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1.
Org Biomol Chem ; 19(29): 6478-6486, 2021 07 28.
Article in English | MEDLINE | ID: mdl-34241617

ABSTRACT

While 5-hydroxymethylcytidine in RNA (hm5C) is associated with cellular development and differentiation, its distribution and biological function remain largely unexplored because suitable detection methods are lacking. Here, we report a base-resolution sequencing method for hm5C in RNA by applying peroxotungstate-mediated chemical conversion of hm5C to trihydroxylated thymine (thT). Reverse transcription by SuperScript III terminated at the thT site, probably because of its unnatural nucleobase structure producing truncated cDNA. Consequently, base-resolution analysis of the hm5C sites in RNA was achieved with both Sanger sequencing and Illumina sequencing analysis by comparing sequencing data before and after peroxotungstate treatment.


Subject(s)
Cytidine/analogs & derivatives
2.
Chem Rec ; 18(12): 1727-1744, 2018 Dec.
Article in English | MEDLINE | ID: mdl-30070422

ABSTRACT

In the regulation processes of gene expression, genomic DNA and nuclear proteins, including histone proteins, cooperate with each other, leading to the distinctive functions of eukaryotic cells such as pluripotency and differentiation. Chemical modification of histone proteins and DNA has been revealed as one of the major driving forces in the complicated epigenetic regulation system. However, understanding of the precise molecular mechanisms is still limited. To address this issue, researchers have proposed both biological and chemical strategies for the preparation and detection of modified proteins and nucleic acids. In this review, we focus on chemical methods around the field of epigenetics. Chemical protein synthesis has enabled the preparation of site-specifically modified histones and their successful application to various in vitro assays, which have emphasized the significance of posttranslational modifications of interest. We also review the modification-specific chemical reactions against synthetic and genomic DNA, which enabled discrimination of several modified bases at single-base resolution.


Subject(s)
DNA/metabolism , Epigenomics , Histones/metabolism , 5-Methylcytosine/chemistry , 5-Methylcytosine/metabolism , DNA/chemistry , DNA Methylation , Histones/chemistry , Humans , Protein Processing, Post-Translational , Solid-Phase Synthesis Techniques
3.
J Am Chem Soc ; 138(43): 14178-14181, 2016 11 02.
Article in English | MEDLINE | ID: mdl-27766835

ABSTRACT

5-Hydroxymethylcytosine (hmC) is an essential intermediate in the active DNA demethylation pathway. Here we report a new base-resolution method for measuring hmC by combining peroxotungstate-mediated oxidation and sequencing analysis. We reveal that an oxidized product of hmC, trihydroxylated thymine (thT), tolerated the incorporation of dATP as a substrate in the process of DNA polymerase elongation. By comparing the results of Sanger sequencing before and after the oxidation, we observed that hmC sites on single-stranded DNAs could be discriminated from unmethylated cytosines. We found that a thermal cycle condition during peroxotungstate treatment enhanced the oxidation reaction of hmC in double-stranded DNA. Furthermore, Illumina sequencing analysis of hmC-containing synthetic genome fragments enabled us to identify simultaneously the positions of hmC in base resolution. This bisulfite-free simple hmC detection technique could facilitate the acquisition of epigenomic information.


Subject(s)
5-Methylcytosine/analogs & derivatives , Tungsten Compounds/chemistry , 5-Methylcytosine/chemistry , Base Pairing , Base Sequence , DNA/chemistry , DNA/genetics , Selenium Radioisotopes , Sulfites/chemistry
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