Novel approach reveals genomic landscapes of single-strand DNA breaks with nucleotide resolution in human cells

Single strand breaks represent the most common form of DNA damage yet no methods to map them in a genome-wide fashion at single nucleotide resolution exist. Here the authors develop such a method and apply to uncover patterns of single-strand DNA “breakome” in different biological conditions.

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Autores principales: Huifen Cao, Lorena Salazar-García, Fan Gao, Thor Wahlestedt, Chun-Lin Wu, Xueer Han, Ye Cai, Dongyang Xu, Fang Wang, Lu Tang, Natalie Ricciardi, DingDing Cai, Huifang Wang, Mario P. S. Chin, James A. Timmons, Claes Wahlestedt, Philipp Kapranov
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2019
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Acceso en línea:https://doaj.org/article/3feb697ac4a94e7e834ab5f5f7ce2e50
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spelling oai:doaj.org-article:3feb697ac4a94e7e834ab5f5f7ce2e502021-12-02T17:02:19ZNovel approach reveals genomic landscapes of single-strand DNA breaks with nucleotide resolution in human cells10.1038/s41467-019-13602-72041-1723https://doaj.org/article/3feb697ac4a94e7e834ab5f5f7ce2e502019-12-01T00:00:00Zhttps://doi.org/10.1038/s41467-019-13602-7https://doaj.org/toc/2041-1723Single strand breaks represent the most common form of DNA damage yet no methods to map them in a genome-wide fashion at single nucleotide resolution exist. Here the authors develop such a method and apply to uncover patterns of single-strand DNA “breakome” in different biological conditions.Huifen CaoLorena Salazar-GarcíaFan GaoThor WahlestedtChun-Lin WuXueer HanYe CaiDongyang XuFang WangLu TangNatalie RicciardiDingDing CaiHuifang WangMario P. S. ChinJames A. TimmonsClaes WahlestedtPhilipp KapranovNature PortfolioarticleScienceQENNature Communications, Vol 10, Iss 1, Pp 1-14 (2019)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Huifen Cao
Lorena Salazar-García
Fan Gao
Thor Wahlestedt
Chun-Lin Wu
Xueer Han
Ye Cai
Dongyang Xu
Fang Wang
Lu Tang
Natalie Ricciardi
DingDing Cai
Huifang Wang
Mario P. S. Chin
James A. Timmons
Claes Wahlestedt
Philipp Kapranov
Novel approach reveals genomic landscapes of single-strand DNA breaks with nucleotide resolution in human cells
description Single strand breaks represent the most common form of DNA damage yet no methods to map them in a genome-wide fashion at single nucleotide resolution exist. Here the authors develop such a method and apply to uncover patterns of single-strand DNA “breakome” in different biological conditions.
format article
author Huifen Cao
Lorena Salazar-García
Fan Gao
Thor Wahlestedt
Chun-Lin Wu
Xueer Han
Ye Cai
Dongyang Xu
Fang Wang
Lu Tang
Natalie Ricciardi
DingDing Cai
Huifang Wang
Mario P. S. Chin
James A. Timmons
Claes Wahlestedt
Philipp Kapranov
author_facet Huifen Cao
Lorena Salazar-García
Fan Gao
Thor Wahlestedt
Chun-Lin Wu
Xueer Han
Ye Cai
Dongyang Xu
Fang Wang
Lu Tang
Natalie Ricciardi
DingDing Cai
Huifang Wang
Mario P. S. Chin
James A. Timmons
Claes Wahlestedt
Philipp Kapranov
author_sort Huifen Cao
title Novel approach reveals genomic landscapes of single-strand DNA breaks with nucleotide resolution in human cells
title_short Novel approach reveals genomic landscapes of single-strand DNA breaks with nucleotide resolution in human cells
title_full Novel approach reveals genomic landscapes of single-strand DNA breaks with nucleotide resolution in human cells
title_fullStr Novel approach reveals genomic landscapes of single-strand DNA breaks with nucleotide resolution in human cells
title_full_unstemmed Novel approach reveals genomic landscapes of single-strand DNA breaks with nucleotide resolution in human cells
title_sort novel approach reveals genomic landscapes of single-strand dna breaks with nucleotide resolution in human cells
publisher Nature Portfolio
publishDate 2019
url https://doaj.org/article/3feb697ac4a94e7e834ab5f5f7ce2e50
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