Methods for detecting polynucleotides, especially the DNA replicated from samples obtained from subjects infected with pathogenic viruses such as human immunodeficiency virus, by detecting electromagnetic signals (“EMS”) emitted by such polynucleotides, and methods for improving the sensitivity of the polymerase chain reaction (“PCR”).

Methods for detecting polynucleotides, especially the DNA replicated from samples obtained from subjects infected with pathogenic viruses such as human immunodeficiency virus, by detecting electromagnetic signals (“EMS”) emitted by such polynucleotides, and methods for improving the sensitivity of the polymerase chain reaction (“PCR”).

In some embodiments, methods for ligating nucleic acid ends comprise: conducting a nucleic acid ligation reaction in the presence of at least one agent that generates a ligatable terminal 5′ phosphate group by removing an adenylate group from a terminal 5′ phosphate of a nucleic acid. In some embodiments, an aprataxin enzyme can catalyze removal of an adenylate group from a terminal 5′ phosphate of a nucleic acid. In some embodiments, methods for ligating nucleic acid ends comprise: conducting a nucleic acid ligation reaction in the presence of an aprataxin enzyme under conditions suitable for ligating nucleic acid ends.

In some embodiments, methods for ligating nucleic acid ends comprise: conducting a nucleic acid ligation reaction in the presence of at least one agent that generates a ligatable terminal 5′ phosphate group by removing an adenylate group from a terminal 5′ phosphate of a nucleic acid. In some embodiments, an aprataxin enzyme can catalyze removal of an adenylate group from a terminal 5′ phosphate of a nucleic acid. In some embodiments, methods for ligating nucleic acid ends comprise: conducting a nucleic acid ligation reaction in the presence of an aprataxin enzyme under conditions suitable for ligating nucleic acid ends.

Provided are DNA polymerases having increased reverse transcriptase efficiency relative to a corresponding, unmodified polymerase. The polymerases are useful in a variety of primer extension methods. Also provided are related compositions, including recombinant nucleic acids, vectors, and host cells, which are useful, e.g., for production of the DNA polymerases.

Provided are DNA polymerases having increased reverse transcriptase efficiency relative to a corresponding, unmodified polymerase. The polymerases are useful in a variety of primer extension methods. Also provided are related compositions, including recombinant nucleic acids, vectors, and host cells, which are useful, e.g., for production of the DNA polymerases.

The invention provides novel reverse transcriptases (RTs) with desirable properties such as increased thermostability, increased thermoreactivity and/or increased resistance to inhibitors. In certain embodiments, the invention provides methods of producing, amplifying and/or sequencing nucleic acid molecules (particularly cDNA molecules) using kits, compositions and/or reactions mixtures containing such novel reverse transcriptase enzymes.

The invention provides novel reverse transcriptases (RTs) with desirable properties such as increased thermostability, increased thermoreactivity and/or increased resistance to inhibitors. In certain embodiments, the invention provides methods of producing, amplifying and/or sequencing nucleic acid molecules (particularly cDNA molecules) using kits, compositions and/or reactions mixtures containing such novel reverse transcriptase enzymes.

The present disclosure provides alternative nucleosides, nucleotides, and nucleic acids, and methods of using them. In some aspects, the disclosure provides mRNA wherein the uracil content has been modified and which may be particularly effective for use in therapeutic compositions, because they may benefit from both high expression levels and limited induction of the innate immune response. In some aspects, the disclosure provides methods for the production of pharmaceutical compositions including mRNA without reverse phase chromatography.

The present disclosure provides alternative nucleosides, nucleotides, and nucleic acids, and methods of using them. In some aspects, the disclosure provides mRNA wherein the uracil content has been modified and which may be particularly effective for use in therapeutic compositions, because they may benefit from both high expression levels and limited induction of the innate immune response. In some aspects, the disclosure provides methods for the production of pharmaceutical compositions including mRNA without reverse phase chromatography.