Literature DB >> 18957201

RTEL1 maintains genomic stability by suppressing homologous recombination.

Louise J Barber1, Jillian L Youds, Jordan D Ward, Michael J McIlwraith, Nigel J O'Neil, Mark I R Petalcorin, Julie S Martin, Spencer J Collis, Sharon B Cantor, Melissa Auclair, Heidi Tissenbaum, Stephen C West, Ann M Rose, Simon J Boulton.   

Abstract

Homologous recombination (HR) is an important conserved process for DNA repair and ensures maintenance of genome integrity. Inappropriate HR causes gross chromosomal rearrangements and tumorigenesis in mammals. In yeast, the Srs2 helicase eliminates inappropriate recombination events, but the functional equivalent of Srs2 in higher eukaryotes has been elusive. Here, we identify C. elegans RTEL-1 as a functional analog of Srs2 and describe its vertebrate counterpart, RTEL1, which is required for genome stability and tumor avoidance. We find that rtel-1 mutant worms and RTEL1-depleted human cells share characteristic phenotypes with yeast srs2 mutants: lethality upon deletion of the sgs1/BLM homolog, hyperrecombination, and DNA damage sensitivity. In vitro, purified human RTEL1 antagonizes HR by promoting the disassembly of D loop recombination intermediates in a reaction dependent upon ATP hydrolysis. We propose that loss of HR control after deregulation of RTEL1 may be a critical event that drives genome instability and cancer.

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Year:  2008        PMID: 18957201      PMCID: PMC3726190          DOI: 10.1016/j.cell.2008.08.016

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


  66 in total

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