A genome-wide screening uncovers the role of CCAR2 as an antagonist of DNA end resection

A genome-wide screening uncovers the role of CCAR2 as an antagonist of DNA end resection

A DNA double strand break can be repaired through either the non-homologous end-joining or the homologous recombination pathways. Here the authors conduct a genome-wide screen and identify a role for CCAR2 in pathway choice by regulating DNA end resection by CtIP.

Bibliographic Details
Main Authors: Ana López-Saavedra, Daniel Gómez-Cabello, María Salud Domínguez-Sánchez, Fernando Mejías-Navarro, María Jesús Fernández-Ávila, Christoffel Dinant, María Isabel Martínez-Macías, Jiri Bartek, Pablo Huertas
Format: Article
Language:English
Published: Nature Publishing Group 2016-08-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/ncomms12364
id doaj-1d49ffd398a147089d057cbfe5d89dfe
record_format Article
spelling doaj-1d49ffd398a147089d057cbfe5d89dfe2021-05-11T10:44:38ZengNature Publishing GroupNature Communications2041-17232016-08-017111410.1038/ncomms12364A genome-wide screening uncovers the role of CCAR2 as an antagonist of DNA end resectionAna López-Saavedra0Daniel Gómez-Cabello1María Salud Domínguez-Sánchez2Fernando Mejías-Navarro3María Jesús Fernández-Ávila4Christoffel Dinant5María Isabel Martínez-Macías6Jiri Bartek7Pablo Huertas8Departamento de Genética, Universidad de SevillaDepartment of Regenerative Medicine, Centro Andaluz de Biología Molecular y Medicina RegenerativaDepartment of Regenerative Medicine, Centro Andaluz de Biología Molecular y Medicina RegenerativaDepartamento de Genética, Universidad de SevillaDepartment of Regenerative Medicine, Centro Andaluz de Biología Molecular y Medicina RegenerativaGenome Integrity Unit, Danish Cancer Society Research Centre, Strandboulevarden 49Departamento de Genética, Universidad de SevillaGenome Integrity Unit, Danish Cancer Society Research Centre, Strandboulevarden 49Departamento de Genética, Universidad de SevillaA DNA double strand break can be repaired through either the non-homologous end-joining or the homologous recombination pathways. Here the authors conduct a genome-wide screen and identify a role for CCAR2 in pathway choice by regulating DNA end resection by CtIP.https://doi.org/10.1038/ncomms12364
collection DOAJ
language English
format Article
sources DOAJ
author Ana López-Saavedra
Daniel Gómez-Cabello
María Salud Domínguez-Sánchez
Fernando Mejías-Navarro
María Jesús Fernández-Ávila
Christoffel Dinant
María Isabel Martínez-Macías
Jiri Bartek
Pablo Huertas
spellingShingle Ana López-Saavedra
Daniel Gómez-Cabello
María Salud Domínguez-Sánchez
Fernando Mejías-Navarro
María Jesús Fernández-Ávila
Christoffel Dinant
María Isabel Martínez-Macías
Jiri Bartek
Pablo Huertas
A genome-wide screening uncovers the role of CCAR2 as an antagonist of DNA end resection
Nature Communications
author_facet Ana López-Saavedra
Daniel Gómez-Cabello
María Salud Domínguez-Sánchez
Fernando Mejías-Navarro
María Jesús Fernández-Ávila
Christoffel Dinant
María Isabel Martínez-Macías
Jiri Bartek
Pablo Huertas
author_sort Ana López-Saavedra
title A genome-wide screening uncovers the role of CCAR2 as an antagonist of DNA end resection
title_short A genome-wide screening uncovers the role of CCAR2 as an antagonist of DNA end resection
title_full A genome-wide screening uncovers the role of CCAR2 as an antagonist of DNA end resection
title_fullStr A genome-wide screening uncovers the role of CCAR2 as an antagonist of DNA end resection
title_full_unstemmed A genome-wide screening uncovers the role of CCAR2 as an antagonist of DNA end resection
title_sort genome-wide screening uncovers the role of ccar2 as an antagonist of dna end resection
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2016-08-01
description A DNA double strand break can be repaired through either the non-homologous end-joining or the homologous recombination pathways. Here the authors conduct a genome-wide screen and identify a role for CCAR2 in pathway choice by regulating DNA end resection by CtIP.
url https://doi.org/10.1038/ncomms12364
work_keys_str_mv AT analopezsaavedra agenomewidescreeninguncoverstheroleofccar2asanantagonistofdnaendresection
AT danielgomezcabello agenomewidescreeninguncoverstheroleofccar2asanantagonistofdnaendresection
AT mariasaluddominguezsanchez agenomewidescreeninguncoverstheroleofccar2asanantagonistofdnaendresection
AT fernandomejiasnavarro agenomewidescreeninguncoverstheroleofccar2asanantagonistofdnaendresection
AT mariajesusfernandezavila agenomewidescreeninguncoverstheroleofccar2asanantagonistofdnaendresection
AT christoffeldinant agenomewidescreeninguncoverstheroleofccar2asanantagonistofdnaendresection
AT mariaisabelmartinezmacias agenomewidescreeninguncoverstheroleofccar2asanantagonistofdnaendresection
AT jiribartek agenomewidescreeninguncoverstheroleofccar2asanantagonistofdnaendresection
AT pablohuertas agenomewidescreeninguncoverstheroleofccar2asanantagonistofdnaendresection
AT analopezsaavedra genomewidescreeninguncoverstheroleofccar2asanantagonistofdnaendresection
AT danielgomezcabello genomewidescreeninguncoverstheroleofccar2asanantagonistofdnaendresection
AT mariasaluddominguezsanchez genomewidescreeninguncoverstheroleofccar2asanantagonistofdnaendresection
AT fernandomejiasnavarro genomewidescreeninguncoverstheroleofccar2asanantagonistofdnaendresection
AT mariajesusfernandezavila genomewidescreeninguncoverstheroleofccar2asanantagonistofdnaendresection
AT christoffeldinant genomewidescreeninguncoverstheroleofccar2asanantagonistofdnaendresection
AT mariaisabelmartinezmacias genomewidescreeninguncoverstheroleofccar2asanantagonistofdnaendresection
AT jiribartek genomewidescreeninguncoverstheroleofccar2asanantagonistofdnaendresection
AT pablohuertas genomewidescreeninguncoverstheroleofccar2asanantagonistofdnaendresection
_version_ 1721447585078575104

Similar Items