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盘基网柄菌EB1是正确纺锤体形成所需的真正中心体成分。

Dictyostelium EB1 is a genuine centrosomal component required for proper spindle formation.

作者信息

Rehberg Markus, Gräf Ralph

机构信息

Adolf-Butenandt-Institut/Zellbiologie, Ludwig-Maximilians-Universität München, D-80336 Munich, Germany.

出版信息

Mol Biol Cell. 2002 Jul;13(7):2301-10. doi: 10.1091/mbc.e02-01-0054.

DOI:10.1091/mbc.e02-01-0054
PMID:12134070
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC117314/
Abstract

EB1 proteins are ubiquitous microtubule-associated proteins involved in microtubule search and capture, regulation of microtubule dynamics, cell polarity, and chromosome stability. We have cloned a complete cDNA of Dictyostelium EB1 (DdEB1), the largest known EB1 homolog (57 kDa). Immunofluorescence analysis and expression of a green fluorescent protein-DdEB1 fusion protein revealed that DdEB1 localizes along microtubules, at microtubule tips, centrosomes, and protruding pseudopods. During mitosis, it was found at the spindle, spindle poles, and kinetochores. DdEB1 is the first EB1-homolog that is also a genuine centrosomal component, because it was localized at isolated centrosomes that are free of microtubules. Furthermore, centrosomal DdEB1 distribution was unaffected by nocodazole treatment. DdEB1 colocalized with DdCP224, the XMAP215 homolog, at microtubule tips, the centrosome, and kinetochores. Furthermore, both proteins were part of the same cytosolic protein complex, suggesting that they may act together in their functions. DdEB1 deletion mutants expressed as green fluorescent protein or maltose-binding fusion proteins indicated that microtubule binding requires homo-oligomerization, which is mediated by a coiled-coil domain. A DdEB1 null mutant was viable but retarded in prometaphase progression due to a defect in spindle formation. Because spindle elongation was normal, DdEB1 seems to be required for the initiation of the outgrowth of spindle microtubules.

摘要

EB1蛋白是普遍存在的微管相关蛋白,参与微管的搜寻与捕获、微管动力学调节、细胞极性以及染色体稳定性维持。我们克隆了盘基网柄菌EB1(DdEB1)的完整cDNA,它是已知最大的EB1同源物(57 kDa)。免疫荧光分析以及绿色荧光蛋白-DdEB1融合蛋白的表达显示,DdEB1定位于微管、微管末端、中心体以及突出的伪足上。在有丝分裂期间,在纺锤体、纺锤体极和动粒上也能发现它。DdEB1是首个既是真正的中心体成分又是EB1同源物的蛋白,因为它定位于不含微管的分离中心体上。此外,中心体DdEB1的分布不受诺考达唑处理的影响。DdEB1与XMAP215同源物DdCP224在微管末端、中心体和动粒处共定位。此外,这两种蛋白都是同一胞质蛋白复合物的组成部分,表明它们可能在功能上协同发挥作用。以绿色荧光蛋白或麦芽糖结合融合蛋白形式表达的DdEB1缺失突变体表明,微管结合需要通过卷曲螺旋结构域介导的同型寡聚化。一个DdEB1基因敲除突变体是存活的,但由于纺锤体形成缺陷,在前中期进程中发育迟缓。由于纺锤体伸长正常,DdEB1似乎是纺锤体微管生长起始所必需的。

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