保守的蛋白激酶Ipl1调节出芽酵母中微管与动粒的结合。
The conserved protein kinase Ipl1 regulates microtubule binding to kinetochores in budding yeast.
作者信息
Biggins S, Severin F F, Bhalla N, Sassoon I, Hyman A A, Murray A W
机构信息
Department of Physiology, University of California, San Francisco, California 94143-0444, USA.
出版信息
Genes Dev. 1999 Mar 1;13(5):532-44. doi: 10.1101/gad.13.5.532.
Abstract
Chromosome segregation depends on kinetochores, the structures that mediate chromosome attachment to the mitotic spindle. We isolated mutants in IPL1, which encodes a protein kinase, in a screen for budding yeast mutants that have defects in sister chromatid separation and segregation. Cytological tests show that ipl1 mutants can separate sister chromatids but are defective in chromosome segregation. Kinetochores assembled in extracts from ipl1 mutants show altered binding to microtubules. Ipl1p phosphorylates the kinetochore component Ndc10p in vitro and we propose that Ipl1p regulates kinetochore function via Ndc10p phosphorylation. Ipl1p localizes to the mitotic spindle and its levels are regulated during the cell cycle. This pattern of localization and regulation is similar to that of Ipl1p homologs in higher eukaryotes, such as the human aurora2 protein. Because aurora2 has been implicated in oncogenesis, defects in kinetochore function may contribute to genetic instability in human tumors.
摘要
染色体分离依赖于动粒,即介导染色体附着于有丝分裂纺锤体的结构。我们在一项针对芽殖酵母突变体的筛选中分离出了IPL1的突变体,该基因编码一种蛋白激酶,筛选的目的是寻找在姐妹染色单体分离和分配方面存在缺陷的芽殖酵母突变体。细胞学检测表明,ipl1突变体能够分离姐妹染色单体,但在染色体分离方面存在缺陷。在ipl1突变体提取物中组装的动粒显示出与微管的结合发生了改变。Ipl1p在体外使动粒成分Ndc10p磷酸化,我们推测Ipl1p通过Ndc10p磷酸化来调节动粒功能。Ipl1p定位于有丝分裂纺锤体,其水平在细胞周期中受到调控。这种定位和调控模式与高等真核生物中Ipl1p的同源物相似,比如人类极光2蛋白。由于极光2与肿瘤发生有关,动粒功能缺陷可能导致人类肿瘤中的遗传不稳定。
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