真核细胞胞质分裂的机制。
Mechanics of cytokinesis in eukaryotes.
机构信息
Department of Molecular Cellular, Yale University, PO Box 208103, New Haven, CT 06520-8103, USA.
出版信息
Curr Opin Cell Biol. 2010 Feb;22(1):50-6. doi: 10.1016/j.ceb.2009.11.010. Epub 2009 Dec 22.
Abstract
Research on eukaryotic cytokinesis using advantageous model systems is rapidly advancing our understanding of most aspects of the process. Cytokinesis is very complicated with more than 100 proteins participating. Both fungi and animal cells use proteins to mark the cleavage site for the assembly of a contractile ring of actin filaments and myosin-II. Formins nucleate and elongate the actin filaments and myosin-II helps to organize the filaments into a contractile ring. Much is still to be learned about the organization of the contractile ring and the mechanisms that disassemble the ring as it constricts. Although fungi and animals share many proteins that contribute to cytokinesis, the extent to which they share mechanisms for the location, assembly, constriction, and disassembly of their contractile rings is still in question.
摘要
利用有利的模型系统研究真核细胞胞质分裂,正在迅速推进我们对该过程大多数方面的理解。胞质分裂非常复杂,有 100 多种蛋白质参与其中。真菌和动物细胞都使用蛋白质来标记用于肌动球蛋白装配的收缩环的切割位点。formin 蛋白引发并延长肌动蛋白丝,肌球蛋白-II 有助于将丝组装成收缩环。关于收缩环的组织以及当它收缩时使环解体的机制,仍有许多需要了解。尽管真菌和动物共享许多有助于胞质分裂的蛋白质,但它们在定位、装配、收缩和收缩环解体的机制方面的共享程度仍存在疑问。
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