Regulation of the cell cycle timing of Start in fission yeast by the rum1+ gene.

Journal of cell science. Supplement Pub Date : 1994-01-01 DOI:10.1242/jcs.1994.supplement_18.9
S Moreno, K Labib, J Correa, P Nurse
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引用次数: 33

Abstract

We have identified the rum1+ gene as a new regulator of the G1-phase of the fission yeast cell cycle. rum1+ determines the cell cycle timing of Start, by maintaining cells in a pre-Start state until they have attained a minimal critical mass. Cells lacking rum1+ are unable to arrest in pre-Start G1 in response to nitrogen starvation and are subsequently sterile. In addition, rum1+ prevents entry into mitosis from pre-Start G1, as shown by the fact that cdc10 mutants in the absence of rum1+ undergo lethal mitosis without entering S-phase.

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rum1+基因对分裂酵母Start细胞周期时间的调控。
我们已经确定了rum1+基因是酵母分裂细胞周期g1期的一个新的调节因子。rum1+通过维持细胞处于pre-Start状态直到达到最小临界质量来决定Start的细胞周期时间。缺乏rum1+的细胞无法在启动前G1阶段对氮饥饿做出反应,并随后不育。此外,rum1+阻止了从开始前G1开始进入有丝分裂,这一事实表明,缺乏rum1+的cdc10突变体在没有进入s期的情况下进行致命的有丝分裂。
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Journal of cell science. Supplement
Journal of cell science. Supplement
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Studies of DNA methylation in animals. Characterization of the execution phase of apoptosis in vitro using extracts from condemned-phase cells. Analysis of the temporal program of replication initiation in yeast chromosomes. On the structure of replication and transcription factories. Stepwise assembly of initiation complexes at budding yeast replication origins during the cell cycle.
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