The present disclosure relates to novel methods of discriminating and/or detecting mis-matched polynucleotide populations in a sample by determining the ratios of mismatched polynucleotide species after specific enzymatic digestion treatment. Aspects of this disclosure includes obtaining, enhancing and/or determining the amount of one DNA or RNA species versus another in a given sample following enzyme digestion treatment; determining the relative abundance of the species contained in the sample based on the changes in the relative ratios following enzymatic treatment.

The present disclosure relates to novel methods of discriminating and/or detecting mis-matched polynucleotide populations in a sample by determining the ratios of mismatched polynucleotide species after specific enzymatic digestion treatment. Aspects of this disclosure includes obtaining, enhancing and/or determining the amount of one DNA or RNA species versus another in a given sample following enzyme digestion treatment; determining the relative abundance of the species contained in the sample based on the changes in the relative ratios following enzymatic treatment.

The present disclosure provides a system and method for depleting target nucleic acids from a nucleic acid sample. In one aspect, a kit according to the present disclosure includes a plurality of DNA probes. Each of the DNA probes is hybridizable to form a heteroduplex with at least one of a plurality of target RNA transcripts in a nucleic acid sample. The number of unique target RNA transcripts hybridized by the plurality of DNA probes is at least three. The kit further includes an enzyme having RNA-DNA hybrid ribonucleotidohydrolase activity, where degrades at least the RNA portion of the heteroduplex.

The present disclosure provides a system and method for depleting target nucleic acids from a nucleic acid sample. In one aspect, a kit according to the present disclosure includes a plurality of DNA probes. Each of the DNA probes is hybridizable to form a heteroduplex with at least one of a plurality of target RNA transcripts in a nucleic acid sample. The number of unique target RNA transcripts hybridized by the plurality of DNA probes is at least three. The kit further includes an enzyme having RNA-DNA hybrid ribonucleotidohydrolase activity, where degrades at least the RNA portion of the heteroduplex.

Nucleic acids primers for use in the detection of mutations in KRAS, EGFR and P53 associated with cancer, and in particular provides nucleic acids and methods employing reaction conditions suitable for use in COLD-PCR and high resolution melting HRM analysis of circulating tumour DNA, particularly from lung and colon cancers. The invention further relates to a combination of KRAS and APC mutations in diagnosing cancer.

Nucleic acids primers for use in the detection of mutations in KRAS, EGFR and P53 associated with cancer, and in particular provides nucleic acids and methods employing reaction conditions suitable for use in COLD-PCR and high resolution melting HRM analysis of circulating tumour DNA, particularly from lung and colon cancers. The invention further relates to a combination of KRAS and APC mutations in diagnosing cancer.

Methods and compositions for performing base-by-base sequencing in situ in a cell or tissue sample that minimize optical crowding are described. In some embodiments, a sequencing primer hybridizes to a priming site 3 to an identifier sequence (e.g., a barcode sequence) in the sample such that the sequencing primer can be extended by a polymerase in a base-by-base fashion using the identifier sequence as a template. The sample can be contacted with nucleotides in a cyclic series of nucleotide incorporation or binding steps, and signals indicative of the incorporation or binding events can be detected to generate signal code sequences comprising a series of signal codes (corresponding to signals (ON signals), absence of signals (OFF signals), or a combination thereof) detected in the sequential cycles. Decoding of the identifier sequences based at least in part of the signal code sequences can be used to detect and locate the corresponding analytes.

Methods and compositions for performing base-by-base sequencing in situ in a cell or tissue sample that minimize optical crowding are described. In some embodiments, a sequencing primer hybridizes to a priming site 3 to an identifier sequence (e.g., a barcode sequence) in the sample such that the sequencing primer can be extended by a polymerase in a base-by-base fashion using the identifier sequence as a template. The sample can be contacted with nucleotides in a cyclic series of nucleotide incorporation or binding steps, and signals indicative of the incorporation or binding events can be detected to generate signal code sequences comprising a series of signal codes (corresponding to signals (ON signals), absence of signals (OFF signals), or a combination thereof) detected in the sequential cycles. Decoding of the identifier sequences based at least in part of the signal code sequences can be used to detect and locate the corresponding analytes.

The present disclosure provides a system and method for depleting target nucleic acids from a nucleic acid sample. In one aspect, a kit according to the present disclosure includes a plurality of DNA probes. Each of the DNA probes is hybridizable to form a heteroduplex with at least one of a plurality of target RNA transcripts in a nucleic acid sample. The number of unique target RNA transcripts hybridized by the plurality of DNA probes is at least three. The kit further includes an enzyme having RNA-DNA hybrid ribonucleotidohydrolase activity, where degrades at least the RNA portion of the heteroduplex.

The present disclosure provides a system and method for depleting target nucleic acids from a nucleic acid sample. In one aspect, a kit according to the present disclosure includes a plurality of DNA probes. Each of the DNA probes is hybridizable to form a heteroduplex with at least one of a plurality of target RNA transcripts in a nucleic acid sample. The number of unique target RNA transcripts hybridized by the plurality of DNA probes is at least three. The kit further includes an enzyme having RNA-DNA hybrid ribonucleotidohydrolase activity, where degrades at least the RNA portion of the heteroduplex.