The Short Life Span of Saccharomyces cerevisiae sgs1 and srs2 Mutants Is a Composite of Normal Aging Processes and Mitotic Arrest Due to Defective Recombination

The Short Life Span of Saccharomyces cerevisiae sgs1 and srs2 Mutants Is a Composite of Normal Aging Processes and Mitotic Arrest Due to Defective Recombination

Mitch McVey^a, Matt Kaeberlein^a, Heidi A. Tissenbaum^a, and Leonard Guarente^a
^a Department of Biology, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139

Corresponding author: Leonard Guarente, Department of Biology, Massachusetts Institute of Technology, 77 Massachusetts Ave., Bldg. 68-280, Cambridge, MA 02139., leng{at}mit.edu (E-mail)

Communicating editor: A. G. HINNEBUSCH

Evidence from many organisms indicates that the conserved RecQhelicases function in the maintenance of genomic stability.Mutation of SGS1 and WRN, which encode RecQ homologues in buddingyeast and humans, respectively, results in phenotypes characteristicof premature aging. Mutation of SRS2, another DNA helicase,causes synthetic slow growth in an sgs1 background. In thiswork, we demonstrate that srs2 mutants have a shortened lifespan similar to sgs1 mutants. Further dissection of the sgs1and srs2 survival curves reveals two distinct phenomena. A majorityof sgs1 and srs2 cells stops dividing stochastically as large-buddedcells. This mitotic cell cycle arrest is age independent andrequires the RAD9-dependent DNA damage checkpoint. Late-generationsgs1 and srs2 cells senesce due to apparent premature aging,most likely involving the accumulation of extrachromosomal rDNAcircles. Double sgs1 srs2 mutants are viable but have a highstochastic rate of terminal G2/M arrest. This arrest can besuppressed by mutations in RAD51, RAD52, and RAD57, suggestingthat the cell cycle defect in sgs1 srs2 mutants results frominappropriate homologous recombination. Finally, mutation ofRAD1 or RAD50 exacerbates the growth defect of sgs1 srs2 cells,indicating that sgs1 srs2 mutants may utilize single-strandannealing as an alternative repair pathway.

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				J. Kim, J.-H. Kim, S.-H. Lee, D.-H. Kim, H.-Y. Kang, S.-H. Bae, Z.-Q. Pan, and Y.-S. Seo The Novel Human DNA Helicase hFBH1 Is an F-box Protein J. Biol. Chem., June 28, 2002; 277(27): 24530 - 24537. [Abstract] [Full Text] [PDF]

				L. L. M. Hoopes, M. Budd, W. Choe, T. Weitao, and J. L. Campbell Mutations in DNA Replication Genes Reduce Yeast Life Span Mol. Cell. Biol., June 15, 2002; 22(12): 4136 - 4146. [Abstract] [Full Text] [PDF]

				M. A. Marchetti, S. Kumar, E. Hartsuiker, M. Maftahi, A. M. Carr, G. A. Freyer, W. C. Burhans, and J. A. Huberman A single unbranched S-phase DNA damage and replication fork blockage checkpoint pathway PNAS, May 28, 2002; 99(11): 7472 - 7477. [Abstract] [Full Text] [PDF]

				H. W. Mankouri, T. J. Craig, and A. Morgan SGS1 is a multicopy suppressor of srs2: functional overlap between DNA helicases Nucleic Acids Res., March 1, 2002; 30(5): 1103 - 1113. [Abstract] [Full Text] [PDF]

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				A. F. Hofmann and S. D. Harris The Aspergillus nidulans musN Gene Encodes a RecQ Helicase That Interacts With the PI-3K-Related Kinase UVSB Genetics, December 1, 2001; 159(4): 1595 - 1604. [Abstract] [Full Text] [PDF]

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