着丝粒结合蛋白 R 由 Aurora B 激酶磷酸化调控微管与动粒的连接，从而保证染色体的精确分离。

Phosphorylation of CENP-R by Aurora B regulates kinetochore-microtubule attachment for accurate chromosome segregation.

机构信息

MOE Key Laboratory for Cellular Dynamics, University of Science and Technology of China School of Life Sciences, Hefei 230027, China.

Anhui Key Laboratory for Cellular Dynamics and Chemical Biology, National Center for Cross-Disciplinary Sciences & CAS Center for Excellence in Molecular Cell Science, Hefei 230026, China.

出版信息

J Mol Cell Biol. 2022 Sep 27;14(7). doi: 10.1093/jmcb/mjac051.

DOI:10.1093/jmcb/mjac051

PMID:36069839

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9802239/

Abstract

Error-free mitosis depends on accurate chromosome attachment to spindle microtubules via a fine structure called the centromere that is epigenetically specified by the enrichment of CENP-A nucleosomes. Centromere maintenance during mitosis requires CENP-A-mediated deposition of constitutive centromere-associated network that establishes the inner kinetochore and connects centromeric chromatin to spindle microtubules during mitosis. Although previously proposed to be an adaptor of retinoic acid receptor, here, we show that CENP-R synergizes with CENP-OPQU to regulate kinetochore-microtubule attachment stability and ensure accurate chromosome segregation in mitosis. We found that a phospho-mimicking mutation of CENP-R weakened its localization to the kinetochore, suggesting that phosphorylation may regulate its localization. Perturbation of CENP-R phosphorylation is shown to prevent proper kinetochore-microtubule attachment at metaphase. Mechanistically, CENP-R phosphorylation disrupts its binding with CENP-U. Thus, we speculate that Aurora B-mediated CENP-R phosphorylation promotes the correction of improper kinetochore-microtubule attachment in mitosis. As CENP-R is absent from yeast, we reasoned that metazoan evolved an elaborate chromosome stability control machinery to ensure faithful chromosome segregation in mitosis.

摘要

有丝分裂的无差错发生依赖于染色体通过一种被称为着丝粒的精细结构与纺锤体微管准确连接，这种结构是由 CENP-A 核小体的富集所表观遗传指定的。有丝分裂期间着丝粒的维持需要 CENP-A 介导的组成性着丝粒相关网络的沉积，该网络在有丝分裂期间建立了内动粒并将着丝粒染色质与纺锤体微管连接起来。虽然之前被提议作为维甲酸受体的衔接蛋白，但在这里，我们表明 CENP-R 与 CENP-OPQU 协同作用来调节动粒-微管连接稳定性，并确保有丝分裂中染色体的准确分离。我们发现 CENP-R 的磷酸化模拟突变削弱了其在动粒上的定位，这表明磷酸化可能调节其定位。干扰 CENP-R 的磷酸化会阻止中期动粒-微管的正确附着。从机制上讲，CENP-R 的磷酸化破坏了它与 CENP-U 的结合。因此，我们推测 Aurora B 介导的 CENP-R 磷酸化促进了有丝分裂中不正确的动粒-微管附着的纠正。由于酵母中没有 CENP-R，我们推断后生动物进化出了一种复杂的染色体稳定性控制机制，以确保有丝分裂中染色体的准确分离。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c4ca/9802239/f40f289ae12a/mjac051fig1.jpg

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着丝粒结合蛋白 R 由 Aurora B 激酶磷酸化调控微管与动粒的连接，从而保证染色体的精确分离。

Phosphorylation of CENP-R by Aurora B regulates kinetochore-microtubule attachment for accurate chromosome segregation.

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