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doi:10.1534/genetics.106.058701
A more recent version of this article appeared on October 1, 2006.
REGULAR RESEARCH PAPERS |
Mutator phenotype of C. elegans DNA damage checkpoint mutants
Jasper Harris 1, Mia Lowden 1, Iuval Clejan 1, Monika Tzoneva 2, James H Thomas 2, Jonathan Hodgkin 3 and Shawn Ahmed 1*
1 University of North Carolina at Chapel Hill
2 University of Washington
3 University of Oxford
* To whom correspondence should be addressed. E-mail: shawn{at}med.unc.edu.
Submitted on March 29, 2006
Revised on May 14, 2006
Accepted on 9 August 2006
DNA damage response proteins identify sites of DNA damage and signal to downstream effectors that orchestrate either apoptosis or arrest of the cell cycle and DNA repair. The C. elegans DNA damage response mutants mrt-2, hus-1 and clk-2(mn159) displayed 8- to 15-fold increases in the frequency of spontaneous mutation in their germlines. Many of these mutations were small- to medium-sized deletions, some of which had unusual sequences at their breakpoints such as purine-rich tracts or direct or inverted repeats. Although DNA damage-induced apoptosis is abrogated in the mrt-2, hus-1 and clk-2 mutant backgrounds, lack of the apoptotic branch of the DNA damage response pathway in cep-1/p53, ced-3- and ced-4 mutants did not result in a Mutator phenotype. Thus, DNA damage checkpoint proteins suppress the frequency of mutation by ensuring that spontaneous DNA damage is accurately repaired in C. elegans germ cells. Although DNA damage response defects that predispose humans to cancer are known to result in large-scale chromosome aberrations, our results suggest that small- to medium-sized deletions may also play roles in the development of cancer.
Key Words: C. elegans, DNA damage response, deletion, double-strand break, mutator
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