SMC1 coordinates DNA double-strand break repair pathways
AUTOR(ES)
Schär, Primo
FONTE
Oxford University Press
RESUMO
The SMC1/SMC3 heterodimer acts in sister chromatid cohesion, and recent data indicate a function in DNA double-strand break repair (DSBR). Since this role of SMC proteins has remained largely elusive, we explored interactions between SMC1 and the homologous recombination (HR) or non-homologous end-joining (NHEJ) pathways for DSBR in Saccharomyces cerevisiae. Analysis of conditional single- and double mutants of smc1-2 with rad52Δ, rad54Δ, rad50Δ or dnl4Δ illustrates a significant contribution of SMC1 to the overall capacity of cells to repair DSBs. smc1 but not smc2 mutants show increased hypersensitivity of HR mutants to ionizing irradiation and to the DNA crosslinking agent cis-platin. Haploid, but not diploid smc1-2 mutants were severely affected in repairing multiple genomic DNA breaks, suggesting a selective role of SMC1 in sister chromatid recombination. smc1-2 mutants were also 15-fold less efficient and highly error-prone in plasmid end-joining through the NHEJ pathway. Strikingly, inactivation of RAD52 or RAD54 fully rescued efficiency and accuracy of NHEJ in the smc1 background. Therefore, we propose coordination of HR and NHEJ processes by Smc1p through interaction with the RAD52 pathway.
ACESSO AO ARTIGO
http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=506803Documentos Relacionados
- Pathways of DNA Double-Strand Break Repair during the Mammalian Cell Cycle
- Chk2 Phosphorylation of BRCA1 Regulates DNA Double-Strand Break Repair
- DNA double-strand break repair functions defend against parvovirus infection.
- Evidence for Conservative (Two-Progeny) DNA Double-Strand Break Repair
- The Cyclin A1-CDK2 Complex Regulates DNA Double-Strand Break Repair