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Bir1-Sli15复合体将着丝粒与微管相连,是感知动粒张力所必需的。

A Bir1-Sli15 complex connects centromeres to microtubules and is required to sense kinetochore tension.

作者信息

Sandall Sharsti, Severin Fedor, McLeod Ian X, Yates John R, Oegema Karen, Hyman Anthony, Desai Arshad

机构信息

Ludwig Institute for Cancer Research/Department of Cellular and Molecular Medicine, CMM-E Room 3052, 9500 Gilman Drive, University of California, San Diego, La Jolla, CA 92093, USA.

出版信息

Cell. 2006 Dec 15;127(6):1179-91. doi: 10.1016/j.cell.2006.09.049.

DOI:10.1016/j.cell.2006.09.049
PMID:17174893
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2265205/
Abstract

Proper connections between centromeres and spindle microtubules are of critical importance in ensuring accurate segregation of the genome during cell division. Using an in vitro approach based on the sequence-specific budding yeast centromere, we identified a complex of the chromosomal passenger proteins Bir1 and Sli15 (Survivin and INCENP) that links centromeres to microtubules. This linkage does not require Ipl1/Aurora B kinase, whose targeting and activation are controlled by Bir1 and Sli15. Ipl1 is the tension-dependent regulator of centromere-microtubule interactions that ensures chromosome biorientation on the spindle. Elimination of the linkage between centromeres and microtubules mediated by Bir1-Sli15 phenocopies mutations that selectively cripple Ipl1 kinase activation. These findings lead us to propose that the Bir1-Sli15-mediated linkage, which bridges centromeres and microtubules and includes the Aurora kinase-activating domain of INCENP family proteins, is the tension sensor that relays the mechanical state of centromere-microtubule attachments into local control of Ipl1 kinase activity.

摘要

着丝粒与纺锤体微管之间的正确连接对于确保细胞分裂过程中基因组的准确分离至关重要。利用基于序列特异性出芽酵母着丝粒的体外方法,我们鉴定出一种由染色体乘客蛋白Bir1和Sli15(Survivin和INCENP)组成的复合物,该复合物将着丝粒与微管连接起来。这种连接不需要Ipl1/Aurora B激酶,其靶向和激活由Bir1和Sli15控制。Ipl1是着丝粒-微管相互作用的张力依赖性调节因子,可确保染色体在纺锤体上双定向。消除由Bir1-Sli15介导的着丝粒与微管之间的连接,模拟了选择性削弱Ipl1激酶激活的突变。这些发现使我们提出,由Bir1-Sli15介导的连接,它连接着丝粒和微管,并包括INCENP家族蛋白的Aurora激酶激活结构域,是一种张力传感器,可将着丝粒-微管附着的机械状态转化为对Ipl1激酶活性的局部控制。

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