Patent ID: 9340834
Filing Date: 2016-05-17
CPC Classification: C12Q,H05K

Claim Text:
1. A method for identifying one or more of a plurality of sequences differing by one or more single-base changes, insertions, deletions, or translocations in a plurality of target nucleotide sequences comprising: providing a sample potentially containing one or more target nucleotide sequences with a plurality of sequence differences; providing a plurality of oligonucleotide probe sets, each set characterized by (a) a first oligonucleotide probe, having a target-specific portion and an addressable array-specific portion, and (b) a second oligonucleotide probe, having a target-specific portion and a detectable reporter label, wherein the oligonucleotide probes in a particular set are suitable for ligation together when hybridized adjacent to one another on a corresponding target nucleotide sequence, but have a mismatch which interferes with such ligation when hybridized to any other nucleotide sequence present in the sample; providing a ligase, blending the sample, the plurality of oligonucleotide probe sets, and the ligase to form a mixture; subjecting the mixture to one or more ligase detection reaction cycles comprising a denaturation treatment, wherein any hybridized oligonucleotides are separated from the target nucleotide sequences, and a hybridization treatment, wherein the oligonucleotide probe sets hybridize at adjacent positions in a base-specific manner to their respective target nucleotide sequences, if present in the sample, and ligate to one another to form a ligated product sequence containing (a) the addressable array-specific portion, (b) the target-specific portions connected together, and (c) the detectable reporter label, and, wherein the oligonucleotide probe sets may hybridize to nucleotide sequences in the sample other than their respective target nucleotide sequences but do not ligate together due to a presence of one or more mismatches and individually separate during the denaturation treatment; providing a support with different capture oligonucleotides immobilized at different positions, wherein the capture oligonucleotides have nucleotide sequences complementary to the addressable array-specific portions and are formed from a collection of double multimer unit oligonucleotides, wherein oligonucleotides with addressable array-specific portions will hybridize, within a temperature range of more than 24° C., to the capture oligonucleotides, and wherein the double multimer unit oligonucleotides are formed from sets of four to eight tetramers where (1) each tetramer within a set differs from all other tetramers in the set by at least two nucleotide bases, (2) no two tetramers within a set are complementary to one another, and (3) no tetramers within a set are palindromic or dinucleotide repeats, and the collection of double multimer unit oligonucleotides has had the following oligonucleotides removed from it: (1) oligonucleotides having a melting temperature in ° C. less than of 11 times the number of tetramers and more than 15 times the number of tetramers, (2) double multimer units with the same 3 tetramers linked together, and (3) double multimer units with the same 4 tetramers linked together with or without interruption, to form a modified collection of double multimer units; contacting the mixture, after said subjecting, with the support under conditions effective to hybridize the addressable array-specific portion of the ligated product sequences to the capture oligonucleotides in a base-specific manner, thereby capturing the addressable array-specific portions on the support at the site with the complementary capture oligonucleotide; and detecting the reporter labels of ligated product sequences captured on the support at particular sites, thereby indicating the presence of one or more target nucleotide sequences in the sample.