The present invention relates to a method and a composition for detecting a target nucleic acid sequence using a cleaved complementary tag fragment. Specifically, the present invention relates to a method for linking a complementary tag sequence to a PCR primer so that a tagging can be produced by a restriction enzyme during a PCR reaction, diversifying the complementary tag sequence to be linked to each primer by utilizing factors such as length and nucleic acid combination, etc., and distinguishing the target sequence using the same. According to the present invention, a cleaved complementary tag fragment (CCTF) under stringent conditions is a complementary sequence to any sequence at the 5′ end linked to the primer and cannot be formed unless a PCR reaction and a restriction enzyme reaction occur, and the cleaved single strand is formed only when hybridization to the target sequence occurs and a primer extension product complementary to the target sequence is formed, so as to have a higher degree of accuracy secured by reading the cleaved single strand. In addition, the CCTF can be used to identify a plurality of target nucleic acid sequences by selecting various analytical techniques and analysis equipment according to a user's intention. For example, a result can be confirmed rapidly and accurately in genetic testing, identification of organisms in a sample, diagnosis of microbial or viral infection, etc.

The present invention relates to a method and a composition for detecting a target nucleic acid sequence using a cleaved complementary tag fragment. Specifically, the present invention relates to a method for linking a complementary tag sequence to a PCR primer so that a tagging can be produced by a restriction enzyme during a PCR reaction, diversifying the complementary tag sequence to be linked to each primer by utilizing factors such as length and nucleic acid combination, etc., and distinguishing the target sequence using the same. According to the present invention, a cleaved complementary tag fragment (CCTF) under stringent conditions is a complementary sequence to any sequence at the 5′ end linked to the primer and cannot be formed unless a PCR reaction and a restriction enzyme reaction occur, and the cleaved single strand is formed only when hybridization to the target sequence occurs and a primer extension product complementary to the target sequence is formed, so as to have a higher degree of accuracy secured by reading the cleaved single strand. In addition, the CCTF can be used to identify a plurality of target nucleic acid sequences by selecting various analytical techniques and analysis equipment according to a user's intention. For example, a result can be confirmed rapidly and accurately in genetic testing, identification of organisms in a sample, diagnosis of microbial or viral infection, etc.

This application provides methods to quantitate drug incorporation into DNA and of simultaneously measuring DNA methylation levels. Drugs include nucleoside analog DNA methyltransferase inhibitors.

This application provides methods to quantitate drug incorporation into DNA and of simultaneously measuring DNA methylation levels. Drugs include nucleoside analog DNA methyltransferase inhibitors.

This application provides methods to quantitate drug incorporation into DNA and of simultaneously measuring DNA methylation levels. Drugs include nucleoside analog DNA methyltransferase inhibitors.

The present disclosure relates generally to novel methods for nucleic acid sequencing. Specifically, the invention relates to a liquid chromatography-mass-spectrometry (LC-MS) based technique for direct sequencing of RNA without cDNA. The technique allows one to simultaneously read an RNA sequence with single nucleotide resolution while determining the presence, type and location of a wide spectrum of RNA modifications.

The present disclosure relates generally to novel methods for nucleic acid sequencing. Specifically, the invention relates to a liquid chromatography-mass-spectrometry (LC-MS) based technique for direct sequencing of RNA without cDNA. The technique allows one to simultaneously read an RNA sequence with single nucleotide resolution while determining the presence, type and location of a wide spectrum of RNA modifications.

A method for identifying target alleles, that includes steps of (a) forming a plurality of stabilized ternary complexes at a plurality of features on an array, wherein the stabilized ternary complexes each has a polymerase, a template nucleic acid having a target allele of a locus, a primer hybridized to the locus, and a next correct nucleotide having a cognate in the locus, wherein either (i) the primer is an allele-specific primer having a 3′ nucleotide that is a cognate nucleotide for the target allele, or (ii) the primer is a locus-specific primer and the next correct nucleotide hybridizes to the target allele; and (b) detecting stabilized ternary complexes at the features, thereby identifying the target alleles.

A method for identifying target alleles, that includes steps of (a) forming a plurality of stabilized ternary complexes at a plurality of features on an array, wherein the stabilized ternary complexes each has a polymerase, a template nucleic acid having a target allele of a locus, a primer hybridized to the locus, and a next correct nucleotide having a cognate in the locus, wherein either (i) the primer is an allele-specific primer having a 3′ nucleotide that is a cognate nucleotide for the target allele, or (ii) the primer is a locus-specific primer and the next correct nucleotide hybridizes to the target allele; and (b) detecting stabilized ternary complexes at the features, thereby identifying the target alleles.

Provided are methods of preparing high molecular weight nucleic acids for analysis. In certain embodiments, the methods comprise migrating nucleic acids comprising high molecular weight nucleic acids through a polymeric matrix, excising a portion of the polymeric matrix comprising high molecular weight nucleic acids, and isolating the high molecular weight nucleic acids from the excised polymeric matrix. The isolating comprises immobilizing the high molecular weight nucleic acids on particulate solid supports, and eluting the high molecular weight nucleic acids from the particulate solid supports. The methods may further comprise analyzing the isolated high molecular weight nucleic acids. According to some embodiments, the analyzing comprises sequence analysis of the isolated high molecular weight nucleic acids, e.g., using a nanopore- or zero mode waveguide (ZMW)-based sequencing device.