Enhancement of Saccharomyces cerevisiae End-Joining Efficiency by Cell Growth Stage but Not by Impairment of Recombination

Enhancement of Saccharomyces cerevisiae End-Joining Efficiency by Cell Growth Stage but Not by Impairment of Recombination

Elissa Karathanasis^a and Thomas E. Wilson^a
^a Department of Pathology, University of Michigan Medical School, Ann Arbor, Michigan 48109-0602

Corresponding author: Thomas E. Wilson, University of Michigan Medical School, 1301 Catherine Rd., M4214 Med Sci I, Box 0602, Ann Arbor, MI 48109-0602., wilsonte{at}umich.edu (E-mail)

Communicating editor: L. S. SYMINGTON

Cells can repair DNA double-strand breaks by both homologousand nonhomologous mechanisms. To explore the basis of pathwayutilization, we developed both plasmid and chromosomal yeastrepair assays in which breaks are created with restriction endonucleasesso that nonhomologous end-joining (NHEJ) competes with the single-strandannealing (SSA) recombination pathway, which we show acts withhigh efficiency via terminal direct repeats of only 28 bp andwith reduced but measurable efficiency at 10 bp. The chromosomalassay utilizes a novel approach termed suicide deletion in whichthe endonuclease cleaves its own gene from the chromosome, therebyending the futile cleavage cycle that otherwise prevents detectionof simple-religation events. Eliminating SSA as a possibilityin either assay, either by removal of the direct repeat or bymutation of RAD52, increased the relative but not the absoluteefficiency of NHEJ. In contrast, the apparent efficiency ofNHEJ was specifically increased in the G1 stage of the haploidcell cycle, as well as by the glucose depletion-signaled transitionto stationary phase. The combined results argue against a modelin which pathway utilization is determined by a passive competition.Instead, they demonstrate an active regulation designed to optimizethe likelihood of genome restoration based on cell state.

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				J. M. Daley and T. E. Wilson Rejoining of DNA Double-Strand Breaks as a Function of Overhang Length Mol. Cell. Biol., February 1, 2005; 25(3): 896 - 906. [Abstract] [Full Text] [PDF]

				S. So, N. Adachi, M. R. Lieber, and H. Koyama Genetic Interactions between BLM and DNA Ligase IV in Human Cells J. Biol. Chem., December 31, 2004; 279(53): 55433 - 55442. [Abstract] [Full Text] [PDF]

				M. Della, P. L. Palmbos, H.-M. Tseng, L. M. Tonkin, J. M. Daley, L. M. Topper, R. S. Pitcher, A. E. Tomkinson, T. E. Wilson, and A. J. Doherty Mycobacterial Ku and Ligase Proteins Constitute a Two-Component NHEJ Repair Machine Science, October 22, 2004; 306(5696): 683 - 685. [Abstract] [Full Text] [PDF]

				M. G. Ferreira and J. P. Cooper Two modes of DNA double-strand break repair are reciprocally regulated through the fission yeast cell cycle Genes & Dev., September 15, 2004; 18(18): 2249 - 2254. [Abstract] [Full Text] [PDF]

				J. Yu, K. Marshall, M. Yamaguchi, J. E. Haber, and C. F. Weil Microhomology-Dependent End Joining and Repair of Transposon-Induced DNA Hairpins by Host Factors in Saccharomyces cerevisiae Mol. Cell. Biol., February 1, 2004; 24(3): 1351 - 1364. [Abstract] [Full Text] [PDF]

				Y. S. Rong and K. G. Golic The Homologous Chromosome Is an Effective Template for the Repair of Mitotic DNA Double-Strand Breaks in Drosophila Genetics, December 1, 2003; 165(4): 1831 - 1842. [Abstract] [Full Text] [PDF]

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				M. Kiechle, P. Manivasakam, F. Eckardt-Schupp, R. H. Schiestl, and A. A. Friedl Promoter-trapping in Saccharomyces cerevisiae by radiation-assisted fragment insertion Nucleic Acids Res., December 15, 2002; 30(24): e136 - e136. [Abstract] [Full Text] [PDF]

				T. E. Wilson A Genomics-Based Screen for Yeast Mutants With an Altered Recombination/End-Joining Repair Ratio Genetics, October 1, 2002; 162(2): 677 - 688. [Abstract] [Full Text] [PDF]