The present technology relates generally to methods and compositions for targeted nucleic acid sequence enrichment, as well as uses of such enrichment for error-corrected nucleic acid sequencing applications. In some embodiments, highly accurate, error corrected and massively parallel sequencing of nucleic acid material is possible using a combination of uniquely labeled strands in a double-stranded nucleic acid complex in such a way that each strand can be informatically related to its complementary strand, but also distinguished from it following sequencing of each strand or an amplified product derived therefrom. In various embodiments, this information can be used for the purpose of error correction of the determined sequence.

The present technology relates generally to methods and compositions for targeted nucleic acid sequence enrichment, as well as uses of such enrichment for error-corrected nucleic acid sequencing applications. In some embodiments, highly accurate, error corrected and massively parallel sequencing of nucleic acid material is possible using a combination of uniquely labeled strands in a double-stranded nucleic acid complex in such a way that each strand can be informatically related to its complementary strand, but also distinguished from it following sequencing of each strand or an amplified product derived therefrom. In various embodiments, this information can be used for the purpose of error correction of the determined sequence.

The present disclosure is concerned with compositions and methods for the paired-end sequencing of target nucleic acids, and more particularly to obtaining nucleotide sequence information from two separate regions of target nucleic acids using amplification sites having a single type of surface primer.

The present disclosure is concerned with compositions and methods for the paired-end sequencing of target nucleic acids, and more particularly to obtaining nucleotide sequence information from two separate regions of target nucleic acids using amplification sites having a single type of surface primer.

The invention is a novel adaptor containing barcodes for sequencing nucleic acids with a reduced rate of errors.

The invention is a novel adaptor containing barcodes for sequencing nucleic acids with a reduced rate of errors.

A method for sequencing a nucleic acid template includes: (a) performing a first sequencing process including flowing nucleotides and/or reagents to the nucleic acid template according to a first predetermined ordering of nucleotides and/or reagents to obtain a first sequencing result; (b) after the first sequencing process, performing a second sequencing process including flowing nucleotides and/or reagents to the nucleic acid template according to a second predetermined ordering of nucleotides and/or reagents to obtain a second sequencing result, the second predetermined ordering of nucleotides and/or reagents being different from the first predetermined ordering of nucleotides and/or reagents and at least one of the first and second predetermined orderings of nucleotides and/or reagents being designed for repeat sequencing; and (c) determining a sequence of bases corresponding to at least a portion of the nucleic acid template using both the first sequencing result and the second sequencing result.

A method for sequencing a nucleic acid template includes: (a) performing a first sequencing process including flowing nucleotides and/or reagents to the nucleic acid template according to a first predetermined ordering of nucleotides and/or reagents to obtain a first sequencing result; (b) after the first sequencing process, performing a second sequencing process including flowing nucleotides and/or reagents to the nucleic acid template according to a second predetermined ordering of nucleotides and/or reagents to obtain a second sequencing result, the second predetermined ordering of nucleotides and/or reagents being different from the first predetermined ordering of nucleotides and/or reagents and at least one of the first and second predetermined orderings of nucleotides and/or reagents being designed for repeat sequencing; and (c) determining a sequence of bases corresponding to at least a portion of the nucleic acid template using both the first sequencing result and the second sequencing result.

Provided herein are systems and sets of oligonucleotides for labeling and analyzing nucleic acid molecules that include index barcodes with pre-determined numbers of index positions. Also provided herein are methods for labeling and analyzing nucleic acid molecules, as well as methods of identifying erroneous sequence reads using the sample and molecular barcodes described herein.

Provided herein are systems and sets of oligonucleotides for labeling and analyzing nucleic acid molecules that include index barcodes with pre-determined numbers of index positions. Also provided herein are methods for labeling and analyzing nucleic acid molecules, as well as methods of identifying erroneous sequence reads using the sample and molecular barcodes described herein.