Provided is a method including detecting an incorporation of a labelled nucleotide into a nascent polynucleotide strand complementary to a template polynucleotide strand by a polymerase, wherein the polymerase is tethered to a solid support conductive channel by a tether and the labelled nucleotides is a compound of Formula I: ##STR00001##

Provided is a method including detecting an incorporation of a labelled nucleotide into a nascent polynucleotide strand complementary to a template polynucleotide strand by a polymerase, wherein the polymerase is tethered to a solid support conductive channel by a tether and the labelled nucleotides is a compound of Formula I: ##STR00001##

Provided are methods of producing a nucleic acid complex. In certain aspects, the methods include combining a sample including ribosomal RNA (rRNA) and a probe complement oligonucleotide with an oligonucleotide probe. The oligonucleotide probe includes a 3′ region complementary to a 3′ region of a rRNA, and a 5′ region complementary to the probe complement oligonucleotide. The combining is under conditions in which the 3′ region of the oligonucleotide probe hybridizes to the 3′ region of the rRNA and the 5′ region of the oligonucleotide probe hybridizes to the probe complement oligonucleotide, thereby producing a nucleic acid complex. In certain aspects, the methods find use in producing rRNA libraries that find use, e.g., in rRNA sequencing applications. Oligonucleotide probes, libraries thereof, compositions, and kits that find use, e.g., in practicing the methods of the present disclosure, are also provided.

Provided are methods of producing a nucleic acid complex. In certain aspects, the methods include combining a sample including ribosomal RNA (rRNA) and a probe complement oligonucleotide with an oligonucleotide probe. The oligonucleotide probe includes a 3′ region complementary to a 3′ region of a rRNA, and a 5′ region complementary to the probe complement oligonucleotide. The combining is under conditions in which the 3′ region of the oligonucleotide probe hybridizes to the 3′ region of the rRNA and the 5′ region of the oligonucleotide probe hybridizes to the probe complement oligonucleotide, thereby producing a nucleic acid complex. In certain aspects, the methods find use in producing rRNA libraries that find use, e.g., in rRNA sequencing applications. Oligonucleotide probes, libraries thereof, compositions, and kits that find use, e.g., in practicing the methods of the present disclosure, are also provided.

Disclosed herein, inter alia, are methods and compositions for sequencing a plurality of template nucleic acids.

Disclosed herein, inter alia, are methods and compositions for sequencing a plurality of template nucleic acids.

A method of forming a polymer matrix array includes treating a surface within a well of a well array with a surface compound including a surface reactive functional group and a radical-forming distal group; applying an aqueous solution including polymer precursors to the well of the well array; and activating the radical-forming distal group of the surface coupling compound with an initiator and atom transfer radical polymerization (ATRP) catalyst to initiate radical polymerization of the polymer precursors within the well of the well array to form the polymer matrix array.

A method of forming a polymer matrix array includes treating a surface within a well of a well array with a surface compound including a surface reactive functional group and a radical-forming distal group; applying an aqueous solution including polymer precursors to the well of the well array; and activating the radical-forming distal group of the surface coupling compound with an initiator and atom transfer radical polymerization (ATRP) catalyst to initiate radical polymerization of the polymer precursors within the well of the well array to form the polymer matrix array.

The present invention relates to a method for detecting an integration pattern of a virus in a host genome. In particular, a method is provided encompassing selective cleavage of circularized DNA fragments carrying viral DNA with an RNA-guided endonuclease and at least one guide RNA or at least one pool of guide RNAs, followed by inverse PCR, in particular inverse long-range PCR, and sequencing. The invention further relates to kits for performing the method and application of the method.

The present invention relates to a method for detecting an integration pattern of a virus in a host genome. In particular, a method is provided encompassing selective cleavage of circularized DNA fragments carrying viral DNA with an RNA-guided endonuclease and at least one guide RNA or at least one pool of guide RNAs, followed by inverse PCR, in particular inverse long-range PCR, and sequencing. The invention further relates to kits for performing the method and application of the method.