Methods are provided for the epigenetic analysis of cell-free DNA using organic boranes to convert oxidized 5-methylcytosine residues in the cell-free DNA to dihydrouracil (DHU) residues. Cell-free DNA is contacted with an organic borane selected to successively bring about reduction, deamination, and decarboxylation of oxidized 5-methylcytosine residues such as 5-carboxymethylcytosine and 5-formylcytosine, resulting in DHU residues in place thereof. Following amplification, the treated cell-free DNA is sequenced, with the DHU residues read as thymine residues. Reaction mixtures, kits and additional methods are also provided, as are related methods for the epigenetic analysis of DNA, including cell-free DNA.

Methods are provided for the epigenetic analysis of cell-free DNA using organic boranes to convert oxidized 5-methylcytosine residues in the cell-free DNA to dihydrouracil (DHU) residues. Cell-free DNA is contacted with an organic borane selected to successively bring about reduction, deamination, and decarboxylation of oxidized 5-methylcytosine residues such as 5-carboxymethylcytosine and 5-formylcytosine, resulting in DHU residues in place thereof. Following amplification, the treated cell-free DNA is sequenced, with the DHU residues read as thymine residues. Reaction mixtures, kits and additional methods are also provided, as are related methods for the epigenetic analysis of DNA, including cell-free DNA.

Provided herein is a method for analyzing polynucleotides such as genomic DNA. In certain embodiments, the method comprises: (a) treating chromatin isolated from a population of cells with an insertional enzyme complex to produce tagged fragments of genomic DNA; (b) sequencing a portion of the tagged fragments to produce a plurality of sequence reads; and (c) making an epigenetic map of a region of the genome of the cells by mapping information obtained from the sequence reads to the region. A kit for performing the method is also provided.

Provided herein is a method for analyzing polynucleotides such as genomic DNA. In certain embodiments, the method comprises: (a) treating chromatin isolated from a population of cells with an insertional enzyme complex to produce tagged fragments of genomic DNA; (b) sequencing a portion of the tagged fragments to produce a plurality of sequence reads; and (c) making an epigenetic map of a region of the genome of the cells by mapping information obtained from the sequence reads to the region. A kit for performing the method is also provided.

The present invention relates to a method for analysis of methylation of ribonucleic acid (RNA) comprising the steps: (i) contacting RNA with one or more antibodies which binds to methylated site(s) of RNA; wherein the methylated site(s) comprise at least one ribonucleotide base modified by one or more methyl groups; (ii) photo-crosslinking the one or more antibodies to crosslink individual antibodies to the RNA molecule(s) to form RNA-antibody conjugates; (iii) immunoprecipitating to separate the RNA-antibody conjugates; (iv) treating the RNA-antibody conjugates with at least one exonuclease; (v) removing the crosslinked antibodies from the RNA-antibody conjugates to release RNA; and (vi) analysing the released RNA.

The present invention relates to a method for analysis of methylation of ribonucleic acid (RNA) comprising the steps: (i) contacting RNA with one or more antibodies which binds to methylated site(s) of RNA; wherein the methylated site(s) comprise at least one ribonucleotide base modified by one or more methyl groups; (ii) photo-crosslinking the one or more antibodies to crosslink individual antibodies to the RNA molecule(s) to form RNA-antibody conjugates; (iii) immunoprecipitating to separate the RNA-antibody conjugates; (iv) treating the RNA-antibody conjugates with at least one exonuclease; (v) removing the crosslinked antibodies from the RNA-antibody conjugates to release RNA; and (vi) analysing the released RNA.

The present disclosure provides a bisulfite-free, long-read, base-resolution method named long-read TAPS (lrTAPS) for detecting 5-Methylcytosine (5mC) and 5-hydroxymethylcytosine (5hmC) in a nucleic acid sequence. lrTAPS comprises mild enzymatic and chemical reactions to detect 5mC and 5hmC, the two major epigenetic marks found in the mammalian genome, quantitatively at base-resolution without affecting unmodified cytosine.

The present disclosure provides a bisulfite-free, long-read, base-resolution method named long-read TAPS (lrTAPS) for detecting 5-Methylcytosine (5mC) and 5-hydroxymethylcytosine (5hmC) in a nucleic acid sequence. lrTAPS comprises mild enzymatic and chemical reactions to detect 5mC and 5hmC, the two major epigenetic marks found in the mammalian genome, quantitatively at base-resolution without affecting unmodified cytosine.

Systems and methods for using determination of base modification in analyzing nucleic acid molecules and acquiring data for analysis of nucleic acid molecules are described herein. Base modifications may include methylations. Methods to determine base modifications may include using features derived from sequencing. These features may include the pulse width of an optical signal from sequencing bases, the interpulse duration of bases, and the identity of the bases. Machine learning models can be trained to detect the base modifications using these features. The relative modification or methylation levels between haplotypes may indicate a disorder. Modification or methylation statuses may also be used to detect chimeric molecules.

Systems and methods for using determination of base modification in analyzing nucleic acid molecules and acquiring data for analysis of nucleic acid molecules are described herein. Base modifications may include methylations. Methods to determine base modifications may include using features derived from sequencing. These features may include the pulse width of an optical signal from sequencing bases, the interpulse duration of bases, and the identity of the bases. Machine learning models can be trained to detect the base modifications using these features. The relative modification or methylation levels between haplotypes may indicate a disorder. Modification or methylation statuses may also be used to detect chimeric molecules.