The yeast SRM1 protein and human RCC1 protein share analogous functions.

K L Clark, M Ohtsubo, T Nishimoto, M Goebl, G F Sprague
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引用次数: 32

Abstract

The Saccharomyces cerevisiae protein SRM1 and the mammalian protein RCC1 have amino acid sequence similarity throughout their lengths. SRM1 was defined by a recessive mutation in yeast that both activates the signal transduction pathway required for mating and leads to arrest in the G1 phase of the cell cycle. RCC1 was defined by a recessive mutation in hamster cells that causes premature chromosome condensation and other characteristics of entry into mitosis. Despite the seemingly different roles implied by these phenotypes, we suggest that RCC1 and SRM1 proteins have similar functions. In particular, we find that RCC1 can complement the temperature-sensitive growth phenotype of two independent srm1 mutations and also complements, at least partially, phenotypes associated with activation of the pheromone response pathway, such as transcription induction of FUS1. However, RCC1 fails to complement an srm1 null allele. Further characterization of the srm1 mutant phenotype reveals a defect in plasmid and chromosome stability, suggesting that the mutants have a defect in DNA replication, mitosis, or their coordination. Finally, like RCC1, SRM1 is a nuclear protein. Together, these data imply that SRM1 and RCC1 have a common role in their respective organisms.

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酵母的SRM1蛋白和人的RCC1蛋白具有相似的功能。
酿酒酵母蛋白SRM1和哺乳动物蛋白RCC1在整个长度上具有氨基酸序列相似性。SRM1是由酵母中的一个隐性突变定义的,该突变激活了交配所需的信号转导途径,并导致细胞周期G1期的阻滞。RCC1是由仓鼠细胞中的隐性突变定义的,该突变导致染色体过早凝聚和其他进入有丝分裂的特征。尽管这些表型暗示了看似不同的作用,但我们认为RCC1和SRM1蛋白具有相似的功能。特别是,我们发现RCC1可以补充两个独立的srm1突变的温度敏感生长表型,并且至少部分补充与信息素反应途径激活相关的表型,例如FUS1的转录诱导。然而,RCC1不能补充srm1空等位基因。对srm1突变表型的进一步表征揭示了质粒和染色体稳定性的缺陷,这表明突变体在DNA复制、有丝分裂或它们的协调方面存在缺陷。最后,和RCC1一样,SRM1也是一种核蛋白。总之,这些数据表明SRM1和RCC1在它们各自的生物体中具有共同的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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