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着丝粒蛋白C参与染色体分离、有丝分裂检查点功能和动粒组装。

CENP-C is involved in chromosome segregation, mitotic checkpoint function, and kinetochore assembly.

作者信息

Kwon Mi-Sun, Hori Tetsuya, Okada Masahiro, Fukagawa Tatsuo

机构信息

Department of Molecular Genetics, National Institute of Genetics and The Graduate University for Advanced Studies, Shizuoka 411-8540, Japan.

出版信息

Mol Biol Cell. 2007 Jun;18(6):2155-68. doi: 10.1091/mbc.e07-01-0045. Epub 2007 Mar 28.

DOI:10.1091/mbc.e07-01-0045
PMID:17392512
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1877116/
Abstract

CENP-C is a conserved inner kinetochore component. To understand the precise roles of CENP-C in the kinetochore, we created a cell line with a conditional knockout of CENP-C with the tetracycline-inducible system in which the target protein is inactivated at the level of transcription. We found that CENP-C inactivation causes mitotic delay. However, observations of living cells showed that CENP-C-knockout cells progressed to the next cell cycle without normal cell division after mitotic delay. Interphase cells with two nuclei before subsequent cell death were sometimes observed. We also found that approximately 60% of CENP-C-deficient cells had no Mad2 signals even after treatment with nocodazole, suggesting that lack of CENP-C impairs the Mad2 spindle checkpoint pathway. We also observed significant reductions in the signal intensities of Mis12 complex proteins at centromeres in CENP-C-deficient cells. CENP-C signals were also weak in interphase nuclei but not in mitotic chromosomes of cells with a knockout of CENP-K, a member of CENP-H complex proteins. These results suggest that centromere localization of CENP-C in interphase nuclei occurs upstream of localization of the Mis12 complex and downstream of localization of the CENP-H complex.

摘要

着丝粒蛋白C(CENP-C)是一种保守的内着丝粒成分。为了了解CENP-C在着丝粒中的精确作用,我们利用四环素诱导系统创建了一种条件性敲除CENP-C的细胞系,在该系统中,目标蛋白在转录水平被灭活。我们发现CENP-C失活会导致有丝分裂延迟。然而,活细胞观察显示,CENP-C敲除细胞在有丝分裂延迟后进入下一个细胞周期,但没有正常的细胞分裂。有时会观察到在随后的细胞死亡之前具有两个细胞核的间期细胞。我们还发现,即使在用诺考达唑处理后,大约60%的CENP-C缺陷细胞也没有Mad2信号,这表明缺乏CENP-C会损害Mad2纺锤体检查点途径。我们还观察到CENP-C缺陷细胞着丝粒处的Mis12复合蛋白信号强度显著降低。在CENP-H复合蛋白成员CENP-K敲除的细胞中,CENP-C信号在间期细胞核中也很弱,但在有丝分裂染色体中不弱。这些结果表明,间期细胞核中CENP-C的着丝粒定位发生在Mis12复合体定位的上游和CENP-H复合体定位的下游。

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