2020
DOI: 10.1093/nar/gkaa473
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Nick-seq for single-nucleotide resolution genomic maps of DNA modifications and damage

Abstract: 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 co… Show more

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Cited by 54 publications
(64 citation statements)
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“…For such applications, though, it is possible that nicks appearing at extremely low penetrance would not be detected using DENT-seq. Furthermore, as recently reported by Cao et al (2020), nick detection methods like DENT-seq could be applied to study other types of DNA damage as well by converting the damage into nicks; for example, base modifications could be studied through treatment with a glycosylase and AP endonuclease from the base excision repair pathway before readout by DENT-seq.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…For such applications, though, it is possible that nicks appearing at extremely low penetrance would not be detected using DENT-seq. Furthermore, as recently reported by Cao et al (2020), nick detection methods like DENT-seq could be applied to study other types of DNA damage as well by converting the damage into nicks; for example, base modifications could be studied through treatment with a glycosylase and AP endonuclease from the base excision repair pathway before readout by DENT-seq.…”
Section: Discussionmentioning
confidence: 99%
“…GLOE-seq detects nicks with high resolution by ligation of adapters to free 3 ′ hydroxy (-OH) ends of DNA but, like SSiNGLe, is not specific to nicks and captures DSBs as well (Sriramachandran et al 2020). Finally, Nick-seq is able to identify nicks with single-nucleotide resolution without capturing DSBs but has not yet been applied to gigabase-scale genomes (Cao et al 2020). Descriptions of these methods and the DENTseq method reported here can be found in Supplemental Table S1.…”
mentioning
confidence: 99%
“…To date, four NGS-based methods have been developed for the genome-wide mapping of SSBs: SSB-Seq [71,72], Nick-Seq [73], SSiNGLe [74] and GLOE-Seq [75] (Table 1). Although the molecular steps involved in generating sequencing libraries vary, they all rely on the common principle of detecting SSBs by capturing free 3 0 -OH termini.…”
Section: Ngs-based Methods For Genome-wide Mapping Of Ssbsmentioning
confidence: 99%
“…Nick-Seq is perhaps a misnomer for a method designed to detect base lesions or modifications rather than SSBs (Fig. 2B) [73]. In fact, pre-existing 3 0 -OH ends are initially blocked by appending dideoxynucleotides.…”
Section: Nick-seqmentioning
confidence: 99%
“…Direct ligation of a sequencing adaptor to the 3’ end of individual DNA strands would be a very attractive means of quantifying DNA damage irrespective of DNA resection, and direct labelling of DNA 3’ ends may reveal replication fork direction, particularly in mutants unable to ligate Okazaki fragments. Some methods aimed at mapping single-strand breaks and base changes theoretically have this capability although they have not been applied to DSBs [34, 35], and very recently the Ulrich lab described such a method, GLOE-seq, that is capable of replication profiling in DNA ligase-deficient yeast and human cells, and also maps DSBs although activity on resected substrates was not tested [36]. Here we describe an alternative method, T ransferase A ctivated E nd L igation sequencing (TrAEL-seq), which accurately maps DNA 3’ ends at DSBs that have undergone DNA resection.…”
Section: Introductionmentioning
confidence: 99%