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Nick-seq for single-nucleotide resolution genomic maps of DNA modifications and damage.


ABSTRACT: DNA damage and epigenetic marks are well established to have profound influences on genome stability and cell phenotype, yet there are few technologies to obtain high-resolution genomic maps of the many types of chemical modifications of DNA. Here we present Nick-seq for quantitative, sensitive, and accurate mapping of DNA modifications at single-nucleotide resolution across genomes. Pre-existing breaks are first blocked and DNA modifications are then converted enzymatically or chemically to strand-breaks for both 3'-extension by nick-translation to produce nuclease-resistant oligonucleotides and 3'-terminal transferase tailing. Following library preparation and next generation sequencing, the complementary datasets are mined with a custom workflow to increase sensitivity, specificity and accuracy of the map. The utility of Nick-seq is demonstrated with genomic maps of site-specific endonuclease strand-breaks in purified DNA from Eschericia coli, phosphorothioate epigenetics in Salmonella enterica Cerro 87, and oxidation-induced abasic sites in DNA from E. coli treated with a sublethal dose of hydrogen peroxide. Nick-seq applicability is demonstrated with strategies for >25 types of DNA modification and damage.

SUBMITTER: Cao B 

PROVIDER: S-EPMC7337925 | biostudies-literature | 2020 Jul

REPOSITORIES: biostudies-literature

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Nick-seq for single-nucleotide resolution genomic maps of DNA modifications and damage.

Cao Bo B   Wu Xiaolin X   Zhou Jieliang J   Wu Hang H   Liu Lili L   Zhang Qinghua Q   DeMott Michael S MS   Gu Chen C   Wang Lianrong L   You Delin D   Dedon Peter C PC  

Nucleic acids research 20200701 12


DNA damage and epigenetic marks are well established to have profound influences on genome stability and cell phenotype, yet there are few technologies to obtain high-resolution genomic maps of the many types of chemical modifications of DNA. Here we present Nick-seq for quantitative, sensitive, and accurate mapping of DNA modifications at single-nucleotide resolution across genomes. Pre-existing breaks are first blocked and DNA modifications are then converted enzymatically or chemically to str  ...[more]

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