域间合作促进 INCENP 将 Aurora B 从着丝粒重定位到微管上。

Inter-domain Cooperation in INCENP Promotes Aurora B Relocation from Centromeres to Microtubules.

机构信息

Department of Medical Oncology, Department of Molecular Cancer Research, Center for Molecular Medicine, University Medical Center Utrecht, 3584 CG Utrecht, the Netherlands.

出版信息

Cell Rep. 2015 Jul 21;12(3):380-7. doi: 10.1016/j.celrep.2015.06.038. Epub 2015 Jul 9.

DOI:10.1016/j.celrep.2015.06.038

PMID:26166576

Abstract

The chromosomal passenger complex is essential for error-free chromosome segregation and proper execution of cytokinesis. To coordinate nuclear division with cytoplasmic division, its enzymatic subunit, Aurora B, relocalizes from centromeres in metaphase to the spindle midzone in anaphase. In budding yeast, this requires dephosphorylation of the microtubule-binding (MTB) domain of the INCENP analog Sli15. The mechanistic basis for this relocalization in metazoans is incompletely understood. We demonstrate that the putative coiled-coil domain within INCENP drives midzone localization of Aurora B via a direct, electrostatic interaction with microtubules. Furthermore, we provide evidence that the CPC multimerizes via INCENP's centromere-targeting domain (CEN box), which increases the MTB affinity of INCENP. In (pro)metaphase, the MTB affinity of INCENP is outcompeted by the affinity of its CEN box for centromeres, while at anaphase onset—when the histone mark H2AT120 is dephosphorylated—INCENP and Aurora B switch from centromere to microtubule localization.

摘要

染色体乘客复合物对于无错误染色体分离和胞质分裂的正确执行至关重要。为了协调核分裂与胞质分裂，其酶亚基 Aurora B 从中期的着丝粒重新定位到后期的纺锤体中间区。在芽殖酵母中，这需要 INCENP 类似物 Sli15 的微管结合（MTB）结构域去磷酸化。这种在后生动物中的重定位的机制基础尚未完全理解。我们证明，INCENP 中的假定卷曲螺旋结构域通过与微管的直接静电相互作用驱动 Aurora B 的中间区定位。此外，我们提供的证据表明，CPC 通过 INCENP 的着丝粒靶向结构域（CEN 盒）多聚化，从而增加了 INCENP 的 MTB 亲和力。在（前）中期，INCENP 的 MTB 亲和力被其 CEN 盒与着丝粒的亲和力所竞争，而在后期起始时——当组蛋白标记 H2AT120 去磷酸化时——INCENP 和 Aurora B 从着丝粒转换到微管定位。

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域间合作促进 INCENP 将 Aurora B 从着丝粒重定位到微管上。

Inter-domain Cooperation in INCENP Promotes Aurora B Relocation from Centromeres to Microtubules.

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