Provided herein are oligomers, compositions, kits, and methods for capturing target polynucleotides, e.g., for downstream applications such as amplification, library preparation, or sequencing. In some embodiments, a capture oligomer is provided or used that comprises a capture sequence that is annealed to a complement that prevents capture until the complement is displaced in a target-polynucleotide dependent manner. In some embodiments, an amount of target polynucleotide is captured that is less than or equal to a predetermined amount.

Provided herein are oligomers, compositions, kits, and methods for capturing target polynucleotides, e.g., for downstream applications such as amplification, library preparation, or sequencing. In some embodiments, a capture oligomer is provided or used that comprises a capture sequence that is annealed to a complement that prevents capture until the complement is displaced in a target-polynucleotide dependent manner. In some embodiments, an amount of target polynucleotide is captured that is less than or equal to a predetermined amount.

Methods and systems for single molecule sequencing using concatemers of copies of sense and antisense strands. Concatemers are provided, for example, by carrying out rolling circle amplification on a circular molecule having sense and antisense regions to produce repeated copies of the sense and antisense regions connected by linking regions. The circular molecules can be produced by ligating hairpin adapters to each end of a double-stranded nucleic acid having a sense and antisense strand. The ligations can be carried out, for example using blunt end ligation. In some cases, a single molecule consensus sequence for a single template molecule is obtained. A single read from each template molecule can be obtained by comparing the sequence information of the sense and antisense regions.

Methods and systems for single molecule sequencing using concatemers of copies of sense and antisense strands. Concatemers are provided, for example, by carrying out rolling circle amplification on a circular molecule having sense and antisense regions to produce repeated copies of the sense and antisense regions connected by linking regions. The circular molecules can be produced by ligating hairpin adapters to each end of a double-stranded nucleic acid having a sense and antisense strand. The ligations can be carried out, for example using blunt end ligation. In some cases, a single molecule consensus sequence for a single template molecule is obtained. A single read from each template molecule can be obtained by comparing the sequence information of the sense and antisense regions.

Methods of isolating cell free RNA from individual's bodily fluid and reliably obtain cell free RNA data are presented, preferably by use of high-stability portions and/or use of targeted small amplicons on the cell free RNA.

Methods of isolating cell free RNA from individual's bodily fluid and reliably obtain cell free RNA data are presented, preferably by use of high-stability portions and/or use of targeted small amplicons on the cell free RNA.

A method for specifically and efficiently quantifying the expression of targeted RNA variants with specific terminal sequences suitable to identify multiple isoforms bearing complex heterogeneity in terminal sequences by hybridizing a 5′-Dbs-adapter to the 5′-end of target RNAs, wherein the 5′-Dbs-adapter has a stem-loop structure whose protruding 5′-end base-pairs with the 5′-end of target RNAs, and wherein the loop region of 5′-Dbs-adapter contains a base-lacking spacer which will terminate reverse transcription in a subsequent step; hybridizing a 3′db-adapter to the 3′-end of target RNAs, wherein the 3′-db-adapter has a stem-loop structure whose protruding 3′-end base-pairs with the 3′-end of target RNAs; ligating both adapters with target RNAs by RN12 ligation to form a “dumbbell-like” structure; and, amplifying and quantifying the ligation product by RT-PCR.

A method for specifically and efficiently quantifying the expression of targeted RNA variants with specific terminal sequences suitable to identify multiple isoforms bearing complex heterogeneity in terminal sequences by hybridizing a 5′-Dbs-adapter to the 5′-end of target RNAs, wherein the 5′-Dbs-adapter has a stem-loop structure whose protruding 5′-end base-pairs with the 5′-end of target RNAs, and wherein the loop region of 5′-Dbs-adapter contains a base-lacking spacer which will terminate reverse transcription in a subsequent step; hybridizing a 3′db-adapter to the 3′-end of target RNAs, wherein the 3′-db-adapter has a stem-loop structure whose protruding 3′-end base-pairs with the 3′-end of target RNAs; ligating both adapters with target RNAs by RN12 ligation to form a “dumbbell-like” structure; and, amplifying and quantifying the ligation product by RT-PCR.

The present invention provides oligonucleotides and methods for their use in the detection and/or differentiation of target nucleic acids. The oligonucleotides and methods find particular application in amplifying, detecting, and/or discriminating multiple targets simultaneously.

The present invention provides oligonucleotides and methods for their use in the detection and/or differentiation of target nucleic acids. The oligonucleotides and methods find particular application in amplifying, detecting, and/or discriminating multiple targets simultaneously.