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doi:10.1534/genetics.106.060053
A more recent version of this article appeared on September 1, 2006.
REGULAR RESEARCH PAPERS |
Regulation of DNA Replication Machinery by Mrc1 in Fission Yeast
Naoki Nitani 1, Ken-ichi Nakamura 1, Chie Nakagawa 1, Hisao Masukata 1 and Takuro Nakagawa 1*
1 Graduate School of Science, Osaka University
* To whom correspondence should be addressed. E-mail: takuro4{at}bio.sci.osaka-u.ac.jp.
Submitted on April 30, 2006
Revised on June 1, 2006
Accepted on 6 July 2006
Faithful replication of chromosomes is crucial to genome integrity. In yeast, ORC binds replication origins throughout the cell cycle. However, Cdc45 binds these before S phase, and during replication, it moves along the DNA with MCM helicase. When replication progression is inhibited, checkpoint regulation is believed to stabilize the replication fork; the detailed mechanism, however, remains unclear. To examine the relationship between replication initiation and elongation defects and the response to replication elongation block, we used fission yeast mutants of Orc1 and Cdc45 - orp1-4 and sna41-928, respectively - at their respective semipermissive temperatures with regard to BrdU incorporation. Both orp1 and sna41 cells exhibited HU hypersensitivity in the absence of Chk1, a DNA damage checkpoint kinase, and were defective in full activation of Cds1, a replication checkpoint kinase, indicating that normal replication is required for Cds1 activation. Mrc1 is required to activate Cds1 and prevent the replication machinery uncoupling from DNA synthesis. We observed that, while either the orp1 or sna41 mutation partially suppressed HU sensitivity of cds1 cells, sna41 specifically suppressed that of mrc1 cells. Interestingly, sna41 alleviated the defect in recovery from HU arrest without increasing Cds1 activity. In addition to sna41, specific mutations of MCM suppressed the HU sensitivity of mrc1 cells. Thus, during elongation, Mrc1 may negatively regulate Cdc45 and MCM helicase to render stalled forks capable of resuming replication.
Key Words: Cdc45, Checkpoint, DNA replication, Fission yeast, Mrc1
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