG. 141  and  FIG. 144  through  312 , the exons are blank boxes or black lines in the genes denoted by the horizontal lines. The position of the SNPs is denoted above the genes with solid lines and numbers.  
     Example 2  
     Typing  
      Typing was performed on two different groups of patients using the INVADER assay. In  FIG. 142 , the x-axis (Allele 1) indicates the intensity of the FAM fluorescent light corresponding to T, and the x-axis (Allele 2) indicates the intensity of the VIC fluorescent light corresponding to C. The slanted line indicates the SNP pattern for T/T, the black circles denote the pattern for C/C, and the white circles denote the pattern for T/C. The black squares indicate the background values. The x marks indicate where the detection failed. The group of patients in the graph for panel A (top) had many C/C SNP patterns and the group of patients in the graph for panel B (bottom) had many T/T SNP patterns.  
     Example 3  
     SNP Detection  
      Genome DNA was extracted from five unrelated people using the method described in Example 1, and the SNPs in three different drug metabolizing enzyme genes (EPHX1, ABCB2, AANAT) were detected using the INVADER assay method. The INVADER oligonucleotides and probes were designed using base sequence No. 3 (Sequence No. 49) and No. 17 (Sequence No. 63) in the case of EPHX1, base sequence No. 4 (Sequence No. 4) and No. 11 (Sequence No. 11) in the case of ABCB2, and base sequence No. 3 (Sequence No. 561) in the case of AANAT. The positions of the SNPs are shown in Table 1.  
      The results are shown in Table 2.  
                               TABLE 2                                      EPHX1   ABCB2   AANAT                                     Drug   No. 3   No. 17   No. 4   No. 11   No. 3       Metabolizing   Seq.   Seq.   Seq.   Seq.   Seq.       Enzyme Gene   No. 49   No. 63   No. 4   No. 11   No. 561               SNP   (T/G)   (A/G)   (G/T)   (G/A)   (T/A)       Subject I   T/T   A/G   T/T   G/A   T/T       Subject II   T/T   A/A   G/G   G/G   T/A       Subject III   T/G   A/A   G/G   A/A   T/T       Subject IV   G/G   A/G   G/T   G/G   T/T       Subject V   T/G   A/G   G/T   G/A   T/A                  
 
      As shown in Table 2, the SNPs in the drug metabolizing genes of patients can be detected and the patterns determined using the method of the present invention.  
     Example 4  
     Correlation Between SNP Genotypes and Optimal Amounts of a Medicament for Treatment Validity and Safety  
      In this example, validity and safety of medicaments were investigated using SNP analysis.  
      Thiopurine S-methyltransferase (TPMT) is an enzyme that transfers a methyl group to a sulfur atom attached to a purine ring, and is one of the major enzymes for metabolizing drugs such as the anti-cancer agents 6-mercaptopurine and 6-thioguanine, and thiopurine derivatives such as the immunosuppressive agent azathioprine. This example shows a correlation between optimal amounts of azathioprine and various combinations of the alleles at the 868 th  SNP of intron 3 of TPMT (Seki, et al., J Hum Genet 45(5):299 [2000], incorporated by reference herein in its entirety; Accession No. AB045146.1) (G or T alleles) and the 2682 nd  SNP of intron 3 (C or A alleles)(Table 3 and Table 4).  
                                   TABLE 3                                   868   2682   High   Low                          TT   AA   2   0           TT   AT   3   0           TT   TT   1   0           GT   AA   0   2           GT   AT   1   7           GT   TT   4   1           GG   AA   1   0           GG   AT   0   1           GG   TT   1   0                      
 
      Optimal amounts of azathioprine were determined by adopting suppression of rejection after renal transplantation as an index. A group of patients in which the validity of treatment with 100 mg/day of azathioprine was confirmed was designated as a high dose group, and a group of patients in which side effects developed with treatment of 100 mg/day, but in which validity was confirmed with a treatment of 50 mg/day was designated as a low dose group. Table 3 indicates the number of patients having each combination of alleles, with the columns labeled “High” and “Low” representing the numbers of patients of each genotype in the high dose and the low dose groups, respectively. Side effects include leukopenia, anthema, angiitis, nausea/vomiting, anorexia, diarrhea, malaise, myalgia, arthralgia, fever, chill, and dizziness. More serious side effects include, for example, blood disorders, shock-like symptoms, infectious diseases, and hepatic disorders, and renal disorders.  
      Investigation of a correlation between the high dose and low dose groups and the two types of SNPs indicated above revealed that when G is present in at least one allele at the 868 th  SNP of intron 3 (G/G homozygous or G/T heterozygous) and A is present in at least one allele at the 2682 nd  SNP of intron 3 (A/A homozygous or A/T heterozygous), side effects were developed with 100 mg/day and 50 mg/day was an optimal amount for 10 out of 12 patients (low dose group), while 100 mg/day was an optimal amount for 11 out of 12 patients with other allele combinations (high dose group) (Table 4). Investigation of this combination of two SNP loci in patients enables prediction of optimal amounts of azathioprine for treatment prior to the administration of the drug, for improved validity and safety. These results indicate that the validity and safety of medicaments can be predicted using analysis of SNPs associated with medicament metabolic enzymes, e.g., as described in this specification and including but not limited to the DME-associated SNPs listed in Table 1. As used in this example only, the term “optimal amount” refers to the best dosage selected from the tested amounts of 50 mg/day or 100/mg per day. It will be appreciated by those skilled in the art that a study testing additional amounts of a medicament (e.g., a study in which amounts are varied in smaller increments, such as 40, 50, 60, 70, 80, 90, etc. mg/day) would provide additional information regarding ranges of amounts giving optimal performance for patients having a particular genotype, and that optimal amounts of this or any other medicament are not limited to the particular amounts of 50 or 100 mg/day tested in this example.  
                           TABLE 4                                      Optimal amount                                     Genotype   100 mg/day   50 mg/day                                             G as the 868 th  SNP and A   2   10           as the 2682 nd             Other combinations   11   1                         (Fisher exact test: p = 0.0003)             
 
      Filed herewith on compact disk, and expressly incorporated herein by reference, is a Sequence Listing provided as a file entitled “10583.txt,” created Mar. 22, 2006, 1,416 kb in size.  
     Sequence Listing Free Text  
      SEQ ID NO:39: n indicates t (Position 21).  
      SEQ ID NO:64: n indicates c (Position 21).  
      SEQ ID NO:580: n indicates a or deletion (Position 21).  
      SEQ ID NO:634: n indicates a or deletion (Position 21).  
      SEQ ID NO:656: n indicates a or deletion (Position 21).  
      SEQ ID NO:658: n indicates c or deletion (Position 21).  
      SEQ ID NO:671: n indicates a or deletion (Position 21).  
      SEQ ID NO:672: n indicates g or deletion (Position 21).  
      SEQ ID NO:673: n indicates c or deletion (Position 21).  
      SEQ ID NO:674: n indicates (cctgy) x  or deletion (Position 21).  
      SEQ ID NO:676: n indicates gaa or deletion (Position 21).  
      SEQ ID NO:677: n indicates ag or deletion (Position 21).  
      SEQ ID NO:785: n indicates ta. (Position 21).  
      SEQ ID NO:797: n indicates acac. (Position 21).  
      SEQ ID NO:806: n indicates gatttgtggtatccag. (Position 21).  
      SEQ ID NO:808: n indicates ag or deletion (Position 21).  
      SEQ ID NO:809: n indicates ta or deletion (Position 21).  
      SEQ ID NO:815: n indicates t (Position 21).  
      SEQ ID NO:828: n indicates cagaggct (Position 21).  
      SEQ ID NO:830: n indicates ca or deletion (Position 21).  
      SEQ ID NO:831: n indicates ag or deletion (Position 21).  
      SEQ ID NO:843: n indicates gtaaa (Position 21).  
      SEQ ID NO:845: n indicates a (Position 21).  
      SEQ ID NO:888: n indicates tc (Position 21).  
      SEQ ID NO:890: n indicates t or deletion (Position 21).  
      SEQ ID NO:913: n indicates t or deletion (Position 21).  
      SEQ ID NO:932: n indicates t or deletion (Position 21).  
      SEQ ID NO:933: n indicates t or deletion (Position 21).  
      SEQ ID NO:955: n indicates at or deletion (Position 21).  
      SEQ ID NO:956: n indicates a or deletion (Position 21).  
      SEQ ID NO:957: n indicates c or deletion (Position 21).  
      SEQ ID NO:987: n indicates c (Position 21).  
      SEQ ID NO:999: n indicates gtt or deletion (Position 21).  
      SEQ ID NO:1164: n indicates at (Position 21).  
      SEQ ID NO:1166: n indicates c or deletion (Position 21).  
      SEQ ID NO:1167: n indicates t or deletion (Position 21).  
      SEQ ID NO:1168: n indicates t or deletion (Position 21).  
      SEQ ID NO:1169: n indicates g (Position 21).  
      SEQ ID NO:1171: n indicates c (Position 21).  
      SEQ ID NO:1173: n indicates t (Position 21).  
      SEQ ID NO:1175: n indicates c or deletion (Position 21).  
      SEQ ID NO:1200: n indicates a or deletion (Position 21).  
      SEQ ID NO:1204: n indicates a (Position 21).  
      SEQ ID NO:1207: n indicates tt (Position 21).  
      SEQ ID NO:1210: n indicates at (Position 21).  
      SEQ ID NO:1245: n indicates t (Position 21).  
      SEQ ID NO:1248: n indicates t or deletion (Position 21).  
      SEQ ID NO:1249: n indicates t (Position 21).  
      SEQ ID NO:1251: n indicates a or deletion (Position 21).  
      SEQ ID NO:1252: n indicates tgt or deletion (Position 21).  
      SEQ ID NO:1260: n indicates t or deletion (Position 21).  
      SEQ ID NO:1309: n indicates a or deletion (Position 21).  
      SEQ ID NO:1389: n indicates g or deletion (Position 21).  
      SEQ ID NO:1411: n indicates a or deletion (Position 21).  
      SEQ ID NO:1417: n indicates aaag (Position 21).  
      SEQ ID NO:1424: n indicates gtg or deletion (Position 21).  
      SEQ ID NO:1426: n indicates gg or tggtggggtgga (Position 21).  
      SEQ ID NO:1429: n indicates at or deletion (Position 21).  
      SEQ ID NO:1436: n indicates a (Position 21).  
      SEQ ID NO:1453: n indicates c or deletion (Position 21).  
      SEQ ID NO:1456: n indicates gg (Position 21).  
      SEQ ID NO:1465: n indicates gtc or deletion (Position 21).  
      SEQ ID NO:1487: n indicates t or deletion (Position 21).  
      SEQ ID NO:1494: n indicates tt (Position 21).  
      SEQ ID NO:1497: n indicates t repeated 9 to 12 times (Position 21).  
      SEQ ID NO:1499: n indicates a or deletion (Position 21).  
      SEQ ID NO:1501: n indicates a repeated 10 to 13 times (Position 21).  
      SEQ ID NO:1504: n indicates ct or deletion (Position 21).  
      SEQ ID NO:1507: n indicates cagatcttcttcagctaatttagaaatgt (Position 21).  
      SEQ ID NO:1533: n indicates a or deletion (Position 21).  
      SEQ ID NO:1540: n indicates c (Position 21).  
      SEQ ID NO:1545: n indicates t (Position 21).  
      SEQ ID NO:1552: n indicates t repeated 9 to 12 times (Position 21).  
      SEQ ID NO:1555: n indicates t (Position 21).  
      SEQ ID NO:1557: n indicates aaaaaaagaaaa (Position 21).  
      SEQ ID NO:1558: n indicates aaaaaaaaaaaa (Position 21).  
      SEQ ID NO:1559: n indicates aaaaaaaaaa (Position 21).  
      SEQ ID NO:1563: n indicates t or deletion (Position 21).  
      SEQ ID NO:1572: n indicates c (Position 21).  
      SEQ ID NO:1574: n indicates a or deletion (Position 21).  
      SEQ ID NO:1575: n indicates c or deletion (Position 21).  
      SEQ ID NO:1596: n indicates cct or deletion (Position 21).  
      SEQ ID NO:1598: n indicates tc (Position 21).  
      SEQ ID NO:1616: n indicates ca or deletion (Position 21).  
      SEQ ID NO:1638: n indicates g (Position 21).  
      SEQ ID NO:1661: n indicates t or deletion (Position 21).  
      SEQ ID NO:1690: n indicates gccag (Position 21).  
      SEQ ID NO:1718: n indicates t (Position 21).  
      SEQ ID NO:1723: n indicates c or deletion (Position 21).  
      SEQ ID NO:1729: n indicates tc or deletion (Position 21).  
      SEQ ID NO:1740: n indicates ct or deletion (Position 21).  
      SEQ ID NO:1771: n indicates a (Position 21).  
      SEQ ID NO:1781: n indicates a or deletion (Position 21).  
      SEQ ID NO:1787: n indicates t or deletion (Position 21).  
      SEQ ID NO:1791: n indicates t or deletion (Position 21).  
      SEQ ID NO:1792: n indicates g or deletion (Position 21).  
      SEQ ID NO:1800: n indicates t or deletion (Position 21).  
      SEQ ID NO:1801: n indicates t or deletion (Position 21).  
      SEQ ID NO:1802: n indicates a or deletion (Position 21).  
      SEQ ID NO:1815: n indicates a or deletion (Position 21).  
      SEQ ID NO:1819: n indicates ca or deletion (Position 21).  
      SEQ ID NO:1820: n indicates t or deletion (Position 21).  
      SEQ ID NO:1824: n indicates t or deletion (Position 21).  
      SEQ ID NO:1829: n indicates t or deletion (Position 21).  
      SEQ ID NO:1830: n indicates c or deletion (Position 21).  
      SEQ ID NO:1838: n indicates a or deletion (Position 21).  
      SEQ ID NO:1840: n indicates t or deletion (Position 21).  
      SEQ ID NO:1847: n indicates gatt or deletion (Position 21).  
      SEQ ID NO:1848: n indicates t (Position 21).  
      SEQ ID NO:1853: n indicates t or deletion (Position 21).  
      SEQ ID NO:1854: n indicates gt (Position 21).  
      SEQ ID NO:1857: n indicates a or deletion (Position 21).  
      SEQ ID NO:1858: n indicates a or deletion (Position 21).  
      SEQ ID NO:1862: n indicates t or deletion (Position 21).  
      SEQ ID NO:1865: n indicates at or deletion (Position 21).  
      SEQ ID NO:1871: n indicates a or deletion (Position 21).  
      SEQ ID NO:1874: n indicates t or deletion (Position 21).  
      SEQ ID NO:1877: n indicates at or deletion (Position 21).  
      SEQ ID NO:1878: n indicates a or deletion (Position 21).  
      SEQ ID NO:1879: n indicates t repeated 12 to 14 times (Position 21).  
      SEQ ID NO:1882: n indicates t or deletion (Position 21).  
      SEQ ID NO:1884: n indicates cac or deletion (Position 21).  
      SEQ ID NO:1891: n indicates cca (Position 21).  
      SEQ ID NO:1919: n indicates t or deletion (Position 21).  
      SEQ ID NO:1949: n indicates c or deletion (Position 21).  
      SEQ ID NO:1957: n indicates aaaa or deletion (Position 21).  
      SEQ ID NO:1970: n indicates c or deletion (Position 21).  
      SEQ ID NO:1980: n indicates t repeated 7 to 9 times (Position 21).  
      SEQ ID NO:1981: n indicates a or deletion (Position 21).  
      SEQ ID NO:1993: n indicates taac or deletion (Position 21).  
      SEQ ID NO:1994: n indicates ctcttt (Position 21).  
      SEQ ID NO:1995: n indicates ct (Position 21).  
      SEQ ID NO:2002: n indicates a or deletion (Position 21).  
      SEQ ID NO:2005: n indicates t or deletion (Position 21).  
      SEQ ID NO:2008: n indicates g or deletion (Position 21).  
      SEQ ID NO:2011: n indicates aattagaa or deletion (Position 21).  
      SEQ ID NO:2012: n indicates tttaaaa or ttttaa (Position 21).  
      SEQ ID NO:2015: n indicates t or deletion (Position 21).  
      SEQ ID NO:2020: n indicates t or deletion (Position 21).  
      SEQ ID NO:2024: n indicates g or deletion (Position 21).  
      SEQ ID NO:2025: n indicates t or deletion (Position 21).  
      SEQ ID NO:2030: n indicates aaa or deletion (Position 21).  
      SEQ ID NO:2031: n indicates a or deletion (Position 21).  
      SEQ ID NO:2042: n indicates c (Position 21).  
      SEQ ID NO:2072: n indicates a or deletion (Position 21).  
      SEQ ID NO:2074: n indicates a or deletion (Position 21).  
      SEQ ID NO:2243: n indicates tca repeated 14 to 16 times (Position 21).  
      SEQ ID NO:2244: n indicates a repeated 8 to 10 times (Position 21).  
      SEQ ID NO:2245: n indicates cacagtcat or deletion (Position 21).  
      SEQ ID NO:2246: n indicates tt or deletion (Position 21).  
      SEQ ID NO:2247: n indicates a repeated 10 to 12 times (Position 21).  
      SEQ ID NO:2248: n indicates c or deletion (Position 21).  
      SEQ ID NO:2249: n indicates a repeated 16 to 18 times (Position 21).  
      SEQ ID NO:2250: n indicates g (Position 21).  
      SEQ ID NO:2252: n indicates c or deletion (Position 21).  
      SEQ ID NO:2253: n indicates t or deletion (Position 21).  
      SEQ ID NO:2254: n indicates a or deletion (Position 21).  
      SEQ ID NO:2255: n indicates tg (Position 21).  
      SEQ ID NO:2257: n indicates t repeated 10 to 13 (Position 21).  
      SEQ ID NO:2258: n indicates gt repeated 11 to 13 times (Position 21).  
      SEQ ID NO:2259: n indicates a or deletion (Position 21).  
      SEQ ID NO:2260: n indicates g or deletion (Position 21).  
      SEQ ID NO:2261: n indicates g or deletion (Position 21).  
      SEQ ID NO:2262: n indicates t repeated 9 to 11 times (Position 21).  
      SEQ ID NO:2263: n indicates g (Position 21).  
      SEQ ID NO:2265: n indicates tt or deletion (Position 21).  
      SEQ ID NO:2266: n indicates a repeated 7 to 9 times (Position 21).  
      SEQ ID NO:2267: n indicates t repeated 9 to 11 times (Position 21).  
      SEQ ID NO:2268: n indicates a repeated 9 to 10 times (Position 21).  
      SEQ ID NO:2269: n indicates gt or deletion (Position 21).  
      SEQ ID NO:2270: n indicates a or deletion (Position 21).  
      SEQ ID NO:2271: n indicates t (Position 21).  
      SEQ ID NO:2273: n indicates a or deletion (Position 21).  
      SEQ ID NO:2274: n indicates ct or deletion (Position 21).  
      SEQ ID NO:2275: n indicates g or deletion (Position 21).  
      SEQ ID NO:2276: n indicates a or deletion (Position 21).  
      SEQ ID NO:2277: n indicates a or deletion (Position 21).  
      SEQ ID NO:2278: n indicates a or deletion (Position 21).  
      SEQ ID NO:2279: n indicates c or deletion (Position 21).  
      SEQ ID NO:2280: n indicates aaag or deletion (Position 21).  
      SEQ ID NO:2348: n indicates t repeated 22 to 26 times (Position 21).  
      SEQ ID NO:2349: n indicates g repeated 8 to 10 times (Position 21).  
      SEQ ID NO:2350: n indicates c repeated 6 to 7 times (Position 21).  
      SEQ ID NO:2351: n indicates a repeated 12 to 14 times (Position 21).  
      SEQ ID NO:2427: n indicates caccaggcagcagactctgatgaggaggggagggg (Position 21).  
      SEQ ID NO:2429: n indicates g (Position 21).  
      SEQ ID NO:2474: n indicates tcac or deletion (Position 21).  
      SEQ ID NO:2475: n indicates t or deletion (Position 21).  
      SEQ ID NO:2476: n indicates t repeated 9 to 11 times (Position 21).  
      SEQ ID NO:2477: n indicates a repeated 7 to 8 times (Position 21).  
      SEQ ID NO:2495: n indicates t repeated 13 to 16 times (Position 21).  
      SEQ ID NO:2496: n indicates t repeated 9 to 10 times (Position 21).  
      SEQ ID NO:2497: n indicates t repeated 14 to 16 times (Position 21).  
      SEQ ID NO:2498: n indicates t repeated 13 to 17 times (Position 21).  
      SEQ ID NO:2499: n indicates t (Position 21).  
      SEQ ID NO:2501: n indicates a repeated 8 to 9 times (Position 21).  
      SEQ ID NO:2502: n indicates t repeated 8 to 9 times (Position 21).  
      SEQ ID NO:2503: n indicates gcagtattactgtagt or deletion (Position 21).  
      SEQ ID NO:2504: n indicates t repeated 13 to 14 times (Position 21).  
      SEQ ID NO:2505: n indicates t repeated 9 to 10 times (Position 21).  
      SEQ ID NO:2506: n indicates t repeated 10 to 11 times (Position 21).  
      SEQ ID NO:2524: n indicates t or deletion (Position 21).  
      SEQ ID NO:2525: n indicates t repeated 12 to 15 times (Position 21).  
      SEQ ID NO:2586: n indicates a or deletion (Position 21).  
      SEQ ID NO:2587: n indicates at or deletion (Position 21).  
      SEQ ID NO:2594: n indicates t or deletion (Position 21).  
      SEQ ID NO:2595: n indicates ttc or deletion (Position 21).  
      SEQ ID NO:2606: n indicates ctt (Position 21).  
      SEQ ID NO:2651: n indicates c repeated 9 to 11 times (Position 21).  
      SEQ ID NO:2652: n indicates a repeated 15 to 21 times (Position 21).  
      SEQ ID NO:2653: n indicates ggggtggcggggtggg or deletion (Position 21).  
      SEQ ID NO:2654: n indicates t or deletion (Position 21).  
      SEQ ID NO:2655: n indicates a (Position 21).  
      SEQ ID NO:2657: n indicates a or deletion (Position 21).  
      SEQ ID NO:2658: n indicates t repeated 10 to 12 times (Position 21).  
      SEQ ID NO:2659: n indicates tt (Position 21).  
      SEQ ID NO:2661: n indicates tccctccttgaagctgatcgt or deletion (Position 21).  
      SEQ ID NO:2662: n indicates ca repeated 12 to 18 times (Position 21).  
      SEQ ID NO:2685: n indicates a repeated 18 to 20 times (Position 21).  
      SEQ ID NO:2686: n indicates aa (Position 21).  
      SEQ ID NO:2688: n indicates t or deletion (Position 21).  
      SEQ ID NO:2689: n indicates t repeated 9 to 13 times (Position 21).  
      SEQ ID NO:2690: n indicates aa or deletion (Position 21).  
      SEQ ID NO:2691: n indicates ttgaca or gtccaatat (Position 21).  
      SEQ ID NO:2692: n indicates cta or deletion (Position 21).  
      SEQ ID NO:2693: n indicates t repeated 9 to 10 times (Position 21).  
      SEQ ID NO:2694: n indicates gagatgttgtggctcacat (Position 21).  
      SEQ ID NO:2696: n indicates cc or deletion (Position 21).  
      SEQ ID NO:2697: n indicates act or deletion (Position 21).  
      SEQ ID NO:2755: n indicates tat or deletion (Position 21).  
      SEQ ID NO:2756: n indicates ac repeated 14 to 17 times (Position 21).  
      SEQ ID NO:2757: n indicates a repeated 16 to 27 times (Position 21).  
      SEQ ID NO:2758: n indicates t or deletion (Position 21).  
      SEQ ID NO:2759: n indicates a repeated 8 to 10 times (Position 21).  
      SEQ ID NO:2760: n indicates gt repeated 9 to 11 times (Position 21).  
      SEQ ID NO:2761: n indicates aa or deletion (Position 21).  
      SEQ ID NO:2762: n indicates t or deletion (Position 21).  
      SEQ ID NO:2763: n indicates ac repeated 8 to 12 times (Position 21).  
      SEQ ID NO:2764: n indicates a or deletion (Position 21).  
      SEQ ID NO:2810: n indicates a (Position 21).  
      SEQ ID NO:2812: n indicates aa or deletion (Position 21).  
      SEQ ID NO:2813: n indicates ca or deletion (Position 21).  
      SEQ ID NO:2814: n indicates t or deletion (Position 21).  
      SEQ ID NO:2815: n indicates tgtgtg or deletion (Position 21).  
      SEQ ID NO:2912: n indicates a (Position 21).  
      SEQ ID NO:2914: n indicates g (Position 21).  
      SEQ ID NO:2916: n indicates actt or deletion (Position 21).  
      SEQ ID NO:2917: n indicates ttta or deletion (Position 21).  
      SEQ ID NO:2918: n indicates a repeated 11 to 13 times (Position 21).  
      SEQ ID NO:2919: n indicates t repeated 8 to 10 times (Position 21).  
      SEQ ID NO:2920: n indicates a repeated 12 to 14 times (Position 21).  
      SEQ ID NO:2921: n indicates cttgta or deletion (Position 21).  
      SEQ ID NO:2922: n indicates a repeated 9 to 10 times (Position 21).  
      SEQ ID NO:2923: n indicates ctt or deletion (Position 21).  
      SEQ ID NO:2924: n indicates ctt (Position 21).  
      SEQ ID NO:2926: n indicates a or deletion (Position 21).  
      SEQ ID NO:2927: n indicates a repeated 9 to 11 times (Position 21).  
      SEQ ID NO:2928: n indicates tgt or deletion (Position 21).  
      SEQ ID NO:2929: n indicates a repeated 24 to 27 times (Position 21).  
      SEQ ID NO:2930: n indicates ta repeated 10 to 21 times (Position 21).  
      SEQ ID NO:2931: n indicates a repeated 8 to 10 times (Position 21).  
      SEQ ID NO:2932: n indicates a repeated 11 to 13 times (Position 21).  
      SEQ ID NO:2933: n indicates a repeated 8 to 10 times (Position 21).  
      SEQ ID NO:2999: n indicates tatc or deletion (Position 21).  
      SEQ ID NO:3000: n indicates atattcacttggtatctg or deletion (Position 21).  
      SEQ ID NO:3001: n indicates ttta or deletion (Position 21).  
      SEQ ID NO:3002: n indicates t (Position 21).  
      SEQ ID NO:3004: n indicates g or deletion (Position 21).  
      SEQ ID NO:3005: n indicates a or deletion (Position 21).  
      SEQ ID NO:3006: n indicates a repeated 9 to 11 times (Position 21).  
      SEQ ID NO:3007: n indicates g or deletion (Position 21).  
      SEQ ID NO:3008: n indicates at repeated 4 to 5 times (Position 21).  
      SEQ ID NO:3009: n indicates t repeated 7 to 8 times (Position 21).  
      SEQ ID NO:3010: n indicates t repeated 19 to 23 times (Position 21).  
      SEQ ID NO:3011: n indicates t or deletion (Position 21).  
      SEQ ID NO:3012: n indicates tgat or deletion (Position 21).  
      SEQ ID NO:3013: n indicates t repeated 8 to 10 times (Position 21).  
      SEQ ID NO:3014: n indicates a or deletion (Position 21).  
      SEQ ID NO:3021: n indicates a repeated 13 to 15 times (Position 21).  
      SEQ ID NO:3022: n indicates t repeated 12 to 15 times (Position 21).  
      SEQ ID NO:3042: n indicates g (Position 21).  
      SEQ ID NO:3044: n indicates a or deletion (Position 21).  
      SEQ ID NO:3046: n indicates g or deletion (Position 21).  
      SEQ ID NO:3047: n indicates t repeated 11 to 13 times (Position 21).  
      SEQ ID NO:3049: n indicates a or deletion (Position 21).  
      SEQ ID NO:3051: n indicates t repeated 9 to 11 times (Position 21).  
      SEQ ID NO:3054: n indicates t or deletion (Position 21).  
      SEQ ID NO:3056: n indicates t or deletion (Position 21).  
      SEQ ID NO:3060: n indicates t or deletion (Position 21).  
      SEQ ID NO:3065: n indicates aaga (Position 21).  
      SEQ ID NO:3069: n indicates aaaa or deletion (Position 21).  
      SEQ ID NO:3073: n indicates t repeated 9 to 11 times (Position 21).  
      SEQ ID NO:3081: n indicates a or deletion (Position 21).  
      SEQ ID NO:3103: n indicates t repeated 11 to 13 times (Position 21).  
      SEQ ID NO:3119: n indicates acta (Position 21).  
      SEQ ID NO:3125: n indicates gtg or deletion (Position 21).  
      SEQ ID NO:3130: n indicates t repeated 11 to 12 times (Position 21).  
      SEQ ID NO:3140: n indicates tta or deletion (Position 21).  
      SEQ ID NO:3154: n indicates g (Position 21).  
      SEQ ID NO:3156: n indicates a (Position 21).  
      SEQ ID NO:3158: n indicates cct or deletion (Position 21).  
      SEQ ID NO:3169: n indicates gga or deletion (Position 21).  
      SEQ ID NO:3179: n indicates t repeated 12 to 14 times (Position 21).  
      SEQ IUD NO:3184: n indicates t repeated 16 to 17 times (Position 21).  
      SEQ ID NO:3196: n indicates g (Position 21).  
      SEQ ID NO:3273: n indicates ag (Position 21).  
      SEQ ID NO:3306: n indicates g (Position 21).  
      SEQ ID NO:3310: n indicates c (Position 21).  
      SEQ ID NO:3315: n indicates ct or deletion (Position 21).  
      SEQ ID NO:3317: n indicates gc or deletion (Position 21).  
      SEQ ID NO:3352: n indicates t repeated 9 to 11 times (Position 21).  
      SEQ ID NO:3355: n indicates a (Position 21).  
      SEQ ID NO:3358: n indicates t or deletion (Position 21).  
      SEQ ID NO: 3510: n represents at or deletion (Location 21).  
      SEQ ID NO: 3512: n represents c or deletion (Location 21).  
      SEQ ID NO: 3513: n represents t or deletion (Location 21).  
      SEQ ID NO:3514: n represents t or deletion (Location 21).  
      SEQ ID NO:3515: n represents g or deletion (Location 21).  
      SEQ ID NO:3517: n represents c or deletion (Location 21).  
      SEQ ID NO:3519: n represents t or deletion (Location 21).  
      SEQ ID NO:3521: n represents c or deletion (Location 21).  
      SEQ ID NO:3649: n represents 14 to 16 repeats of tca (from Location 21).  
      SEQ ID NO:3650: n represents 8 to 10 repeats of a (from Location 21).  
      SEQ ID NO:3651: n represents cacagtcat or deletion (Location 21).  
      SEQ ID NO:3652: n represents tt or deletion (Location 21).  
      SEQ ID NO:3653: n represents 10 to 12 repeats of a (from Location 21).  
      SEQ ID NO:3654: n represents c or deletion (Location 21).  
      SEQ ID NO:3655: n represents 16 to 18 repeats of a (from Location 21).  
      SEQ ID NO:3656: n represents g or deletion (Location 21).  
      SEQ ID NO:3658: n represents c or deletion (Location 21).  
      SEQ ID NO:3659: n represents t or deletion (Location 21).  
      SEQ ID NO:3660: n represents a or deletion (Location 21).  
      SEQ ID NO:3661: n represents tg or deletion (Location 21).  
      SEQ ID NO:3663: n represents 10 to 13 repeats oft (from Location 21).  
      SEQ ID NO:3664: n represents 11 to 13 repeats of gt (from Location 21).  
      SEQ ID NO:3665: n represents a or deletion (Location 21).  
      SEQ ID NO:3666: n represents g or deletion (Location 21).  
      SEQ ID NO:3667: n represents g or deletion (Location 21).  
      SEQ ID NO:3668: n represents 9 to 11 repeats of t (from Location 21).  
      SEQ ID NO:3669: n represents g or deletion (Location 21).  
      SEQ ID NO:3671: n represents tt or deletion (Location 21).  
      SEQ ID NO:3672: n represents 7 to 9 repeats of a (from Location 21).  
      SEQ ID NO:3673: n represents 9 to 11 repeats of t (from Location 21).  
      SEQ ID NO:3674: n represents 9 to 10 repeats of a (from Location 21).  
      SEQ ID NO:3675: n represents gt or deletion (Location 21).  
      SEQ ID NO:3676: n represents a or deletion (Location 21).  
      SEQ ID NO:3677: n represents t or deletion (Location 21).  
      SEQ ID NO:3679: n represents a or deletion (Location 21).  
      SEQ ID NO:3680: n represents ct or deletion (Location 21).  
      SEQ ID NO:3681: n represents g or deletion (Location 21).  
      SEQ ID NO:3682: n represents a or deletion (Location 21).  
      SEQ ID NO:3683: n represents a or deletion (Location 21).  
      SEQ ID NO:3684: n represents a or deletion (Location 21).  
      SEQ ID NO:3685: n represents c or deletion (Location 21).  
      SEQ ID NO:3686: n represents aaag or deletion (Location 21).  
      SEQ ID NO:3751: n represents 22 to 26 repeats oft (from Location 21).  
      SEQ ID NO:3752: n represents 8 to 10 repeats of g (from Location 21).  
      SEQ ID NO:3753: n represents 6 to 7 repeats of c (from Location 21).  
      SEQ ID NO:3754: n represents 12 to 14 repeats of a (from Location 21).  
      SEQ ID NO:3833: n represents tt or deletion (Location 21).  
      SEQ ID NO:3834: n represents 9 to 11 repeats of a (from Location 21).  
      SEQ ID NO:3835: n represents 8 to 12 repeats of a (from Location 21).  
      SEQ ID NO:3836: n represents t or deletion (Location 21).  
      SEQ ID NO:3837: n represents t or deletion (Location 21).  
      SEQ ID NO:3838: n represents t or deletion (Location 21).  
      SEQ ID NO:3839: n represents a or deletion (Location 21).  
      SEQ ID NO:3840: n represents t or deletion (Location 21).  
      SEQ ID NO:3841: n represents t or deletion (Location 21).  
      SEQ ID NO:3842: n represents 11 to 15 repeats of t (from Location 21).  
      SEQ ID NO:3843: n represents cat or deletion (Location 21).  
      SEQ ID NO:3844: n represents t or deletion (Location 21).  
      SEQ ID NO:3845: n represents a or deletion (Location 21).  
      SEQ ID NO:3846: n represents a or deletion (Location 21).  
      SEQ ID NO:3847: n represents t or deletion (Location 21).  
      SEQ ID NO:3848: n represents a or deletion (Location 21).  
      SEQ ID NO:3857: n represents g or deletion (Location 21).  
      SEQ ID NO:3879: n represents a or deletion (Location 21).  
      SEQ ID NO:3885: n represents aaag or deletion (Location 21).  
      SEQ ID NO:3915: n represents t or deletion (Location 21).  
      SEQ ID NO:3918: n represents a or deletion (Location 21).  
      SEQ ID NO:3926: n represents at or deletion (Location 21).  
      SEQ ID NO:3933: n represents a or deletion (Location 21).  
      SEQ ID NO:3950: n represents c or deletion (Location 21).  
      SEQ ID NO:3953: n represents gg or deletion (Location 21).  
      SEQ ID NO:3962: n represents gtc or deletion (Location 21).  
      SEQ ID NO:3984: n represents t or deletion (Location 21).  
      SEQ ID NO:3991: n represents tt or deletion (Location 21).  
      SEQ ID NO:3994: n represents 9 to 12 repeats oft (from Location 21).  
      SEQ ID NO:3996: n represents a or deletion (Location 21).  
      SEQ ID NO:3998: n represents 10 to 13 repeats of a (from Location 21).  
      SEQ ID NO:4001: n represents ct or deletion (Location 21).  
      SEQ ID NO:4004: n represents cagatcttcttcagctaatttagaaatgt or deletion (Location 21).  
      SEQ ID NO:4030: n represents a or deletion (Location 21).  
      SEQ ID NO:4037: n represents c or deletion (Location 21).  
      SEQ ID NO:4042: n represents t or deletion (Location 21).  
      SEQ ID NO:4049: n represents 9 to 12 repeats of t (from Location 21).  
      SEQ ID NO:4052: n represents t or deletion (Location 21).  
      SEQ ID NO:4054: n represents g (a)4, a (a)4 or a (Location 21).  
      SEQ ID NO:4058: n represents t or deletion (Location 21).  
      SEQ ID NO:4067: n represents c or deletion (Location 21).  
      SEQ ID NO:4069: n represents a or deletion (Location 21).  
      SEQ ID NO:4070: n represents c or deletion (Location 21).  
      SEQ ID NO:4077: n represents g or deletion (Location 21).  
      SEQ ID NO:4079: n represents 18 to 20 repeats of t (from Location 21).  
      SEQ ID NO:4084: n represents 11 to 13 repeats of a (from Location 21).  
      SEQ ID NO:4085: n represents gaaa or deletion (Location 21).  
      SEQ ID NO:4089: n represents 10 to 12 repeats of a (from Location 21).  
      SEQ ID NO:4092: n represents c or deletion (Location 21).  
      SEQ ID NO:4102: n represents ca or deletion (Location 21).  
      SEQ ID NO:4109: n represents at or deletion (Location 21).  
      SEQ ID NO:4113: n represents ctt or deletion (Location 21).  
      SEQ ID NO:4115: n represents g or deletion (Location 21).  
      SEQ ID NO:4117: n represents ggggct or deletion (Location 21).  
      SEQ ID NO:4121: n represents 19 to 22 repeats of t (from Location 21).  
      SEQ ID NO:4126: n represents 6 to 7 repeats of t (from Location 21).  
      SEQ ID NO:4129: n represents 11 to 13 repeats oft (from Location 21).  
      SEQ ID NO:4173: n represents 7 to 8 repeats of c (from Location 21).  
      SEQ ID NO:4175: n represents 10 to 12 repeats of a (from Location 21).  
      SEQ ID NO:4183: n represents c or deletion (Location 21).  
      SEQ ID NO:4188: n represents aaga or deletion (Location 21).  
      SEQ ID NO:4190: n represents 9 to 11 repeats of a (from Location 21).  
      SEQ ID NO:4193: n represents ct or deletion (Location 21).  
      SEQ ID NO:4198: n represents 8 to 9 repeats of t (from Location 21).  
      SEQ ID NO:4218: n represents g or deletion (Location 21).  
      SEQ ID NO:4224: n represents cttt or deletion (Location 21).  
      SEQ ID NO:4229: n represents t or deletion (Location 21).  
      SEQ ID NO:4234: n represents c or deletion (Location 21).  
      SEQ ID NO:4235: n represents a or deletion (Location 21).  
      SEQ ID NO:4238: n represents gtt or deletion (Location 21).  
      SEQ ID NO:4239: n represents t or deletion (Location 21).  
      SEQ ID NO:4259: n represents at or deletion (Location 21).  
      SEQ ID NO:4273: n represents g or deletion (Location 21).  
      SEQ ID NO:4280: n represents 15 to 17 repeats of a (from Location 21).  
      SEQ ID NO:4294: n represents t or deletion (Location 21).  
      SEQ ID NO:4298: n represents t or deletion (Location 21).  
      SEQ ID NO:4310: n represents t or deletion (Location 21).  
      SEQ ID NO:4314: n represents a or deletion (Location 21).  
      SEQ ID NO:4315: n represents 13 to 15 repeats oft (from Location 21).  
      SEQ ID NO:4316: n represents 12 to 13 repeats of a (from Location 21).  
      SEQ ID NO:4317: n represents t or deletion (Location 21).  
      SEQ ID NO:4319: n represents t or deletion (Location 21).  
      SEQ ID NO:4320: n represents 13 to 15 repeats of a (from Location 21).  
      SEQ ID NO:4325: n represents a or deletion (Location 21).  
      SEQ ID NO:4331: n represents 5 to 11 repeats oft (from Location 21).  
      SEQ ID NO:4333: n represents 8 to 9 repeats oft (from Location 21).  
      SEQ ID NO:4334: n represents t or deletion (Location 21).  
      SEQ ID NO:4345: n represents 9 to 10 repeats oft (from Location 21).  
      SEQ ID NO:4348: n represents 10 to 11 repeats of a (from Location 21).  
      SEQ ID NO:4354: n represents a or deletion (Location 21).  
      SEQ ID NO:4361: n represents a or deletion (Location 21).  
      SEQ ID NO:4372: n represents ct or deletion (Location 21).  
      SEQ ID NO:4391: n represents t or deletion (Location 21).  
      SEQ ID NO:4397: n represents a or deletion (Location 21).  
      SEQ ID NO:4398: n represents at or deletion (Location 21).  
      SEQ ID NO:4408: n represents tgtccaaaggaaggacacg or deletion (Location 21).  
      SEQ ID NO:4414: n represents 6 to 8 repeats of tc (from Location 21).  
      SEQ ID NO:4416: n represents c or deletion (Location 21).  
      SEQ ID NO:4419: n represents t or deletion (Location 21).  
      SEQ ID NO:4424: n represents t or deletion (Location 21).  
      SEQ ID NO:4425: n represents c or deletion (Location 21).  
      SEQ ID NO:4433: n represents a or deletion (Location 21).  
      SEQ ID NO:4435: n represents t or deletion (Location 21).  
      SEQ ID NO:4442: n represents 6 to 7 repeats of gatt (from Location 21).  
      SEQ ID NO:4443: n represents t or deletion (Location 21).  
      SEQ ID NO:4448: n represents t or deletion (Location 21).  
      SEQ ID NO:4449: n represents gt or deletion (Location 21).  
      SEQ ID NO:4452: n represents a or deletion (Location 21).  
      SEQ ID NO:4453: n represents a or deletion (Location 21).  
      SEQ ID NO:4457: n represents t or deletion (Location 21).  
      SEQ ID NO:4460: n represents at or deletion (Location 21).  
      SEQ ID NO:4466: n represents a or deletion (Location 21).  
      SEQ ID NO:4469: n represents t or deletion (Location 21).  
      SEQ ID NO:4472: n represents at or deletion (Location 21).  
      SEQ ID NO:4473: n represents a or deletion (Location 21).  
      SEQ ID NO:4474: n represents 12 to 14 repeats of t (from Location 21).  
      SEQ ID NO:4477: n represents t or deletion (Location 21).  
      SEQ ID NO:4479: n represents cac or deletion (Location 21).  
      SEQ ID NO:4486: n represents cca or deletion (Location 21).  
      SEQ ID NO:4514: n represents t or deletion (Location 21).  
      SEQ ID NO:4544: n represents c or deletion (Location 21).  
      SEQ ID NO:4552: n represents aaaa or deletion (Location 21).  
      SEQ ID NO:4565: n represents c or deletion (Location 21).  
      SEQ ID NO:4575: n represents 8 to 9 repeats of t (from Location 21).  
      SEQ ID NO:4576: n represents a or deletion (Location 21).  
      SEQ ID NO:4588: n represents taac or deletion (Location 21).  
      SEQ ID NO:4589: n represents ctcttt or deletion (Location 21).  
      SEQ ID NO:4590: n represents ct or deletion (Location 21).  
      SEQ ID NO:4597: n represents a or deletion (Location 21).  
      SEQ ID NO:4600: n represents t or deletion (Location 21).  
      SEQ ID NO:4603: n represents g or deletion (Location 21).  
      SEQ ID NO:4606: n represents aattagaa or deletion (Location 21).  
      SEQ ID NO:4607: n represents tttaaaa or ttttaa (Location 21).  
      SEQ ID NO:4610: n represents t or deletion (Location 21).  
      SEQ ID NO:4615: n represents t or deletion (Location 21).  
      SEQ ID NO:4627: n represents c or deletion (Location 21).  
      SEQ ID NO:4652: n represents 11 to 14 repeats of t (from Location 21).  
      SEQ ID NO:4653: n represents t or deletion (Location 21).  
      SEQ ID NO:4654: n represents 10 to 13 repeats of t (from Location 21).  
      SEQ ID NO:4655: n represents t or deletion (Location 21).  
      SEQ ID NO:4657: n represents t or deletion (Location 21).  
      SEQ ID NO:4658: n represents ta or deletion (Location 21).  
      SEQ ID NO:4660: n represents 13 to 15 repeats of t (from Location 21).  
      SEQ ID NO:4661: n represents c or deletion (Location 21).  
      SEQ ID NO:4662: n represents 17 to 20 repeats of a (from Location 21).  
      SEQ ID NO:4663: n represents 11 to 13 repeats oft (from Location 21).  
      SEQ ID NO:4664: n represents 8 to 9 repeats oft (from Location 21).  
      SEQ ID NO:4665: n represents 10 to 11 repeats of a (from Location 21).  
      SEQ ID NO:4666: n represents 16 to 19 repeats of a (from Location 21).  
      SEQ ID NO:4758: n represents g or deletion (Location 21).  
      SEQ ID NO:4760: n represents 6 to 7 repeats of a (from Location 21).  
      SEQ ID NO:4761: n represents c or deletion (Location 21).  
      SEQ ID NO:4763: n represents tcctcaggg or deletion (Location 21).  
      SEQ ID NO:4764: n represents 8 to 10 repeats of cgc (from Location 21).  
      SEQ ID NO:4765: n represents 10 to 12 repeats of a (from Location 21).  
      SEQ ID NO:4766: n represents caccaggcagcagactctgatgaggaggggaggggg or deletion (Location 21).  
      SEQ ID NO:4768: n represents g or deletion (Location 21).  
      SEQ ID NO:4808: n represents tcac or deletion (Location 21).  
      SEQ ID NO:4809: n represents t or deletion (Location 21).  
      SEQ ID NO:4810: n represents 9 to 11 repeats oft (from Location 21).  
      SEQ ID NO:4811: n represents 7 to 8 repeats of a (from Location 21).  
      SEQ ID NO:4847: n represents agg or deletion (Location 21).  
      SEQ ID NO:4848: n represents taacatt or deletion (Location 21).  
      SEQ ID NO:4849: n represents 10 to 12 repeats of a (from Location 21).  
      SEQ ID NO:4850: n represents 15 to 17 repeats oft (from Location 21).  
      SEQ ID NO:4851: n represents 11 to 13 repeats of a (from Location 21).  
      SEQ ID NO:4877: n represents 11 to 13 repeats of t (from Location 21).  
      SEQ ID NO:4878: n represents t or deletion (Location 21).  
      SEQ ID NO:4879: n represents t or deletion (Location 21).  
      SEQ ID NO:4880: n represents 10 to 12 repeats of a (from Location 21).  
      SEQ ID NO:4881: n represents t or deletion (Location 21)  
      SEQ ID NO:4883: n represents 7 to 9 repeats of c (from Location 21).  
      SEQ ID NO:4884: n represents a or deletion (Location 21)  
      SEQ ID NO:4891: n represents 13 to 16 repeats of t (from Location 21).  
      SEQ ID NO:4892: n represents 9 to 10 repeats of t (from Location 21).  
      SEQ ID NO:4893: n represents 14 to 16 repeats of t (from Location 21).  
      SEQ ID NO:4894: n represents 13 to 17 repeats of t (from Location 21).  
      SEQ ID NO:4895: n represents t or deletion (Location 21).  
      SEQ ID NO:4897: n represents 8 to 9 repeats of a (from Location 21).  
      SEQ ID NO:4898: n represents 8 to 9 repeats of t (from Location 21).  
      SEQ ID NO:4899: n represents gcagtattactgtagt or deletion (Location 21).  
      SEQ ID NO:4900: n represents 13 to 14 repeats of t (from Location 21).  
      SEQ ID NO:4901: n represents 9 to 10 repeats oft (from Location 21).  
      SEQ ID NO:4902: n represents 10 to 11 repeats oft (from Location 21).  
      SEQ ID NO:4907: n represents 10 to 14 repeats of a (from Location 21).  
      SEQ ID NO:4908: n represents 13 to 15 repeats of a (from Location 21).  
      SEQ ID NO:4909: n represents a or deletion (Location 21).  
      SEQ ID NO:4910: n represents t or deletion (Location 21).  
      SEQ ID NO:4918: n represents 13 to 15 repeats of a (from Location 21).  
      SEQ ID NO:4919: n represents 12 to 15 repeats of a (from Location 21).  
      SEQ ID NO:4936: n represents g or deletion (Location 21).  
      SEQ ID NO:4938: n represents aa or deletion (Location 21).  
      SEQ ID NO:4983: n represents a or deletion (Location 21).  
      SEQ ID NO:4985: n represents aa or deletion (Location 21).  
      SEQ ID NO:4986: n represents ca or deletion (Location 21).  
      SEQ ID NO:4987: n represents t or deletion (Location 21).  
      SEQ ID NO:4988: n represents tgtgtg or deletion (Location 21).  
      SEQ ID NO:5076: n represents a or deletion (Location 21).  
      SEQ ID NO:5078: n represents g or deletion (Location 21).  
      SEQ ID NO:5080: n represents actt or deletion (Location 21).  
      SEQ ID NO:5081: n represents ttta or deletion (Location 21).  
      SEQ ID NO:5082: n represents 11 to 13 repeats of a (from Location 21).  
      SEQ ID NO:5083: n represents 8 to 10 repeats of t (from Location 21).  
      SEQ ID NO:5084: n represents 12 to 14 repeats of a (from Location 21).  
      SEQ ID NO:5085: n represents cttgta or deletion (Location 21).  
      SEQ ID NO:5086: n represents 9 to 10 repeats of a (from Location 21).  
      SEQ ID NO:5087: n represents ctt or deletion (Location 21).  
      SEQ ID NO:5088: n represents ctt or deletion (Location 21).  
      SEQ ID NO:5090: n represents a or deletion (Location 21).  
      SEQ ID NO:5091: n represents 9 to 11 repeats of a (from Location 21)  
      SEQ ID NO:5092: n represents tgt or deletion (Location 21).  
      SEQ ID NO:5093: n represents 24 to 27 repeats of a (from Location 21)  
      SEQ ID NO:5094: n represents 10 to 21 repeats of ta (from Location 21)  
      SEQ ID NO:5095: n represents 8 to 10 repeats of a (from Location 21)  
      SEQ ID NO:5096: n represents 11 to 13 repeats of a (from Location 21)  
      SEQ ID NO:5097: n represents 8 to 10 repeats of a (from Location 21)  
      SEQ ID NO:5155: n represents ctat or deletion (Location 21).  
      SEQ ID NO:5156: n represents atattcacttggtatctg or deletion (Location 21).  
      SEQ ID NO:5157: n represents ttta or deletion (Location 21).  
      SEQ ID NO:5158: n represents t or deletion (Location 21).  
      SEQ ID NO:5160: n represents g or deletion (Location 21).  
      SEQ ID NO:5161: n represents a or deletion (Location 21).  
      SEQ ID NO:5162: n represents 9 to 11 repeats of a (from Location 21).  
      SEQ ID NO:5163: n represents g or deletion (Location 21).  
      SEQ ID NO:5164: n represents 4 to 5 repeats of at (from Location 21).  
      SEQ ID NO:5165: n represents 7 to 8 repeats of t (from Location 21).  
      SEQ ID NO:5166: n represents 19 to 23 repeats oft (from Location 21).  
      SEQ ID NO:5167: n represents t or deletion (Location 21).  
      SEQ ID NO:5168: n represents tgat or deletion (Location 21).  
      SEQ ID NO:5169: n represents 8 to 10 repeats of t (from Location 21).  
      SEQ ID NO:5170: n represents a or deletion (Location 21).  
      SEQ ID NO:5187: n represents gtg or deletion (Location 21).  
      SEQ ID NO:5189: n represents gg or tggtggggtgga (Location 21).  
      SEQ ID NO:5209: n represents acaaca or deletion (Location 21).  
      SEQ ID NO:5210: n represents 11 to 13 repeats oft (from Location 21).  
      SEQ ID NO:5212: n represents 15 to 18 repeats of ac (from Location 21).  
      SEQ ID NO:5218: n represents 18 to 26 repeats oft (from Location 21).  
      SEQ ID NO:5227: n represents tc or deletion (Location 21).  
      SEQ ID NO:5231: n represents 16 to 18 repeats of t (from Location 21).  
      SEQ ID NO:5246: n represents 18 to 20 repeats of t (from Location 21).  
      SEQ ID NO:5247: n represents tggtaagt or deletion (Location 21).  
      SEQ ID NO:5249: n represents t or deletion (Location 21).  
      SEQ ID NO:5255: n represents g or deletion (Location 21).  
      SEQ ID NO:5256: n represents g or deletion (Location 21).  
      SEQ ID NO:5257: n represents c or deletion (Location 21).  
      SEQ ID NO:5258: n represents ctct or deletion (Location 21).  
      SEQ ID NO:5261: n represents a or deletion (Location 21).  
      SEQ ID NO:5264: n represents t or deletion (Location 21).  
      SEQ ID NO:5271: n represents 14 to 17 repeats oft (from Location 21).  
      SEQ ID NO:5276: n represents 12 to 15 repeats oft (from Location 21).  
      SEQ ID NO:5277: n represents 10 to 13 repeats of a (from Location 21).  
      SEQ ID NO:5278: n represents 25 to 27 repeats of a (from Location 21).  
      SEQ ID NO:5299: n represents c or deletion (Location 21).  
      SEQ ID NO:5308: n represents 20 to 24 repeats oft (from Location 21).  
      SEQ ID NO:5311: n represents t or deletion (Location 21).  
      SEQ ID NO:5312: n represents t or deletion (Location 21).  
      SEQ ID NO:5314: n represents g or deletion (Location 21).  
      SEQ ID NO:5320: n represents 18 to 23 repeats oft (from Location 21).  
      SEQ ID NO:5340: n represents c or deletion (Location 21).  
      SEQ ID NO:5400: n represents a or deletion (Location 21).  
      SEQ ID NO:5404: n represents a or deletion (Location 21).  
      SEQ ID NO:5407: n represents tt or deletion (Location 21).  
      SEQ ID NO:5410: n represents at or deletion (Location 21).  
      SEQ ID NO:5436: n represents tgt or deletion (Location 21).  
      SEQ ID NO:5445: n represents t or deletion (Location 21).  
      SEQ ID NO:5550: n represents t or deletion (Location 21).  
      SEQ ID NO:5556: n represents g or deletion (Location 21).  
      SEQ ID NO:5557: n represents 11 to 13 repeats of t (from Location 21).  
      SEQ ID NO:5559: n represents a or deletion (Location 21).  
      SEQ ID NO:5561: n represents 9 to 11 repeats of t (from Location 21).  
      SEQ ID NO:5564: n represents t or deletion (Location 21).  
      SEQ ID NO:5566: n represents t or deletion (Location 21).  
      SEQ ID NO:5570: n represents t or deletion (Location 21).  
      SEQ ID NO:5575: n represents aaga or deletion (Location 21).  
      SEQ ID NO:5579: n represents aaaa or deletion (Location 21).  
      SEQ ID NO:5583: n represents 9 to 11 repeats of t (from Location 21).  
      SEQ ID NO:5591: n represents a or deletion (Location 21).  
      SEQ ID NO:5614: n represents 11 to 13 repeats oft (from Location 21).  
      SEQ ID NO:5630: n represents acta or deletion (Location 21).  
      SEQ ID NO:5636: n represents gtg or deletion (Location 21).  
      SEQ ID NO:5641: n represents 11 to 12 repeats oft (from Location 21).  
      SEQ ID NO:5651: n represents tta or deletion (Location 21).  
      SEQ ID NO:5665: n represents g or deletion (Location 21).  
      SEQ ID NO:5667: n represents a or deletion (Location 21).  
      SEQ ID NO:5669: n represents cct or deletion (Location 21).  
      SEQ ID NO:5680: n represents gga or deletion (Location 21).  
      SEQ ID NO:5690: n represents 12 to 14 repeats oft (from Location 21).  
      SEQ ID NO:5695: n represents 16 to 17 repeats of t (from Location 21).  
      SEQ ID NO:5707: n represents g or deletion (Location 21).  
      SEQ ID NO:5740: n represents c or deletion (Location 21).  
      SEQ ID NO:5800: n represents ag or deletion (Location 21).  
      SEQ ID NO:5806: n represents g or deletion (Location 21).  
      SEQ ID NO:5807: n represents a or deletion (Location 21).  
      SEQ ID NO:5835: n represents g or deletion (Location 21).  
      SEQ ID NO:5839: n represents c or deletion (Location 21).  
      SEQ ID NO:5844: n represents ct or deletion (Location 21).  
      SEQ ID NO:5846: n represents gc or deletion (Location 21).  
      SEQ ID NO:5849: n represents c or deletion (Location 21).  
      SEQ ID NO:5884: n represents c or deletion (Location 21).  
      SEQ ID NO:5890: n represents tc or deletion (Location 21).  
      SEQ ID NO:5902: n represents c or deletion (Location 21).  
      SEQ ID NO:5904: n represents g or deletion (Location 21).  
      SEQ ID NO:5917: n represents a or deletion (Location 21).  
      SEQ ID NO:5921: n represents ca or deletion (Location 21).  
      SEQ ID NO:5922: n represents t or deletion (Location 21).  
      SEQ ID NO:5934: n represents ct or deletion (Location 21).  
      SEQ ID NO:5965: n represents a or deletion (Location 21).  
      SEQ ID NO:5980: n represents t or deletion (Location 21).  
      SEQ ID NO:5981: n represents t or deletion (Location 21).  
      SEQ ID NO:5981: n represents 11 to 13 repeats oft (from Location 21).  
      SEQ ID NO:5987: n represents t or deletion (Location 21).  
      SEQ ID NO:5989: n represents 16 to 18 repeats of t (from Location 21).  
      SEQ ID NO:5991: n represents ctta or deletion (Location 21).  
      SEQ ID NO:5992: n represents c or deletion (Location 21).  
      SEQ ID NO:5994: n represents 10 to 12 repeats of a (from Location 21).  
      SEQ ID NO:5995: n represents gt or deletion (Location 21).  
      SEQ ID NO:5996: n represents a or deletion (Location 21).  
      SEQ ID NO:6001: n represents aatt or deletion (Location 21).  
      SEQ ID NO:6003: n represents t or deletion (Location 21).  
      SEQ ID NO:6009: n represents g or deletion (Location 21).  
      SEQ ID NO:6021: n represents at or deletion (Location 21).  
      SEQ ID NO:6027: n represents 4 to 5 repeats of caaaa (from Location 21).  
      SEQ ID NO:6036: n represents 9 to 10 repeats of a (from Location 21).  
      SEQ ID NO:6041: n represents a or deletion (Location 21).  
      SEQ ID NO:6047: n represents t or deletion (Location 21).  
      SEQ ID NO:6051: n represents t or deletion (Location 21).  
      SEQ ID NO:6052: n represents g or deletion (Location 21).  
      SEQ ID NO:6060: n represents t or deletion (Location 21).  
      SEQ ID NO:6061: n represents t or deletion (Location 21).  
      SEQ ID NO:6062: n represents a or deletion (Location 21).  
      SEQ ID NO:6072: n represents gaa or deletion (Location 21).  
      SEQ ID NO:6073: n represents ag or deletion (Location 21).  
      SEQ ID NO:6089: n represents 9 to 11 repeats of t (from Location 21).  
      SEQ ID NO:6090: n represents a or deletion (Location 21).  
      SEQ ID NO:6091: n represents t or deletion (Location 21).  
      SEQ ID NO:6173: n represents tat or deletion (Location 21).  
      SEQ ID NO:6174: n represents 14 to 17 repeats of ac (from Location 21).  
      SEQ ID NO:6175: n represents 16 to 27 repeats of a (from Location 21).  
      SEQ ID NO:6176: n represents t or deletion (Location 21).  
      SEQ ID NO:6177: n represents 8 to 10 repeats of a (from Location 21).  
      SEQ ID NO:6178: n represents 9 to 11 repeats of gt (from Location 21).  
      SEQ ID NO:6179: n represents aa or deletion (Location 21).  
      SEQ ID NO:6180: n represents t or deletion (Location 21).  
      SEQ ID NO:6181: n represents 8 to 12 repeats of ac (from Location 21).  
      SEQ ID NO:6182: n represents a or deletion (Location 21).  
      SEQ ID NO:6202: n represents agg or deletion (Location 21).  
      SEQ ID NO:6204: n represents 11 to 15 repeats of a (from Location 21).  
      SEQ ID NO:6205: n represents 11 to 14 repeats of a (from Location 21).  
      SEQ ID NO:6208: n represents gt or deletion (Location 21).  
      SEQ ID NO:6224: n represents ta or deletion (Location 21).  
      SEQ ID NO:6307: n represents 16 to 19 repeats of a (from Location 21).  
      SEQ ID NO:6308: n represents aa or deletion (Location 21).  
      SEQ ID NO:6310: n represents t or deletion (Location 21).  
      SEQ ID NO:6311: n represents 10 to 12 repeats oft (from Location 21).  
      SEQ ID NO:6312: n represents aa or deletion (Location 21).  
      SEQ ID NO:6313: n represents ttgacagtccaatat, ttgaca, gtccaatat or deletion (Location 21).  
      SEQ ID NO:6314: n represents cta or deletion (Location 21).  
      SEQ ID NO:6315: n represents a or deletion (Location 21).  
      SEQ ID NO:6317: n represents 9 to 11 repeats of t (From Location 21).  
      SEQ ID NO:6318: n represents c or deletion (Location 21).  
      SEQ ID NO:6320: n represents gagatgttgtggctcacat or deletion (Location 21).  
      SEQ ID NO:6322: n represents cc or deletion (Location 21).  
      SEQ ID NO:6323: n represents act or deletion (Location 21).  
      SEQ ID NO:6405: n represents a or deletion (Location 21).  
      SEQ ID NO:6415: n represents 8 to 11 repeats oft (from Location 21).  
      SEQ ID NO:6416: n represents 10 to 13 repeats oft (from Location 21).  
      SEQ ID NO:6472: n represents g or deletion (Location 21).  
      SEQ ID NO:6473: n represents c or deletion (Location 21).  
      SEQ ID NO:6554: n represents t or deletion (Location 21).  
      SEQ ID NO:6555: n represents 12 to 15 repeats oft (from Location 21).  
      SEQ ID NO:6609: n represents a or deletion (Location 21).  
      SEQ ID NO:6610: n represents at or deletion (Location 21).  
      SEQ ID NO:6725: n represents 16 repeats of cctgc or 16 repeats of cctgt (from Location 21).  
      SEQ ID NO:6726: n represents t or deletion (Location 21).  
      SEQ ID NO:6728: n represents c or deletion (Location 21).  
      SEQ ID NO:6739: n represents acac or deletion (Location 21).  
      SEQ ID NO:6748: n represents gatttgtggtatccag or deletion (Location 21).  
      SEQ ID NO:6750: n represents ag or deletion (Location 21).  
      SEQ ID NO:6751: n represents ta or deletion (Location 21).  
      SEQ ID NO:6757: n represents t or deletion (Location 21).  
      SEQ ID NO:6759: n represents 12 to 14 repeats of gt from Location 21).  
      SEQ ID NO:6771: n represents cagaggct or deletion (Location 21).  
      SEQ ID NO:6772: n represents ct or deletion (Location 21).  
      SEQ ID NO:6773: n represents ag or deletion (Location 21).  
      SEQ ID NO:6785: n represents gtaaa or deletion (Location 21).  
      SEQ ID NO:6786: n represents aaaaa or deletion (Location 21).  
      SEQ ID NO:6787: n represents a or deletion (Location 21).  
      SEQ ID NO:6828: n represents tc or deletion (Location 21).  
      SEQ ID NO:6830: n represents t or deletion (Location 21).  
      SEQ ID NO:6831: n represents t or deletion (Location 21).  
      SEQ ID NO:6832: n represents gaagaaactgttgacagttt or deletion (Location 21).  
      SEQ ID NO:6833: n represents cct or deletion (Location 21).  
      SEQ ID NO:6834: n represents tttc or deletion (Location 21).  
      SEQ ID NO:6835: n represents ttcttttaaaattg or deletion (Location 21).  
      SEQ ID NO:6837: n represents ttcaggccttt or deletion (Location 21).  
      SEQ ID NO:6839: n represents ggcctg or deletion (Location 21).  
      SEQ ID NO:6841: n represents a or deletion (Location 21).  
      SEQ ID NO:6870: n represents 9 to 11 repeats of c (from Location 21).  
      SEQ ID NO:6871: n represents 15 to 21 repeats of a (from Location 21).  
      SEQ ID NO:6872: n represents ggggtggcggggtggg or deletion (Location 21).  
      SEQ ID NO:6873: n represents t or deletion (Location 21).  
      SEQ ID NO:6874: n represents a or deletion (Location 21).  
      SEQ ID NO:6876: n represents a or deletion (Location 21).  
      SEQ ID NO:6877: n represents 10 to 12 repeats oft (from Location 21).  
      SEQ ID NO:6878: n represents tt or deletion (Location 21).  
      SEQ ID NO:6880: n represents tccctccttgaagctgatcgt or deletion (Location 21).  
      SEQ ID NO:6881: n represents 12 to 18 repeats of ca (from Location 21).  
      SEQ ID NO:6894: n represents gtt or deletion (Location 21).  
      SEQ ID NO:6897: n represents ga or deletion (Location 21).  
      SEQ ID NO:6921: n represents t or deletion (Location 21).  
      SEQ ID NO:6940: n represents t or deletion (Location 21).  
      SEQ ID NO:6941: n represents t or deletion (Location 21).  
      SEQ ID NO:6942: n represents t or deletion (Location 21).  
      SEQ ID NO:6965: n represents at or deletion (Location 21).  
      SEQ ID NO:6966: n represents a or deletion (Location 21).  
      SEQ if NO:6967: n represents c or deletion (Location 21).  
      SEQ ID NO:6997: n represents c or deletion (Location 21).  
      SEQ ID NO:7005: n represents t or deletion (Location 21).  
      SEQ ID NO:7006: n represents ttc or deletion (Location 21).  
      SEQ ID NO:7017: n represents ctt or deletion (Location 21).  
      SEQ ID NO:7049: n represents 8 to 9 repeats of a (from Location 21).  
      SEQ ID NO:7053: n represents 10 to 12 repeats of t (from Location 21).  
      SEQ ID NO:7059: n represents 22 to 25 repeats of t (from Location 21).  
      SEQ ID NO:7070: n represents t or deletion (Location 21).  
      SEQ ID NO:7073: n represents a or deletion (Location 21).  
      SEQ ID NO:7074: n represents a or deletion (Location 21).  
      SEQ ID NO:7076: n represents c or deletion (Location 21).  
      SEQ ID NO:7077: n represents 10 to 12 repeats oft (from Location 21).  
      SEQ ID NO:7078: n represents a or deletion (Location 21).  
      SEQ ID NO:7079: n represents 9 to 11 repeats of t (from Location 21).  
      SEQ ID NO:7082: n represents a or deletion (Location 21).  
      SEQ ID NO:7085: n represents t or deletion (Location 21).  
      SEQ ID NO:7089: n represents a or deletion (Location 21).  
      SEQ ID NO:7101: n represents a or deletion (Location 21).  
      SEQ ID NO:7105: n represents a or deletion (Location 21).  
      SEQ ID NO:7114: n represents 9 to 10 repeats of t (from Location 21).  
      SEQ ID NO:7115: n represents aag or deletion (Location 21).  
      SEQ ID NO:7117: n represents t or deletion (Location 21).  
      SEQ ID NO:7118: n represents t or deletion (Location 21).  
      SEQ ID NO:7120: n represents t or deletion (Location 21).  
      SEQ ID NO:7121: n represents t or deletion (Location 21).  
      SEQ ID NO:7123: n represents t or deletion (Location 21).  
      SEQ ID NO:7125: n represents a or deletion (Location 21).  
      SEQ ID NO:7127: n represents a or deletion (Location 21).  
      SEQ ID NO:7134: n represents 7 to 8 repeats of gt (from Location 21).  
      SEQ ID NO:7146: n represents cct or deletion (Location 21).  
      SEQ ID NO:7148: n represents tc or deletion (Location 21).  
      SEQ ID NO:7164: n represents ca or deletion (Location 21).  
      SEQ ID NO:7186: n represents g or deletion (Location 21).  
      SEQ ID NO:7209: n represents t or deletion (Location 21).  
      SEQ ID NO:7238: n represents gccag or deletion (Location 21).  
      SEQ ID NO:7278: n represents a or deletion (Location 21).  
      SEQ ID NO:7281: n represents g or deletion (Location 21).  
      SEQ ID NO:7282: n represents t or deletion (Location 21).  
      SEQ ID NO:7287: n represents aaa or deletion (Location 21).  
      SEQ ID NO:7288: n represents a or deletion (Location 21).  
      SEQ ID NO:7299: n represents c or deletion (Location 21).  
      SEQ ID NO:7329: n represents 17 to 19 repeats of a (from Location 21).  
      SEQ ID NO:7332: n represents 16 to 18 repeats of a (from Location 21).  
      SEQ ID NO:7333: n represents 4 to 6 repeats of ga (from Location 21).  
      SEQ ID NO:7346: n represents a or deletion (Location 21).  
      SEQ ID NO:7375: n represents 2 to 3 repeats of tc (from Location 21).  
      SEQ ID NO:7381: n represents 6 to 7 repeats of a (from Location 21).  
      SEQ ID NO:7383: n represents 13 to 15 repeats of a (from Location 21).  
      SEQ ID NO:7385: n represents 9 to 10 repeats oft (from Location 21).  
      SEQ ID NO:7387: n represents 11 to 14 repeats of a (from Location 21).  
      SEQ ID NO:7389: n represents 14 to 17 repeats oft (from Location 21).  
      SEQ ID NO:7390: n represents 8 to 9 repeats of a (from Location 21).  
      SEQ ID NO:7397: n represents g or deletion (Location 21).  
      SEQ ID NO:7417: n represents 14 to 17 repeats oft (from Location 21).  
      SEQ ID NO:7421: n represents 7 to 9 repeats of g (from Location 21).  
      SEQ ID NO:7426: n represents 9 to 10 repeats of a (from Location 21).  
      SEQ ID NO:7434: n represents 9 to 10 repeats of a (from Location 21).  
      SEQ ID NO:7436: n represents 6 to 7 repeats of g (from Location 21).  
      SEQ ID NO:7443: n represents g or deletion (Location 21).  
      SEQ ID NO:7458: n represents 8 to 9 repeats of a (from Location 21).  
      SEQ ID NO:7461: n represents 4 to 6 repeats of c (from Location 21).  
      SEQ ID NO:7483: n represents ggcgaaggcggcggc or deletion (Location 21).  
      SEQ ID NO:7485: n represents ata or deletion (Location 21).  
      SEQ ID NO:7488: n represents 11 to 12 repeats of t (from Location 21).  
      SEQ ID NO:7489: n represents 12 to 14 repeats of t (from Location 21).  
      SEQ ID NO:7493: n represents 9 to 10 repeats oft (from Location 21).  
      SEQ ID NO:7495: n represents 6 to 7 repeats of ta (from Location 21).  
      SEQ ID NO:7497: n represents tgtatacgtatacatacgtatacatatatacatacgtatata or deletion (Location 21).  
      SEQ ID NO:7503: n represents attt or deletion (Location 21).  
      SEQ ID NO:7510: n represents cct or deletion (Location 21).  
      SEQ ID NO:7519: n represents tgtt or deletion (Location 21).  
      SEQ ID NO:7520: n represents a or deletion (Location 21).  
      SEQ ID NO:7531: n represents 9 to 10 repeats of t (from Location 21).  
      SEQ ID NO:7538: n represents a or deletion (Location 21).  
      SEQ ID NO:7566: n represents a or deletion (Location 21).  
      SEQ ID NO:7615: n represents a or deletion (Location 21).  
      SEQ ID NO:7649: n represents gtg or deletion (Location 21).  
      SEQ ID NO:7651: n represents gg or tggtggggtgga (Location 21).  
      SEQ ID NO:7667: n represents ct or deletion (Location 21).  
      All publications and patents mentioned in the above specification are herein incorporated by reference. Various modifications and variations of the described method and system of the invention will be apparent to those skilled in the art without departing from the scope and spirit of the invention. Although the invention has been described in connection with specific preferred embodiments, it should be understood that the invention as claimed should not be unduly limited to such specific embodiments. Indeed, various modifications of the described modes for carrying out the invention which are obvious to those skilled in the relevant fields are intended to be within the scope of the following claims.