The involvement of Srs2 in post-replication repair and homologous recombination in fission yeast

doi:10.1093/nar/gkh317

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Published online 1 March 2004

Nucleic Acids Research, 2004, Vol. 32, No. 4 1480-1491
© 2004 Oxford University Press

The involvement of Srs2 in post-replication repair and homologous recombination in fission yeast

Claudette L. Doe and Matthew C. Whitby^*

Department of Biochemistry, University of Oxford, South Parks Road, Oxford OX1 3QU, UK

*To whom correspondence should be addressed. Tel: +44 1865 275192; Fax: +44 1865 275297; Email: matthew.whitby{at}bioch.ox.ac.uk

Homologous recombination is important for the repair of double-strandbreaks and daughter strand gaps, and also helps restart stalledand collapsed replication forks. However, sometimes recombinationis inappropriate and can have deleterious consequences. To temperrecombination, cells have employed DNA helicases that unwindjoint DNA molecules and/or dissociate recombinases from DNA.Budding yeast Srs2 is one such helicase. It can act by dissociatingRad51 nucleoprotein filaments, and is required for channellingDNA lesions to the post-replication repair (PRR) pathway. Herewe have investigated the role of Srs2 in controlling recombinationin fission yeast. Similar to budding yeast, deletion of fissionyeast srs2 results in hypersensitivity to a range of DNA damagingagents, rhp51-dependent hyper-recombination and synthetic sicknesswhen combined with rqh1^– that is suppressed by deletingrhp51, rhp55 or rhp57. Epistasis analysis indicates that Srs2and the structure-specific endonuclease Mus81–Eme1 functionin a sub-pathway of PRR for the tolerance/repair of UV-induceddamage. However, unlike in Saccharomyces cerevisiae, Srs2 isnot required for channelling lesions to the PRR pathway in Schizosaccharomycespombe. In addition to acting as an antirecombinase, we alsoshow that Srs2 can aid the recombinational repair of camptothecin-inducedcollapsed replication forks, independently of PRR.

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