Publication:
A short G1 phase imposes constitutive replication stress and fork remodelling in mouse embryonic stem cells

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dc.contributor.authorAhuja, Akshay K
dc.contributor.authorJodkowska, Karolina
dc.contributor.authorTeloni, Federico
dc.contributor.authorBizard, Anna H
dc.contributor.authorZellweger, Ralph
dc.contributor.authorHerrador, Raquel
dc.contributor.authorOrtega Jimenez, Sagrario
dc.contributor.authorHickson, Ian D
dc.contributor.authorAltmeyer, Matthias
dc.contributor.authorMendez, Juan
dc.contributor.authorLopes, Massimo
dc.contributor.funderDanish National Research Foundation
dc.contributor.funderMinisterio de Economía y Competitividad (España)
dc.contributor.funderUnión Europea. Comisión Europea. European Research Council (ERC)
dc.date.accessioned2019-07-08T09:13:24Z
dc.date.available2019-07-08T09:13:24Z
dc.date.issued2016-02-15
dc.description.abstractEmbryonic stem cells (ESCs) represent a transient biological state, where pluripotency is coupled with fast proliferation. ESCs display a constitutively active DNA damage response (DDR), but its molecular determinants have remained elusive. Here we show in cultured ESCs and mouse embryos that H2AX phosphorylation is dependent on Ataxia telangiectasia and Rad3 related (ATR) and is associated with chromatin loading of the ssDNA-binding proteins RPA and RAD51. Single-molecule analysis of replication intermediates reveals massive ssDNA gap accumulation, reduced fork speed and frequent fork reversal. All these marks of replication stress do not impair the mitotic process and are rapidly lost at differentiation onset. Delaying the G1/S transition in ESCs allows formation of 53BP1 nuclear bodies and suppresses ssDNA accumulation, fork slowing and reversal in the following S-phase. Genetic inactivation of fork slowing and reversal leads to chromosomal breakage in unperturbed ESCs. We propose that rapid cell cycle progression makes ESCs dependent on effective replication-coupled mechanisms to protect genome integrity.es_ES
dc.description.peerreviewedes_ES
dc.description.sponsorshipWe thank the Center for Microscopy and Image Analysis of the University of Zurich and the Confocal Microscopy Unit and Transgenic Animal Unit (Biotechnology Programme,CNIO) for technical assistance. We are grateful to P. Cinelli and his group members fortechnical assistance in the initial phases of this project, and C. Santocanale, P. Schar,P. Janscak and A. Sartori for sharing reagents. We also thank S. Ferrari, P. Cinelli, L.Sommer, M. Manz and all current and past members of the Lopes group for usefuldiscussions. This work was supported by the Swiss National Science Foundation grants 31003A_146924 and PDFMP3_127523 to M.L. and grant PP00P3_150690/1 to M.A., bySAF2013–44866R (to S.O.) and BFU2013–49153-P grants from Spanish Ministry of Economy and Competitiveness (MINECO) to J.M., and by the European Research Council, Nordea Foundation and Danish National Research Foundation to I.D.Hes_ES
dc.format.number1es_ES
dc.format.page10660es_ES
dc.format.volume7es_ES
dc.identifier.citationNat Commun. 2016 ;7:10660.es_ES
dc.identifier.doi10.1038/ncomms10660es_ES
dc.identifier.e-issn2041-1723es_ES
dc.identifier.issn2041-1723es_ES
dc.identifier.journalNature communicationses_ES
dc.identifier.pubmedID26876348es_ES
dc.identifier.urihttp://hdl.handle.net/20.500.12105/7866
dc.language.isoenges_ES
dc.publisherNature Publishing Group
dc.relation.projectIDinfo:eu-repo/grantAgreement/ES/SAF2013–44866Res_ES
dc.relation.projectIDinfo:eu-repo/grantAgreement/ES/BFU2013–49153-Pes_ES
dc.relation.publisherversionhttps://doi.org/10.1038/ncomms10660.es_ES
dc.repisalud.institucionCNIOes_ES
dc.repisalud.orgCNIOCNIO::Grupos de investigación::Grupo de Replicación de ADNes_ES
dc.rights.accessRightsopen accesses_ES
dc.rights.licenseAtribución-NoComercial-CompartirIgual 4.0 Internacional*
dc.rights.urihttp://creativecommons.org/licenses/by-nc-sa/4.0/*
dc.subject.meshAnimalses_ES
dc.subject.meshAtaxia Telangiectasia Mutated Proteinses_ES
dc.subject.meshBlastocystes_ES
dc.subject.meshBlotting, Westernes_ES
dc.subject.meshChromatines_ES
dc.subject.meshChromosomal Proteins, Non-Histonees_ES
dc.subject.meshDNA, Single-Strandedes_ES
dc.subject.meshDNA-Binding Proteinses_ES
dc.subject.meshElectrophoresis, Gel, Pulsed-Fieldes_ES
dc.subject.meshFlow Cytometryes_ES
dc.subject.meshHistoneses_ES
dc.subject.meshMicees_ES
dc.subject.meshMicroscopy, Confocales_ES
dc.subject.meshMicroscopy, Electrones_ES
dc.subject.meshMicroscopy, Fluorescencees_ES
dc.subject.meshMitosises_ES
dc.subject.meshMorulaes_ES
dc.subject.meshMouse Embryonic Stem Cellses_ES
dc.subject.meshPhosphorylationes_ES
dc.subject.meshPoly(ADP-ribose) Polymeraseses_ES
dc.subject.meshRad51 Recombinasees_ES
dc.subject.meshReplication Protein Aes_ES
dc.subject.meshTumor Suppressor p53-Binding Protein 1es_ES
dc.subject.meshDNA Damagees_ES
dc.subject.meshDNA Replicationes_ES
dc.subject.meshG1 Phasees_ES
dc.subject.meshG1 Phase Cell Cycle Checkpointses_ES
dc.titleA short G1 phase imposes constitutive replication stress and fork remodelling in mouse embryonic stem cellses_ES
dc.typejournal articlees_ES
dc.type.hasVersionVoRes_ES
dspace.entity.typePublication
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