植物微管相关蛋白AtMAP65-3/PLE对细胞分裂时成膜体的功能至关重要。
The plant microtubule-associated protein AtMAP65-3/PLE is essential for cytokinetic phragmoplast function.
作者信息
Müller Sabine, Smertenko Andrei, Wagner Vera, Heinrich Maria, Hussey Patrick J, Hauser Marie-Theres
机构信息
The Institute of Applied Genetics, BOKU-University of Natural Resources and Applied Life Sciences, Muthgasse 18, A-1190 Vienna, Austria.
出版信息
Curr Biol. 2004 Mar 9;14(5):412-7. doi: 10.1016/j.cub.2004.02.032.
Abstract
Directional cell expansion in interphase and nuclear and cell division in M-phase are mediated by four microtubule arrays, three of which are unique to plants: the interphase array, the preprophase band, and the phragmoplast. The plant microtubule-associated protein MAP65 has been identified as a key structural component in these arrays. The Arabidopsis genome has nine MAP65 genes, and here we show that one, AtMAP65-3/PLE, locates only to the mitotic arrays and is essential for cytokinesis. The Arabidopsis pleiade (ple) alleles are single recessive mutations, and we show that these mutations are in the AtMAP65-3 gene. Moreover, these mutations cause C-terminal truncations that abolish microtubule binding. In the ple mutants the anaphase spindle is normal, and the cytokinetic phragmoplast can form but is distorted; not only is it wider, but the midline, the region where oppositely oriented microtubules overlap, is unusually expanded. Here we present data that demonstrate an essential role for AtMAP65-3/PLE in cytokinesis in plant cells.
摘要
间期细胞的定向扩张以及M期的核分裂和细胞分裂由四种微管阵列介导,其中三种是植物特有的:间期阵列、前期带和成膜体。植物微管相关蛋白MAP65已被确定为这些阵列中的关键结构成分。拟南芥基因组有9个MAP65基因,我们在此表明,其中一个基因AtMAP65-3/PLE仅定位于有丝分裂阵列,并且对胞质分裂至关重要。拟南芥多基因座(ple)等位基因是单隐性突变,我们表明这些突变存在于AtMAP65-3基因中。此外,这些突变导致C端截短,从而消除微管结合。在ple突变体中,后期纺锤体正常,胞质分裂成膜体可以形成但发生扭曲;它不仅更宽,而且中线(即方向相反的微管重叠的区域)异常扩展。我们在此展示的数据证明了AtMAP65-3/PLE在植物细胞胞质分裂中的重要作用。
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