Patent Application: US-13839208-A

Abstract:
microarrays are employed to analyze soybean transcriptions under water stress conditions in both root and leaf tissues at vegetative stage . novel drought responsive genes may be thus identified and may be used for enhancing drought tolerance in soybean or other plants through genetic / metabolic engineering . this disclosure pertains to nucleic acid molecules isolated from soybean that encode polypeptides that may be important for drought tolerance . the disclosure also relates to methods of using these genes from soybean in transgenic plants to confer the desired agronomic traits , and to use such genes or regulatory elements thereof to assist germplasm enhancement by molecular breeding or to identify other factors or chemicals that may enhance a plant &# 39 ; s capability to grow under drought conditions .

Description:
the methods and materials described herein relate to gene expression profiling using microarrays , and follow - up analysis to decode the regulatory network that controls a plant &# 39 ; s response to stress . more particularly , drought response is analyzed at the molecular level to identify genes and / or promoters which may be activated under water deficit conditions . the coding sequences of such genes may be introduced into a host plant to obtain transgenic plants that are more tolerant to drought than unmodified plants . it is to be understood that the materials and methods are taught by way of example , and not by limitation . the disclosed instrumentalities may be broader than the particular methods and materials described herein , which may vary within the skill of the art . it is also to be understood that the terminology used herein is for the purpose of describing particular embodiments only , and is not intended to be limiting . further , unless defined otherwise , all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the related art . the following terminology and grammatical variants are used in accordance with the definitions set out below . the present disclosure provides genes whose expression levels are altered in response to stress conditions in soybean plants using genome - wide microarray ( or gene chip ) analysis of soybean plants grown under water deficit conditions . those genes identified using microarray analysis may be subject to validation to confirm that their expression levels are altered under the stress conditions . validation may be conducted using high throughput two - step qrt - pcr or by the delta delta ct method . sequences of those genes that have been validated may be subject to further sequence analysis by comparing their sequences to published sequences of various families of genes or proteins . for instance , some of these drgs may encode proteins with substantial sequence similarity to known transcription factors . these transcription factors may play a role in the stress response by activating the transcription of other genes . the present disclosure provides a system and a method for expressing a protein that may enhance a host &# 39 ; s capability to grow or to survive in an adverse environment characterized by water deficit . although plants are the most preferred host for purpose of this disclosure , the genetic constructs described herein may be introduced into other eukaryotic organisms , if the traits conferred upon these organisms by the constructs are desirable . the term “ transgenic plant ” refers to a host plant into which a gene construct has been introduced . a gene construct , also referred to as a construct , an expression construct , or a dna construct , generally contains as its components at least a coding sequence and a regulatory sequence . a gene construct typically contains at least on component that is foreign to the host plant . for purpose of this disclosure , all components of a gene construct may be from the host plant , but these components are not arranged in the host in the same manner as they are in the gene construct . a regulatory sequence is a non - coding sequence that typically contribute to the regulation of gene expression , at the transcription or translation levels . it is to be understood that certain segments in the coding sequence may be translated but may be later removed from the functional protein . an example of these segments is the so - called signal peptide , which may facilitate the maturation or localization of the translated protein , but is typically removed once the protein reaches its destination . examples of a regulatory sequence include but are not limited to a promoter , an enhancer , and certain post - transcriptional regulatory elements . after its introduction into a host plant , a gene construct may exist separately from the host chromosomes . preferably , the entire gene construct , or at least part of it , is integrated onto a host chromosome . the integration may be mediated by a recombination event , which may be homologous , or non - homologous recombination . the term “ express ” or “ expression ” refers to production of rnas using dnas as template through transcription or translation of proteins from rnas or the combination of both transcription and translation . a “ host cell ,” as used herein , refers to a prokaryotic or eukaryotic cell that contains heterologous dna which has been introduced into the cell by any means , e . g ., electroporation , calcium phosphate precipitation , microinjection , transformation , viral infection , and / or the like . a “ host plant ” is a plant into which a transgene is to be introduced . a “ vector ” is a composition for facilitating introduction , replication and / or expression of a selected nucleic acid in a cell . vectors include , for example , plasmids , cosmids , viruses , yeast artificial chromosomes ( yacs ), etc . a “ vector nucleic acid ” is a nucleic acid vector into which heterologous nucleic acid is optionally inserted and which can then be introduced into an appropriate host cell . vectors preferably have one or more origins of replication , and one or more sites into which the recombinant dna can be inserted . vectors often have convenient markers by which cells with vectors can be selected from those without . by way of example , a vector may encode a drug resistance gene to facilitate selection of cells that are transformed with the vector . common vectors include plasmids , phages and other viruses , and “ artificial chromosomes .” “ expression vectors ” are vectors that comprise elements that provide for or facilitate transcription of nucleic acids which are cloned into the vectors . such elements may include , for example , promoters and / or enhancers operably coupled to a nucleic acid of interest . “ plasmids ” generally are designated herein by a lower case “ p ” preceded and / or followed by capital letters and / or numbers , in accordance with standard nomenclatures that are familiar to those of skill in the art . starting plasmids disclosed herein are either commercially available , publicly available on an unrestricted basis , or can be constructed from available plasmids by routine application of well known , published procedures . many plasmids and other cloning and expression vectors are well known and readily available to those of skill in the art . moreover , those of skill readily may construct any number of other plasmids suitable for use as described below . the properties , construction and use of such plasmids , as well as other vectors , is readily apparent to those of ordinary skill upon reading the present disclosure . when a molecule is identified in or can be isolated from a organism , it can be said that such a molecule is derived from said organism . when two organisms have significant difference in the genetic materials in their respective genomes , these two organisms can be said to be genetically different . for purpose of this disclosure , the term “ plant ” means a whole plant , a seed , or any organ or tissue of a plant that may potentially develop into a whole plant . the term “ isolated ” means that the material is removed from its original environment , such as the native or natural environment if the material is naturally occurring . for example , a naturally - occurring nucleic acid , polypeptide , or cell present in a living animal is not isolated , but the same polynucleotide , polypeptide , or cell separated from some or all of the coexisting materials in the natural system , is isolated , even if subsequently reintroduced into the natural system . such nucleic acids can be part of a vector and / or such nucleic acids or polypeptides could be part of a composition , and still be isolated in that such vector or composition is not part of its natural environment . a “ recombinant nucleic acid ” is one that is made by recombining nucleic acids , e . g ., during cloning , dna evolution or other procedures . a “ recombinant polypeptide ” is a polypeptide which is produced by expression of a recombinant nucleic acid . an “ amino acid sequence ” is a polymer of amino acid residues ( a protein , polypeptide , etc .) or a character string representing an amino acid polymer , depending on context . either the given nucleic acid or the complementary nucleic acid can be determined from any specified polynucleotide sequence . the terms “ nucleic acid ,” or “ polynucleotide ” refer to a deoxyribonucleotide , in the case of dna , or ribonucleotide in the case of rna polymer in either single - or double - stranded form , and unless otherwise specified , encompasses known analogues of natural nucleotides that can be incorporated into nucleic acids in a manner similar to naturally occurring nucleotides . a “ polynucleotide sequence ” is a nucleic acid which is a polymer of nucleotides ( a , c , t , u , g , etc . or naturally occurring or artificial nucleotide analogues ) or a character string representing a nucleic acid , depending on context . either the given nucleic acid or the complementary nucleic acid can be determined from any specified polynucleotide sequence . a “ subsequence ” or “ fragment ” is any portion of an entire sequence of a dna , rna or polypeptide molecule , up to and including the complete sequence . typically a subsequence or fragment comprises less than the full - length sequence , and is sometimes referred to as the “ truncated version .” nucleic acids and / or nucleic acid sequences are “ homologous ” when they are derived , naturally or artificially , from a common ancestral nucleic acid or nucleic acid sequence . proteins and / or protein sequences are homologous when their encoding dnas are derived , naturally or artificially , from a common ancestral nucleic acid or nucleic acid sequence . similarly , nucleic acids and / or nucleic acid sequences are homologous when they are derived , naturally or artificially , from a common ancestral nucleic acid or nucleic acid sequence . the homologous molecules can be termed homologs . for example , any naturally occurring drgs , as described herein , can be modified by any available mutagenesis method . when expressed , this mutagenized nucleic acid encodes a polypeptide that is homologous to the protein encoded by the original drgs . homology is generally inferred from sequence identity between two or more nucleic acids or proteins ( or sequences thereof ). the precise percentage of identity between sequences that is useful in establishing homology varies with the nucleic acid and protein at issue , but as little as 25 % sequence identity is routinely used to establish homology . higher levels of sequence identity , e . g ., 30 %, 40 %, 50 %, 60 %, 70 %, 80 %, 90 %, 95 % or 99 % or more can also be used to establish homology . methods for determining sequence identity percentages ( e . g ., blastp and blastn using default parameters ) are described herein and are generally available . the terms “ identical ” or “ sequence identity ” in the context of two nucleic acid sequences or amino acid sequences of polypeptides refers to the residues in the two sequences which are the same when aligned for maximum correspondence over a specified comparison window . a “ comparison window ”, as used herein , refers to a segment of at least about 20 contiguous positions , usually about 50 to about 200 , more usually about 100 to about 150 in which a sequence may be compared to a reference sequence of the same number of contiguous positions after the two sequences are aligned optimally . methods of alignment of sequences for comparison are well - known in the art . optimal alignment of sequences for comparison may be conducted by the local homology algorithm of smith and waterman ( 1981 ) adv . appl . math . 2 : 482 ; by the alignment algorithm of needleman and wunsch ( 1970 ) j . mol . biol . 48 : 443 ; by the search for similarity method of pearson and lipman ( 1988 ) proc . nat . acad . sci . u . s . a . 85 : 2444 ; by computerized implementations of these algorithms ( including , but not limited to clustal in the pc / gene program by intelligentics , mountain view calif ., gap , bestfit , blast , fasta , and tfasta in the wisconsin genetics software package , genetics computer group ( gcg ), 575 science dr ., madison , wis ., u . s . a . ); the clustal program is well described by higgins and sharp ( 1988 ) gene 73 : 237 - 244 and higgins and sharp ( 1989 ) cabios 5 : 151 - 153 ; corpet et al . ( 1988 ) nucleic acids res . 16 : 10881 - 10890 ; huang et al ( 1992 ) computer applications in the biosciences 8 : 155 - 165 ; and pearson et al . ( 1994 ) methods in molecular biology 24 : 307 - 331 . alignment is also often performed by inspection and manual alignment . in one class of embodiments , the polypeptides herein are at least 70 %, generally at least 75 %, optionally at least 80 %, 85 %, 90 %, 98 % or 99 % or more identical to a reference polypeptide , e . g ., those that are encoded by dna sequences as set forth by any one of the drgs disclosed herein or a fragment thereof , e . g ., as measured by blastp ( or clustal , or any other available alignment software ) using default parameters . similarly , nucleic acids can also be described with reference to a starting nucleic acid , e . g ., they can be 50 %, 60 %, 70 %, 75 %, 80 %, 85 %, 90 %, 98 %, 99 % or more identical to a reference nucleic acid , e . g ., those that are set forth by any one of the drgs disclosed herein or a fragment thereof , e . g ., as measured by blastn ( or clustal , or any other available alignment software ) using default parameters . when one molecule is said to have certain percentage of sequence identity with a larger molecule , it means that when the two molecules are optimally aligned , said percentage of residues in the smaller molecule finds a match residue in the larger molecule in accordance with the order by which the two molecules are optimally aligned . the term “ substantially identical ” as applied to nucleic acid or amino acid sequences means that a nucleic acid or amino acid sequence comprises a sequence that has at least 90 % sequence identity or more , preferably at least 95 %, more preferably at least 98 % and most preferably at least 99 %, compared to a reference sequence using the programs described above ( preferably blast ) using standard parameters . for example , the blastn program ( for nucleotide sequences ) uses as defaults a word length ( w ) of 11 , an expectation ( e ) of 10 , m = 5 , n =− 4 , and a comparison of both strands . for amino acid sequences , the blastp program uses as defaults a word length ( w ) of 3 , an expectation ( e ) of 10 , and the blosum62 scoring matrix ( see henikoff & amp ; henikoff , proc . natl . acad . sci . usa 89 : 10915 ( 1989 )). percentage of sequence identity is determined by comparing two optimally aligned sequences over a comparison window , wherein the portion of the polynucleotide sequence in the comparison window may comprise additions or deletions ( i . e ., gaps ) as compared to the reference sequence ( which does not comprise additions or deletions ) for optimal alignment of the two sequences . the percentage is calculated by determining the number of positions at which the identical nucleic acid base or amino acid residue occurs in both sequences to yield the number of matched positions , dividing the number of matched positions by the total number of positions in the window of comparison and multiplying the result by 100 to yield the percentage of sequence identity . preferably , the substantial identity exists over a region of the sequences that is at least about 50 residues in length , more preferably over a region of at least about 100 residues , and most preferably the sequences are substantially identical over at least about 150 residues . in a most preferred embodiment , the sequences are substantially identical over the entire length of the coding regions . the term “ polypeptide ” is used interchangeably with the terms “ polypeptides ” and “ protein ( s )”, and refers to a polymer of amino acid residues . a ‘ mature protein ’ is a protein which is full - length and which , optionally , includes glycosylation or other modifications typical for the protein in a given cellular environment . the term “ variant ” or “ mutant ” with respect to a polypeptide refers to an amino acid sequence that is altered by one or more amino acids with respect to a reference sequence . the variant may have “ conservative ” changes , wherein a substituted amino acid has similar structural or chemical properties , e . g ., replacement of leucine with isoleucine . alternatively , a variant may have “ nonconservative ” changes , e . g ., replacement of a glycine with a tryptophan . analogous minor variation can also include amino acid deletion or insertion , or both . guidance in determining which amino acid residues can be substituted , inserted , or deleted without eliminating biological or immunological activity can be found using computer programs well known in the art , for example , dnastar software . a variety of additional terms are defined or otherwise characterized herein . in practicing the instrumentalities described herein , many conventional techniques in molecular biology , microbiology , and recombinant dna are optionally used . these techniques are well known to those of ordinary skill in the art . for example , one skilled in the art would be familiar with techniques for in vitro amplification methods , including the polymerase chain reaction ( pcr ), for the production of the homologous nucleic acids described herein . in addition , commercially available kits may facilitate the purification of plasmids or other relevant nucleic acids from cells . see , for example , easyprep ™ and flexiprep ™ kits , both from pharmacia biotech ; strataclean ™ from stratagene ; and , qiaprep ™ from qiagen . any isolated and / or purified nucleic acid can be further manipulated to produce other nucleic acids , used to transfect cells , incorporated into related vectors to infect organisms , or the like . typical cloning vectors contain transcription terminators , transcription initiation sequences , and promoters useful for regulation of the expression of the particular target nucleic acid . the vectors optionally comprise generic expression cassettes containing at least one independent terminator sequence , sequences permitting replication of the cassette in eukaryotes , or prokaryotes , or both , ( e . g ., shuttle vectors ) and selection markers for both prokaryotic and eukaryotic systems . vectors are suitable for replication and integration in prokaryotes , eukaryotes , or both . various types of mutagenesis are optionally used to modify drgs and their encoded polypeptides , as described herein , to produce conservative or non - conservative variants . any available mutagenesis procedure can be used . such mutagenesis procedures optionally include selection of mutant nucleic acids and polypeptides for one or more activity of interest . procedures that can be used include , but are not limited to : site - directed point mutagenesis , random point mutagenesis , in vitro or in vivo homologous recombination ( dna shuffling ), mutagenesis using uracil - containing templates , oligonucleotide - directed mutagenesis , phosphorothioate - modified dna mutagenesis , mutagenesis using gapped duplex dna , point mismatch repair , mutagenesis using repair - deficient host strains , restriction - selection and restriction - purification , deletion mutagenesis , mutagenesis by total gene synthesis , double - strand break repair , mutagenesis by chimeric constructs , and many others known to persons of skill in the art . in one embodiment , mutagenesis can be guided by known information about the naturally occurring molecule or altered or mutated naturally occurring molecule . by way of example , this known information may include sequence , sequence comparisons , physical properties , crystal structure and the like . in another class of mutagenesis , modification is essentially random , e . g ., as in classical dna shuffling . polypeptides may include variants , in which the amino acid sequence has at least 70 % identity , preferably at least 80 % identity , typically 90 % identity , preferably at least 95 % identity , more preferably at least 98 % identity and most preferably at least 99 % identity , to the amino acid sequences as encoded by the dna sequences set forth in any one of the drgs disclosed herein . the aforementioned polypeptides may be obtained by any of a variety of methods . smaller peptides ( less than 50 amino acids long ) are conveniently synthesized by standard chemical techniques and can be chemically or enzymatically ligated to form larger polypeptides . polypeptides can be purified from biological sources by methods well known in the art , for example , as described in protein purification , principles and practice , second edition scopes , springer verlag , n . y . ( 1987 ) polypeptides are optionally but preferably produced in their naturally occurring , truncated , or fusion protein forms by recombinant dna technology using techniques well known in the art . these methods include , for example , in vitro recombinant dna techniques , synthetic techniques and in vivo genetic recombination . see , for example , the techniques described in sambrook et al . ( 2001 ) molecular cloning , a laboratory manual , third edition , cold spring harbor press , n . y . ; and ausubel et al ., eds . ( 1997 ) current protocols in molecular biology , green publishing associates , inc ., and john wiley & amp ; sons , inc ., n . y ( supplemented through 2002 ). rna encoding the proteins may also be chemically synthesized . see , for example , the techniques described in oligonucleotide synthesis , ( 1984 ) gait ed ., irl press , oxford , which is incorporated by reference herein in its entirety . the nucleic acid molecules described herein may be expressed in a suitable host cell or an organism to produce proteins . expression may be achieved by placing a nucleotide sequence encoding these proteins into an appropriate expression vector and introducing the expression vector into a suitable host cell , culturing the transformed host cell under conditions suitable for expression of the proteins described or variants thereof , or a polypeptide that comprises one or more domains of such proteins . the recombinant proteins from the host cell may be purified to obtain purified and , preferably , active protein . alternatively , the expressed protein may be allowed to function in the intact host cell or host organism . appropriate expression vectors are known in the art , and may be purchased or applied for use according to the manufacturer &# 39 ; s instructions to incorporate suitable genetic modifications . for example , pet - 14b , pcdna1amp , and pvl1392 are available from novagen and invitrogen , and are suitable vectors for expression in e . coli , mammalian cells and insect cells , respectively . these vectors are illustrative of those that are known in the art , and many other vectors can be used for the same purposes . suitable host cells can be any cell capable of growth in a suitable media and allowing purification of the expressed protein . examples of suitable host cells include bacterial cells , such as e . coli , streptococci , staphylococci , streptomyces and bacillus subtilis cells ; fungal cells such as saccharomyces and aspergillus cells ; insect cells such as drosophila s2 and spodoptera sf9 cells , mammalian cells such as cho , cos , hela , 293 cells ; and plant cells . culturing and growth of the transformed host cells can occur under conditions that are known in the art . the conditions will generally depend upon the host cell and the type of vector used . suitable culturing conditions may be used such as temperature and chemicals and will depend on the type of promoter utilized . purification of the proteins or domains of such proteins , if desired , may be accomplished using known techniques without performing undue experimentation . generally , the transformed cells expressing one of these proteins are broken , crude purification occurs to remove debris and some contaminating proteins , followed by chromatography to further purify the protein to the desired level of purity . host cells may be broken by known techniques such as homogenization , sonication , detergent lysis and freeze - thaw techniques . crude purification can occur using ammonium sulfate precipitation , centrifugation or other known techniques . suitable chromatography includes anion exchange , cation exchange , high performance liquid chromatography ( hplc ), gel filtration , affinity chromatography , hydrophobic interaction chromatography , etc . well known techniques for refolding proteins can be used to obtain the active conformation of the protein when the protein is denatured during intracellular synthesis , isolation or purification . in general , drg proteins or domains , or antibodies to such proteins can be purified , either partially ( e . g ., achieving a 5 ×, 10 ×, 10 ×, 500 ×, or 1000 × or greater purification ), or even substantially to homogeneity ( e . g ., where the protein is the main component of a solution , typically excluding the solvent ( e . g ., water or dmso ) and buffer components ( e . g ., salts and stabilizers ) that the protein is suspended in , e . g ., if the protein is in a liquid phase ), according to standard procedures known to and used by those of skill in the art . accordingly , the polypeptides can be recovered and purified by any of a number of methods well known in the art , including , e . g ., ammonium sulfate or ethanol precipitation , acid or base extraction , column chromatography , affinity column chromatography , anion or cation exchange chromatography , phosphocellulose chromatography , hydrophobic interaction chromatography , hydroxylapatite chromatography , lectin chromatography , gel electrophoresis and the like . protein refolding steps can be used , as desired , in making correctly folded mature proteins . high performance liquid chromatography ( hplc ), affinity chromatography or other suitable methods can be employed in final purification steps where high purity is desired . in one embodiment , antibodies made against the proteins described herein are used as purification reagents , e . g ., for affinity - based purification of proteins comprising one or more drg protein domains or antibodies thereto . once purified , partially or to homogeneity , as desired , the polypeptides are optionally used e . g ., as assay components , therapeutic reagents or as immunogens for antibody production . in addition to other references noted herein , a variety of purification methods are well known in the art , including , for example , those set forth in r . scopes , protein purification , springer - verlag , n . y . ( 1982 ); deutscher , methods in enzymology vol . 182 : guide to protein purification , academic press , inc . n . y . ( 1990 ); sandana , bioseparation of proteins , academic press , inc . ( 1997 ); bollag et al ., protein methods , 2nd edition wiley - liss , ny ; walker ( 1996 ) the protein protocols handbook humana press , nj ; harris and angal protein purification applications : a practical approach irl press at oxford , oxford , england ( 1990 ); scopes , protein purification : principles and practice 3 rd edition springer verlag , ny ( 1993 ); janson and ryden , protein purification : principles , high resolution methods and applications , second edition wiley - vch , ny ( 1998 ); and walker , protein protocols on cd - rom humana press , nj ( 1998 ); and the references cited therein . after synthesis , expression and / or purification , proteins may possess a conformation different from the desired conformations of the relevant polypeptides . for example , polypeptides produced by prokaryotic systems often are optimized by exposure to chaotropic agents to achieve proper folding . during purification from , e . g ., lysates derived from e . coli , the expressed protein is optionally denatured and then renatured . this is accomplished , e . g ., by solubilizing the proteins in a chaotropic agent such as guanidine hcl . in general , it is occasionally desirable to denature and reduce expressed polypeptides and then to cause the polypeptides to re - fold into the preferred conformation . for example , guanidine , urea , dtt , dte , and / or a chaperonin can be added to a translation product of interest . methods of reducing , denaturing and renaturing proteins are well known to those of skill in the art . debinski , et al ., for example , describe the denaturation and reduction of inclusion body proteins in guanidine - dte . the proteins can be refolded in a redox buffer containing , e . g ., oxidized glutathione and l - arginine . refolding reagents can be flowed or otherwise moved into contact with the one or more polypeptide or other expression product , or vice - versa . in another aspect , antibodies to the drg proteins or fragments thereof may be generated using methods that are well known in the art . the antibodies may be utilized for detecting and / or purifying the drg proteins , optionally discriminating the proteins from various homologues . as used herein , the term “ antibody ” includes , but is not limited to , polyclonal antibodies , monoclonal antibodies , humanized or chimeric antibodies and biologically functional antibody fragments , which are those fragments sufficient for binding of the antibody fragment to the protein . general protocols that may be adapted for detecting and measuring the expression of the described drg proteins using the above mentioned antibodies are known . such methods include , but are not limited to , dot blotting , western blotting , competitive and noncompetitive protein binding assays , enzyme - linked immunosorbant assays ( elisa ), immunohistochemistry , fluorescence - activated cell sorting ( facs ), and other protocols that are commonly used and widely described in scientific and patent literature . sequence of the drg genes may also be used in genetic mapping of plants or in plant breeding . polynucleotides derived from the drg gene sequences may be used in in situ hybridization to determine the chromosomal locus of the drg genes on the chromosomes . these polynucleotides may also be used to detect segregation of different alleles at certain drg loci . sequence information of the drg genes may also be used to design oligonucleotides for detecting drg mrna levels in the cells or in plant tissues . for example , the oligonucleotides can be used in a northern blot analysis to quantify the levels of drg mrna . moreover , full - length or fragment of the drg genes may be used in preparing microarrays ( or gene chips ). full - length or fragment of the drg genes may also be used in microarray experiments to study expression profile of the drg genes . high - throughput screening can be conducted to measure expression levels of the drg genes in different cells or tissues . various compounds or other external factors may be screened for their effects expression of the drg gene expression . sequences of the drg genes and proteins may also provide a tool for identification of other proteins that may be involved in plant drought response . for example , chimeric drg proteins can be used as a “ bait ” to identify other proteins that interact with drg proteins in a yeast two - hybrid screening . recombinant drg proteins can also be used in pull - down experiment to identify their interacting proteins . these other proteins may be cofactors that enhance the function of the drg proteins , or they may be drg proteins themselves which have not been identified in the experiments disclosed herein . the drg polypeptides may possess structural features which can be recognized , for example , by using immunological assays . the generation of antisera which specifically bind the drg polypeptides , as well as the polypeptides which are bound by such antisera , are a feature of the disclosed embodiments . in order to produce antisera for use in an immunoassay , one or more of the immunogenic drg polypeptides or fragments thereof are produced and purified as described herein . for example , recombinant protein may be produced in a host cell such as a bacterial or an insect cell . the resultant proteins can be used to immunize a host organism in combination with a standard adjuvant , such as freund &# 39 ; s adjuvant . commonly used host organisms include rabbits , mice , rats , donkeys , chickens , goats , horses , etc . an inbred strain of mice may also be used to obtain more reproducible results due to the virtual genetic identity of the mice . the mice are immunized with the immunogenic drg polypeptides in combination with a standard adjuvant , such as freund &# 39 ; s adjuvant , and a standard mouse immunization protocol . see , for example , harlow and lane , antibodies , a laboratory manual , cold spring harbor publications , new york ( 1988 ), which provides comprehensive descriptions of antibody generation , immunoassay formats and conditions that can be used to determine specific immunoreactivity . alternatively , one or more synthetic or recombinant drg polypeptides or fragments thereof derived from the sequences disclosed herein is conjugated to a carrier protein and used as an immunogen . antisera that specifically bind the drg proteins may be used in a range of applications , including but not limited to immunofluorescence staining of cells for the expression level and localization of the drg proteins , cytological staining for the expression of drg proteins in tissues , as well as in western blot analysis . another aspect of the disclosure includes screening for potential or candidate modulators of drg protein activity . for example , potential modulators may include small molecules , organic molecules , inorganic molecules , proteins , hormones , transcription factors , or the like , which can be contacted to a cell or certain tissues that express the drg proteins to assess the effects , if any , of the candidate modulator upon drg protein activity . alternatively , candidate modulators may be screened to modulate expression of drg proteins . for example , potential modulators may include small molecules , organic molecules , inorganic molecules , proteins , hormones , transcription factors , or the like , which can be contacted to a cell or certain tissues that express the drg proteins , to assess the effects , if any , of the candidate modulator upon drg protein expression . expression of a drg gene described herein may be detected , for example , via northern blot analysis or quantitative ( optionally real time ) rt - pcr , before and after application of potential expression modulators . alternatively , promoter regions of the various drg genes may be coupled to reporter constructs including , without limitation , cat , beta - galactosidase , luciferase or any other available reporter , and may similarly be tested for expression activity modulation by the candidate modulator . promoter regions of the various genes are generally sequences in the proximity upstream of the start site of transcription , typically within 1 kb or less of the start site , such as within 500 bp , 250 bp or 100 bp of the start site . in certain cases , a promoter region may be located between 1 and 5 kb from the start site . in either case , whether the assay is to detect modulated activity or expression , a plurality of assays may be performed in a high - throughput fashion , for example , using automated fluid handling and / or detection systems in serial or parallel fashion . similarly , candidate modulators can be tested by contacting a potential modulator to an appropriate cell using any of the activity detection methods herein , regardless of whether the activity that is detected is the result of activity modulation , expression modulation or both . a method of modifying a plant may include introducing into a host plant one or more drg genes described above . the drg genes may be placed in an expression construct , which may be designed such that the drg protein ( s ) are expressed constitutively , or inducibly . the construct may also be designed such that the drg protein ( s ) are expressed in certain tissue ( s ), but not in other tissue ( s ). the drg protein ( s ) may enhance the ability of the host plant in drought tolerance , such as by reducing water loss or by other mechanisms that help a plant cope with water deficit growth conditions . the host plant may include any plants whose growth and / or yield may be enhanced by a modified drought response . methods for generating such transgenic plants is well known in the field . see e . g ., leandro peña ( editor ), transgenic plants : methods and protocols ( methods in molecular biology ), humana press , 2004 . the use of gene inhibition technologies such as antisense rna or co - suppression or double stranded rna interference is also within the scope of the present disclosure . in these approaches , the isolated gene sequence is operably linked to a suitable regulatory element . in one embodiment of the disclosure , the construct contains a dna expression cassette that contains , in addition to the dna sequences required for transformation and selection in said cells , a dna sequence that encodes a drg proteins or a drg modulator protein , with at least a portion of said dna sequence in an antisense orientation relative to the normal presentation to the transcriptional regulatory region , operably linked to a suitable transcriptional regulatory region such that said recombinant dna construct expresses an antisense rna or portion thereof of an antisense rna in the resultant transgenic plant . it is apparent to one of skill in the art that the polynucleotide encoding the drg proteins or a drg modulator proteins can be in the antisense ( for inhibition by antisense rna ) or sense ( for inhibition by co - suppression ) orientation , relative to the transcriptional regulatory region . alternatively a combination of sense and antisense rna expression can be utilized to induce double stranded rna interference . see , e . g ., chuang and meyerowitz , pnas 97 : 4985 - 4990 , 2000 ; also smith et al ., nature 407 : 319 - 320 , 2000 . these methods for generation of transgenic plants generally entail the use of transformation techniques to introduce the gene or construct encoding the drg proteins or a drg modulator proteins , or a part or a homolog thereof , into plant cells . transformation of a plant cell can be accomplished by a variety of different methodology . methods that have general utility include , for example , agrobacterium based systems , using either binary and / or cointegrate plasmids of both a . tumifaciens and a . rhyzogenies , ( see e . g ., u . s . pat . no . 4 , 940 , 838 , u . s . pat . no . 5 , 464 , 763 ), the biolistic approach ( see e . g ., u . s . pat . no . 4 , 945 , 050 , u . s . pat . no . 5 , 015 , 580 , u . s . pat . no . 5 , 149 , 655 ), microinjection , ( see e . g ., u . s . pat . no . 4 , 743 , 548 ), direct dna uptake by protoplasts , ( see e . g ., u . s . pat . no . 5 , 231 , 019 , u . s . pat . no . 5 , 453 , 367 ) or needle - like whiskers ( see e . g ., u . s . pat . no . 5 , 302 , 523 ). any method for the introduction of foreign dna into a plant cell and for expression therein may be used within the context of the present disclosure . plants that are capable of being transformed encompass a wide range of species , including but not limited to soybean , corn , potato , rice , wheat and many other crops , fruit plants , vegetables and tobacco . see generally , vain , p ., thirty years of plant transformation technology development , plant biotechnol j . 2007 march ; 5 ( 2 ): 221 - 9 . any plants that are capable of taking in foreign dna and transcribing the dna into rna and / or further translating the rna into a protein may be a suitable host . the modulators described above that may alter the expression levels or the activity of the drg proteins ( collectively called drg modulators ) may also be introduced into a host plant in the same or similar manner as described above . the drg proteins or the drg modulators may be used to modify a target plant by causing them to be assimilated by the plant . alternatively , the drg proteins or the drg modulators may be applied to a target plant by causing them to be in contact with the plant , or with a specific organ or tissue of the plant . in one embodiment , organic or inorganic molecules that can function as drg modulators may be caused to be in contact with a plant such that these chemicals may enhance the drought response of the target plant . in addition to the drg modulators , drg polypeptides or drg nucleic acids , a composition containing other ingredients may be introduced , administered or delivered to the plant to be modified . in one aspect , a composition containing an agriculturally acceptable ingredient may be used in conjunction with the drg modulators to be administered or delivered to the plant . bioinformatic systems are widely used in the art , and can be utilized to identify homology or similarity between different character strings , or can be used to perform other desirable functions such as to control output files , provide the basis for making presentations of information including the sequences and the like . examples include blast , discussed supra . for example , commercially available databases , computers , computer readable media and systems may contain character strings corresponding to the sequence information herein for the drg polypeptides and nucleic acids described herein . these sequences may include specifically the drg sequences listed herein and the various silent substitutions and conservative substitutions thereof . the bioinformatic systems contain a wide variety of information that includes , for example , a complete sequence listings for the entire genome of an individual organism representing a species . thus , for example , using the drg sequences as a basis for comparison , the bioinformatic systems may be used to compare different types of homology and similarity of various stringency and length on the basis of reported data . these comparisons are useful to identify homologs or orthologs where , for example , the basic drg gene ortholog is shown to be conserved across different organisms . thus , the bioinformatic systems may be used to detect or recognize the homologs or orthologs , and to predict the function of recognized homologs or orthologs . by way of example , many homology determination methods have been designed for comparative analysis of sequences of biopolymers including nucleic acids , proteins , etc . with an understanding of hydrogen bonding between the principal bases in natural polynucleotides , models that simulate annealing of complementary homologous polynucleotide strings can also be used as a foundation of sequence alignment or other operations typically performed on the character strings corresponding to the sequences herein . one example of a software package for calculating sequence similarity is blast , which can be adapted to the present invention by inputting character strings corresponding to the sequences herein . the software can also include output elements for controlling nucleic acid synthesis ( e . g ., based upon a sequence or an alignment of a sequences herein ) or other operations which occur downstream from an alignment or other operation performed using a character string corresponding to a sequence herein . in an additional aspect , kits may embody any of the methods , compositions , systems or apparatus described above . kits may optionally comprise one or more of the following : ( 1 ) a composition , system , or system component as described herein ; ( 2 ) instructions for practicing the methods described herein , and / or for using the compositions or operating the system or system components herein ; ( 3 ) a container for holding components or compositions , and , ( 4 ) packaging materials . the nonlimiting examples that follow report general procedures , reagents and characterization methods that teach by way of example , and should not be construed in a narrowing manner that limits the disclosure to what is specifically disclosed . those skilled in the art will understand that numerous modifications may be made and still the result will fall within the spirit and scope of the present invention . genetic material and the growing system : we have used cv williams 82 for our green house experiments . plants were grown in turface - sand medium in 3 gallon pots . one - month old soybean plants were subjected to gradual stress by withholding water and the samples were collected in three biological replicates . to quantitate the stress level we monitored relative water content ( rwc ), leaf water potential , and turface - soil mixture water potential and moisture content . leaf rwc , leaf water potential , and soil water content were 95 %. − 0 . 3 mpa , and 20 % ( v / v ), respectively , for well - watered samples . these values were 65 %, − 1 . 6 mpa , 9 . 6 % for the water - stressed samples . rna isolation and the microarray : flash - frozen plant tissue samples were ground under liquid nitrogen with a mortar and pestle . total rna is extracted using a modified trizol ( invitrogen corp ., carlsbad , calif .) protocol followed by additional purification using rneasy columns ( qiagen , valencia , calif .). rna quality is assayed using an agilent 2100bioanalyzer to determine integrity and purity ; rna purity is further assayed by measuring absorbance at 200 nm and 280 nm using a nanodrop spectrophotometer . microarray hybridization , data acquisition , and image processing : we used the pair wise comparison experimental plan for the microarray experiments . a total number of 12 hybridizations were conducted as : 2 biological conditions × 3 biological replicates × 2 tissue types . first strand gdna were synthesized with 30 pg total rna and t7 - oligo ( dt ) primer . the total rna were processed to use on affymetrix soybean genechip arrays , according to the manufacturer &# 39 ; s protocol ( affymetrix , santa clara , calif .). the genechip soybean genome array consists of 35 , 611 soybean transcripts ( details as in the results description ). microarray hybridization , washing and scanning with affymetrix high density scanner were performed according to the standard protocols . the scanned images were processed and the data acquired using gcos . having selected genes that are significantly correlated with phenotype or treatment , data mining is conducted using a variety of tools focusing on class discovery and class comparison in order to identify and prioritize candidates . confirmation of gene expression by qrt - pcr : validation of the microarray profiling and the expression of significant genes at significant time points in the experiments were determined by a high - throughput two - step quantitative rt - pcr ( qrt - pcr ) assay using sybr green on the abi 7900 ht and by the delta delta ct method ( applied biosystems ) developed in course of these studies . one - month old soybean plants were subjected to gradual stress by withholding water and the samples were collected in three biological replicates . to quantitate the stress level we monitored relative water content ( rwc ), leaf water potential , and surface - soil mixture water potential and moisture content . total rna isolation and microarray hybridizations were conducted using standard protocols . we used 60k soybean affymetrix genechips for the transcriptome profiling . the genechip ® soybean genome array is a 49 - format , 11 - micron array design , and it contains 11 probe pairs per probe set . sequence information for this array includes public content from genbank ® and dbest . sequence clusters were created from unigene build 13 ( nov . 5 , 2003 ). the genechip ® soybean genome array contains ˜ 60 , 000 transcripts and 37 , 500 transcripts are specific for soybean . in addition to extensive soybean coverage , the genechip ® soybean genome array includes probe sets to detect approximately 15 , 800 transcripts for phytophthora sojae ( a water mold that commonly attacks soybean crops ) as well as 7 , 500 heterodera glycines ( cyst nematode pathogen ) transcripts . ( www . affymetrix . com ) the affymetrix chip hybridization data of the soybean root under stress were processed . the statistical analysis of the data was performed using the mixed linear model anova ( log2 ( pm )˜ probe + trt + array ( trt )). the response variable “ log2 ( pm )” is the log base 2 transformed perfect match intensity after rma background correction and quantile normalization ; the covarlate “ probe ” indicates the probe levels since for each gene there are usually 11 probes ; “ tit ” is the treatment / condition effect and it specifies if the array considered is treatment or control ; “ array ( trt )” is the array nested within trt effect , as there are replicate arrays for each treatment . fdr adjusted p - value is less than 0 . 01 cutoff point where fdr_p is less than 0 . 01 . the statistically analyzed data were sorted and the functional classifications ( kog and go ) were performed . significantly differentially expressed transcripts in root and leaf tissues between well - watered and water stressed condition are : leaf tissue — 2497 up regulated , 938 down regulated root tissue — 885 up regulated , 5428 down regulated leaf vs root — 769 up regulated , 406 down regulated leaf tissue — 2088 up regulated , 863 down regulated root tissue — 800 up regulated , 5428 down regulated leaf vs root — 576 up regulated , 211 down regulated the functional classification of the differentially expressed genes in soybean leaf under drought condition is summarized in table 1 , which shows the numbers of genes that are either up - or down - regulated in each category as defined by protein function . genes or dna fragments from the leaf tissues that show at least two fold difference in expression levels between those soybean plants grown under normal water condition and those under drought conditions are listed in table 2 . sequences for the genes listed in tables 2 and 4 can be found in genbank , a nucleotide and protein sequence database maintained by the national center for biotechnology information ( ncbi ). in table 2 , the term fc stands for fold change , which represents the difference in transcript levels of an individual gene in a plant under normal condition as compared to a plant under water deficit condition as described herein . “ direction ” indicates whether the change is an increase or a decrease . “ publicid ” refers to the genbank accession # or other ids used in other publically available databases maintained by ncbi . the column under “ description and possible function ” contains functional description of a drg or its homolog . the functional classification of the differentially expressed genes in soybean root under drought condition is summarized in table 3 , which shows the numbers of genes that are either up - or down - regulated in each category as defined by protein function . genes or dna fragments from the root tissues that show at least two fold difference in expression levels between those soybean plants grown under normal water condition and those under drought conditions are listed in table 4 . the designation of columns are similar to those of table 2 . the sequences of all drgs listed in tables 2 and 4 as identified by the publicid are hereby incorporated by reference into this disclosure as if fully reproduced herein . based on database mining of transcription factors , domain homology analysis , and the soybean microarray data obtained in example 1 using drought - treated root tissues from greenhouse - grown plants , 199 candidate transcription factor genes or ests derived from these genes with putative function for drought tolerance were identified . 64 of the candidates showed high sequence similarity to known transcription factor domains and might possess high potential for drought tolerant gene identification . the remaining 135 of the candidates showed relatively low sequence similarity to known transcription factors domains and thus might represent a valuable resource for the identification of novel genes of drought tolerance . the candidates generally belonged to the nam , zinc finger , bhlh , myb , ap2 , ccaat - binding , bzip and wrky families . on the basis of family novelty and the magnitude of drought - inducibility , three transcripts were chosen for a pilot experiment to characterize and isolate promoters for drought tolerance studies . the three candidates were bgi56308 , bi970909 , and bi893889 , which belonged to the bhlh , ccaat - binding , and nam families , respectively . under drought condition , the expression levels of these three genes were increased from 2 . 5 to 252 - fold . moreover , no transcription factor from those families has been reported to control drought tolerance in soybean and other crops . therefore , these candidate genes may represent novel members of these families that may also play a role in plant drought response . functional characterization of these transcription factors may help elucidate pathways that are involved in plant drought response . validation of genes that are upregulated in response to drought conditions a set of 62 candidate drought response genes ( or drgs ) identified in the microarray experiment were further confirmed by quantitative reverse transcription - pcr ( qrt - rcr ). briefly , rna samples from root or leaf tissues obtained from soybean plants grown under normal or drought conditions were prepared as described in example 1 . cdna were prepared from these rna samples by reverse transcription . the cdna samples thus obtained were then used as template for pcr using primer pairs specific for 64 candidate genes . the pcr products of each gene under either drought or normal conditions were quantitated and the results are summarized in table 5 . the exact sequences of all transcripts listed in table 5 are shown in fig3 . some drgs shown in table 5 have been listed in tables 2 or 4 , while certain drgs shown in table 5 do not overlap with those listed in tables 2 or 4 . the column with the heading “ qrt - pcr root log ratio of expression level ” shows the base 2 logarithm of the ratio between the root expression level of the particular gene under drought condition and the expression level of the same gene under normal condition . similarly , the column with the heading “ qrt - pcr leaf log ratio of expression level ” shows a similar set of data obtained from leaf tissues . the qrt - pcr results are generally consistent with the microarray data , suggesting that the genes whose expression levels are up - regulated or down - regulated are likely to be true drought response genes ( drgs ). while the foregoing instrumentalities have been described in some detail for purposes of clarity and understanding , it will be clear to one skilled in the art from a reading of this disclosure that various changes in form and detail can be made without departing from the true scope of the invention . for example , all the techniques and apparatus described above may be used in various combinations . all publications , patents , patent applications , or other documents cited in this application are incorporated by reference in their entirety for all purposes to the same extent as if each individual publication , patent , patent application , or other document were individually indicated to be incorporated by reference for all purposes . boyer , j s , 1983 , environmental stress and crop yields . in c . d . raper and p . j . kramer ( ed ) crop reactions to water and temperature stresses in humid , temperature climates . westview press , boulder , colo . pp 3 - 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