植物纺锤体组装与有丝分裂。

IF 21.3 1区 生物学 Q1 PLANT SCIENCES
Bo Liu, Y. Lee
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引用次数: 9

摘要

与研究充分的真菌和动物细胞相比,植物细胞组装双极纺锤体,在缺乏中心体等结构明确的微管组织中心的情况下,双极纺锤体表现出很大的可塑性。虽然植物利用一些进化上保守的蛋白质来调节纺锤体的形态发生和重塑,但脊椎动物中发现的许多重要的纺锤体组装因子要么缺失,要么不需要产生植物双极微管阵列。植物还产生与真菌和动物同源的蛋白质,以调节关键事件,如纺锤体组装检查点。植物纺锤体组装开始时,微管在核膜上成核,然后双极化进入前期纺锤体。核膜破裂后,动粒纤维被组装并统一为具有会聚极点的纺锤体。值得注意的是,与真菌和动物系统相比,人们对植物细胞如何在后期重塑纺锤体微管阵列知之甚少。揭示植物纺锤体组装的新型蛋白质的有丝分裂功能将阐明不同真核生物分离遗传物质的共同和不同机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spindle Assembly and Mitosis in Plants.
In contrast to well-studied fungal and animal cells, plant cells assemble bipolar spindles that exhibit a great deal of plasticity in the absence of structurally defined microtubule-organizing centers like the centrosome. While plants employ some evolutionarily conserved proteins to regulate spindle morphogenesis and remodeling, many essential spindle assembly factors found in vertebrates are either missing or not required for producing the plant bipolar microtubule array. Plants also produce proteins distantly related to their fungal and animal counterparts to regulate critical events such as the spindle assembly checkpoint. Plant spindle assembly initiates with microtubule nucleation on the nuclear envelope followed by bipolarization into the prophase spindle. After nuclear envelope breakdown, kinetochore fibers are assembled and unified into the spindle apparatus with convergent poles. Of note, compared to fungal and animal systems, relatively little is known about how plant cells remodel the spindle microtubule array during anaphase. Uncovering mitotic functions of novel proteins for spindle assembly in plants will illuminate both common and divergent mechanisms employed by different eukaryotic organisms to segregate genetic materials.
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来源期刊
Annual review of plant biology
Annual review of plant biology 生物-植物科学
CiteScore
40.40
自引率
0.40%
发文量
29
期刊介绍: The Annual Review of Plant Biology is a peer-reviewed scientific journal published by Annual Reviews. It has been in publication since 1950 and covers significant developments in the field of plant biology, including biochemistry and biosynthesis, genetics, genomics and molecular biology, cell differentiation, tissue, organ and whole plant events, acclimation and adaptation, and methods and model organisms. The current volume of this journal has been converted from gated to open access through Annual Reviews' Subscribe to Open program, with all articles published under a CC BY license.
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