Described herein is an adapter comprising a population of first oligonucleotides, a second oligonucleotide and a third oligonucleotide, wherein the first oligonucleotides, the second oligonucleotide and the third oligonucleotide are hybridized together to produce a complex that comprises: (i) a first end comprising a transposase recognition sequence, (ii) a central single-stranded region of variable sequence and (iii) a second end comprising sequences that are non-complementary. A method, as well as a kit for practicing the method, are also provided.

Described herein is an adapter comprising a population of first oligonucleotides, a second oligonucleotide and a third oligonucleotide, wherein the first oligonucleotides, the second oligonucleotide and the third oligonucleotide are hybridized together to produce a complex that comprises: (i) a first end comprising a transposase recognition sequence, (ii) a central single-stranded region of variable sequence and (iii) a second end comprising sequences that are non-complementary. A method, as well as a kit for practicing the method, are also provided.

Described herein is an adapter comprising a population of first oligonucleotides, a second oligonucleotide and a third oligonucleotide, wherein the first oligonucleotides, the second oligonucleotide and the third oligonucleotide are hybridized together to produce a complex that comprises: (i) a first end comprising a transposase recognition sequence, (ii) a central single-stranded region of variable sequence and (iii) a second end comprising sequences that are non-complementary. A method, as well as a kit for practicing the method, are also provided.

The present disclosure provides methods and compositions for molecular tagging of complex populations of nucleic acid molecules. The disclosure provides methods and compositions to obtain phase information of tagged nucleic acid molecules from high-throughput nucleic acid sequencing data.

The present disclosure provides a system and method for the detection of rare mutations and copy number variations in cell free polynucleotides. Generally, the systems and methods comprise sample preparation, or the extraction and isolation of cell free polynucleotide sequences from a bodily fluid; subsequent sequencing of cell free polynucleotides by techniques known in the art; and application of bioinformatics tools to detect rare mutations and copy number variations as compared to a reference. The systems and methods also may contain a database or collection of different rare mutations or copy number variation profiles of different diseases, to be used as additional references in aiding detection of rare mutations, copy number variation profiling or general genetic profiling of a disease.

The present disclosure provides a system and method for the detection of rare mutations and copy number variations in cell free polynucleotides. Generally, the systems and methods comprise sample preparation, or the extraction and isolation of cell free polynucleotide sequences from a bodily fluid; subsequent sequencing of cell free polynucleotides by techniques known in the art; and application of bioinformatics tools to detect rare mutations and copy number variations as compared to a reference. The systems and methods also may contain a database or collection of different rare mutations or copy number variation profiles of different diseases, to be used as additional references in aiding detection of rare mutations, copy number variation profiling or general genetic profiling of a disease.

Sequencing adaptors and methods are provided for preparation of polynucleotides for sequencing. The sequencing adaptors contain a portion of a recognition sequence for a methyl-dependent endonuclease. Unwanted adaptor dimers that form during ligation of adaptors to target polynucleotides produce a complete restriction sequence and are cleaved by the endonuclease, followed by exonuclease digestion, thereby removing the dimers.

Sequencing adaptors and methods are provided for preparation of polynucleotides for sequencing. The sequencing adaptors contain a portion of a recognition sequence for a methyl-dependent endonuclease. Unwanted adaptor dimers that form during ligation of adaptors to target polynucleotides produce a complete restriction sequence and are cleaved by the endonuclease, followed by exonuclease digestion, thereby removing the dimers.

Sequencing adaptors and methods are provided for preparation of polynucleotides for sequencing. The sequencing adaptors contain a portion of a recognition sequence for a methyl-dependent endonuclease. Unwanted adaptor dimers that form during ligation of adaptors to target polynucleotides produce a complete restriction sequence and are cleaved by the endonuclease, followed by exonuclease digestion, thereby removing the dimers.

The present disclosure relates to a method of sequencing nascent RNA in a cell. In some embodiments, the nascent RNA is conjugated to DNA using copper-catalyzed azide-alkyne cycloaddition (CuAAC). Methods of the present disclosure can be used to generate genomic libraries of a cell and measure gene expression and enhancer and/or super-enhancer activity.