Abstract: The present invention is directed to a method of designing a plurality of capture oligonucleotide probes for use on a support to which complementary oligonucleotide probes will hybridize with little mismatch, where the plural capture oligonucleotide probes have melting temperatures within a narrow range. The present invention further relates to an oligonucleotide array comprising of a support with the plurality of oligonucleotide probes immobilized on the support, a method of using the support to detect single-base changes, insertions, deletions, or translocations in a plurality of target nucleotide sequences, and a kit for such detection, which includes the support on which the oligonucleotides have been immobilized.

Abstract: The present invention is directed to a method of designing a plurality of capture oligonucleotide probes for use on a support to which complementary oligonucleotide probes will hybridize with little mismatch, where the plural capture oligonucleotide probes have melting temperatures within a narrow range. The present invention further relates to an oligonucleotide array comprising of a support with the plurality of oligonucleotide probes immobilized on the support, a method of using the support to detect single-base changes, insertions, deletions, or translocations in a plurality of target nucleotide sequences, and a kit for such detection, which includes the support on which the oligonucleotides have been immobilized.

Abstract: The present invention is directed to a method of designing a plurality of capture oligonucleotide probes for use on a support to which complementary oligonucleotide probes will hybridize with little mismatch, where the plural capture oligonucleotide probes have melting temperatures within a narrow range. The present invention further relates to an oligonucleotide array comprising of a support with the plurality of oligonucleotide probes immobilized on the support, a method of using the support to detect single-base changes, insertions, deletions, or translocations in a plurality of target nucleotide sequences, and a kit for such detection, which includes the support on which the oligonucleotides have been immobilized.

Abstract: The present invention is directed to a method of designing a plurality of capture oligonucleotide probes for use on a support to which complementary oligonucleotide probes will hybridize with little mismatch, where the plural capture oligonucleotide probes have melting temperatures within a narrow range. The present invention further relates to an oligonucleotide array comprising of a support with the plurality of oligonucleotide probes immobilized on the support, a method of using the support to detect single-base changes, insertions, deletions, or translocations in a plurality of target nucleotide sequences, and a kit for such detection, which includes the support on which the oligonucleotides have been immobilized.

Abstract: The present invention is directed to a method of designing a plurality of capture oligonucleotide probes for use on a support to which complementary oligonucleotide probes will hybridize with little mismatch, where the plural capture oligonucleotide probes have melting temperatures within a narrow range. The present invention further relates to an oligonucleotide array comprising of a support with the plurality of oligonucleotide probes immobilized on the support, a method of using the support to detect single-base changes, insertions, deletions, or translocations in a plurality of target nucleotide sequences, and a kit for such detection, which includes the support on which the oligonucleotides have been immobilized.

Abstract: The present invention is directed to a method of designing a plurality of capture oligonucleotide probes for use on a support to which complementary oligonucleotide probes will hybridize with little mismatch, where the plural capture oligonucleotide probes have melting temperatures within a narrow range. The first step of the method involves providing a first set of a plurality of tetramers of four nucleotides linked together, where (1) each tetramer within the 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, (3) no tetramers within a set are palindromic or dinucleotide repeats, and (4) no tetramer within a set has one or less or three or more G or C nucleotides. Groups of 2 to 4 of the tetramers from the first set are linked together to form a collection of multimer units.

Abstract: The present invention is directed to a method of designing a plurality of capture oligonucleotide probes for use on a support to which complementary oligonucleotide probes will hybridize with little mismatch, where the plural capture oligonucleotide probes have melting temperatures within a narrow range. The first step of the method involves providing a first set of a plurality of tetramers of four nucleotides linked together, where (1) each tetramer within the first set differs from all other tetramers in the first set by at least two nucleotide bases, (2) no two tetramers within the first set are complementary to one another, (3) no tetramers within the first set are palindromic or dinucleotide repeats, and (4) no tetramer within the first set has one or less or three or more G or C nucleotides. Groups of 2 to 4 of the tetramers from the first set are linked together to form a collection of multimer units.

Abstract: The present invention is directed to a method of designing a plurality of capture oligonucleotide probes for use on a support to which complementary oligonucleotide probes will hybridize with little mismatch, where the plural capture oligonucleotide probes have melting temperatures within a narrow range. The first step of the method involves providing a first set of a plurality of tetramers of four nucleotides linked together, where (1) each tetramer within the 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, (3) no tetramers within a set are palindromic or dinucleotide repeats, and (4) no tetramer within a set has one or less or three or more G or C nucleotides. Groups of 2 to 4 of the tetramers from the first set are linked together to form a collection of multimer units.

Abstract: The present invention is directed to a method of designing a plurality of capture oligonucleotide probes for use on a support to which complementary oligonucleotide probes will hybridize with little mismatch, where the plural capture oligonucleotide probes have melting temperatures within a narrow range. The first step of the method involves providing a first set of a plurality of tetramers of four nucleotides linked together, where (1) each tetramer within the first set differs from all other tetramers in the first set by at least two nucleotide bases, (2) no two tetramers within the first set are complementary to one another, (3) no tetramers within the first set are palindromic or dinucleotide repeats, and (4) no tetramer within the first set has one or less or three or more G or C nucleotides. Groups of 2 to 4 of the tetramers from the first set are linked together to form a collection of multimer units.

Abstract: The present invention is directed to a method of designing a plurality of capture oligonucleotide probes for use on a support to which complementary oligonucleotide probes will hybridize with little mismatch, where the plural capture oligonucleotide probes have melting temperatures within a narrow range. The first step of the method involves providing a first set of a plurality of tetramers of four nucleotides linked together, where (1) each tetramer within the 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, (3) no tetramers within a set are palindromic or dinucleotide repeats, and (4) no tetramer within a set has one or less or three or more G or C nucleotides. Groups of 2 to 4 of the tetramers from the first set are linked together to form a collection of multimer units.