Binary encoded sequence tags
First Claim
1. A method of producing binary sequence tags from nucleic acid fragments in a nucleic acid sample, the method comprising(a) incubating a nucleic acid sample with one or more first nucleic acid cleaving reagents to produce nucleic acid fragments, wherein the first nucleic acid cleaving reagents are not type IIS restriction enzymes, (b) mixing one or more offset adaptors with the nucleic acid sample and covalently coupling the offset adaptors to the nucleic acid fragments, (c) incubating the nucleic acid sample with one or more second nucleic acid cleaving reagents to produce nucleic acid fragments with sticky ends, wherein the second nucleic acid cleaving reagents cleave at a site offset from their recognition sequence, wherein each offset adaptor has a recognition sequence for at least one of the second nucleic acid cleaving reagents, (d) mixing one or more adaptor-indexers with the nucleic acid sample and covalently coupling the adaptor-indexers to the nucleic acid fragments, wherein each adaptor-indexer has a different sticky end, wherein each sticky end of the adaptor-indexers is compatible with a sticky end generated by the second nucleic acid cleaving reagents, wherein the nucleic acid fragments to which offset adaptors and adaptor-indexers have been coupled are binary sequence tags.
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Abstract
Disclosed is a method for the comprehensive analysis of nucleic acid samples and a detector composition for use in the method. The method, referred to as Binary Encoded Sequence Tags (BEST), involves generation of a set of nucleic acid fragments; adding an adaptor to the ends containing recognition site for cleavage at a site offset from the recognition site; cleaving the fragment to generate fragments having a plurality sticky ends; indexing of the fragments into sets based on the sequence of sticky ends. The fragments are indexed by adding a offset adaptor to newly generated ends. A different adaptor will be coupled to each different sticky end. The resulting fragments—which will have defined ends, be of equal lengths (in preferred embodiment), and a central sequence derived from the source nucleic acid molecule—are binary sequence tags. The binary sequence tags can be used and further analyzed in numerous ways. For example, the binary sequence tags can be captured by hybridization and coupling, preferably by ligation, to a probe. The probe is preferably immobilized in an array or on sortable beads. One form of the BEST method, referred to as modification assisted analysis of binary sequence tags (MAABST), assesses modification of sequences in nucleic acid molecules by detecting differential cleavage based on the presence or absence of modification in the molecules.
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Citations
131 Claims
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1. A method of producing binary sequence tags from nucleic acid fragments in a nucleic acid sample, the method comprising
(a) incubating a nucleic acid sample with one or more first nucleic acid cleaving reagents to produce nucleic acid fragments, wherein the first nucleic acid cleaving reagents are not type IIS restriction enzymes, (b) mixing one or more offset adaptors with the nucleic acid sample and covalently coupling the offset adaptors to the nucleic acid fragments, (c) incubating the nucleic acid sample with one or more second nucleic acid cleaving reagents to produce nucleic acid fragments with sticky ends, wherein the second nucleic acid cleaving reagents cleave at a site offset from their recognition sequence, wherein each offset adaptor has a recognition sequence for at least one of the second nucleic acid cleaving reagents, (d) mixing one or more adaptor-indexers with the nucleic acid sample and covalently coupling the adaptor-indexers to the nucleic acid fragments, wherein each adaptor-indexer has a different sticky end, wherein each sticky end of the adaptor-indexers is compatible with a sticky end generated by the second nucleic acid cleaving reagents, wherein the nucleic acid fragments to which offset adaptors and adaptor-indexers have been coupled are binary sequence tags.
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117. A method of producing binary sequence tags from nucleic acid fragments in a nucleic acid sample, the method comprising
(a) incubating a nucleic acid sample with one or more first nucleic acid cleaving reagents to produce nucleic acid fragments, wherein the first nucleic acid cleaving reagents are not type IIS restriction enzymes, (b) mixing one or more first offset adaptor strands with the nucleic acid sample and covalently coupling the first offset adaptor strands to the nucleic acid fragments, wherein, after coupling, the first offset adaptor strands are fully or partially single-stranded, (c) treating the nucleic acid sample to result in full or partial complementary sequences hybridized to the first offset adaptor strands, (d) incubating the nucleic acid sample with one or more second nucleic acid cleaving reagents to produce nucleic acid fragments with sticky ends, wherein the second nucleic acid cleaving reagents cleave at a site offset from their recognition sequence, wherein each first offset adaptor strand has a recognition sequence for at least one of the second nucleic acid cleaving reagents, (e) mixing one or more adaptor-indexers with the nucleic acid sample and covalently coupling the adaptor-indexers to the nucleic acid fragments, wherein each adaptor-indexer has a different sticky end, wherein each sticky end of the adaptor-indexers is compatible with a sticky end generated by the second nucleic acid cleaving reagents, wherein the nucleic acid fragments to which offset adaptors and adaptor-indexers have been coupled are binary sequence tags.
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121. A method of producing binary sequence tags from nucleic acid fragments in a nucleic acid sample, the method comprising
(a) incubating a nucleic acid sample with one or more first nucleic acid cleaving reagents to produce nucleic acid fragments, wherein the first nucleic acid cleaving reagents are not type IIS restriction enzymes, (b) mixing one or more offset adaptors with the nucleic acid sample and covalently coupling the offset adaptors to the nucleic acid fragments, (d) incubating the nucleic acid sample with one or more second nucleic acid cleaving reagents to produce nucleic acid fragments with sticky ends, wherein the second nucleic acid cleaving reagents cleave at a site offset from their recognition sequence, wherein each first offset adaptor strand has a recognition sequence for at least one of the second nucleic acid cleaving reagents, (e) mixing one or more first adaptor-indexer strands with the nucleic acid sample and covalently coupling the first adaptor-indexer strands to the nucleic acid fragments, wherein each first adaptor-indexer strand has a different end sequence, wherein each end sequence of the first adaptor-indexer strands is compatible with a sticky end generated by the second nucleic acid cleaving reagents, wherein, after coupling, the first adaptor-indexer strands are fully or partially single-stranded, wherein the nucleic acid fragments to which offset adaptors and first adaptor-indexer strands have been coupled are binary sequence tags.
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126. A method of producing binary sequence tags from nucleic acid fragments in a nucleic acid sample, the method comprising
(a) incubating a nucleic acid sample with one or more first nucleic acid cleaving reagents to produce nucleic acid fragments, wherein the first nucleic acid cleaving reagents are not type IIS restriction enzymes, (b) mixing one or more first offset adaptor strands with the nucleic acid sample and covalently coupling the first offset adaptor strands to the nucleic acid fragments, wherein, after coupling, the first offset adaptor strands are fully or partially single-stranded, (c) treating the nucleic acid sample to result in full or partial complementary sequences hybridized to the first offset adaptor strands, (d) incubating the nucleic acid sample with one or more second nucleic acid cleaving reagents to produce nucleic acid fragments with sticky ends, wherein the second nucleic acid cleaving reagents cleave at a site offset from their recognition sequence, wherein each first offset adaptor strand has a recognition sequence for at least one of the second nucleic acid cleaving reagents, (e) mixing one or more first adaptor-indexer strands with the nucleic acid sample and covalently coupling the first adaptor-indexer strands to the nucleic acid fragments, wherein each first adaptor-indexer strand has a different end sequence, wherein each end sequence of the first adaptor-indexer strands is compatible with a sticky end generated by the second nucleic acid cleaving reagents, wherein, after coupling, the first adaptor-indexer strands are fully or partially single-stranded, wherein the nucleic acid fragments to which offset adaptors and adaptor-indexers have been coupled are binary sequence tags.
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130. A method of producing binary sequence tags from nucleic acid fragments in a nucleic acid sample, the method comprising
(a) incubating a nucleic acid sample with one or more first nucleic acid cleaving reagents to produce nucleic acid fragments, (b) mixing one or more offset adaptors with the nucleic acid sample and covalently coupling the offset adaptors to the nucleic acid fragments, (c) incubating the nucleic acid sample with one or more second nucleic acid cleaving reagents to produce nucleic acid fragments with sticky ends, wherein the second nucleic acid cleaving reagents cleave at a site offset from their recognition sequence, wherein each offset adaptor has a recognition sequence for at least one of the second nucleic acid cleaving reagents, (d) mixing one or more adaptor-indexers with the nucleic acid sample and covalently coupling the adaptor-indexers to the nucleic acid fragments, wherein each adaptor-indexer has a different sticky end, wherein each sticky end of the adaptor-indexers is compatible with a sticky end generated by the second nucleic acid cleaving reagents, wherein the nucleic acid fragments to which offset adaptors and adaptor-indexers have been coupled are binary sequence tags, (e) hybridizing one or more ligator-detectors with the binary sequence tags, wherein each ligator-detector comprises sequence matching or complementary to all or part of sequence including, and adjacent to, the sticky end of at least one of the adaptor-indexers, (f) hybridizing the nucleic acid sample with a detector array comprising one or more probes and covalently coupling the ligator-detectors to the probes, wherein each probe has a different sequence, and (g) detecting, directly or indirectly, coupling of ligator-detectors to the detector array probes.
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131. A method of producing binary sequence tags from nucleic acid fragments in a nucleic acid sample, the method comprising
(a) incubating a nucleic acid sample with one or more first nucleic acid cleaving reagents to produce nucleic acid fragments, (b) mixing one or more offset adaptors with the nucleic acid sample and covalently coupling the offset adaptors to the nucleic acid fragments, (c) incubating the nucleic acid sample with one or more second nucleic acid cleaving reagents to produce nucleic acid fragments with sticky ends, wherein the second nucleic acid cleaving reagents cleave at a site offset from their recognition sequence, wherein the second nucleic acid cleaving reagents do not cleave in the recognition sequences of the first nucleic acid cleaving reagents, wherein each offset adaptor has a recognition sequence for at least one of the second nucleic acid cleaving reagents, (d) mixing one or more adaptor-indexers with the nucleic acid sample and covalently coupling the adaptor-indexers to the nucleic acid fragments, wherein each adaptor-indexer has a different sticky end, wherein each sticky end of the adaptor-indexers is compatible with a sticky end generated by the second nucleic acid cleaving reagents, wherein the nucleic acid fragments to which offset adaptors and adaptor-indexers have been coupled are binary sequence tags.
Specification