Min复合体形成与定位的相互依赖性控制着质体的对称分裂。

Interdependency of formation and localisation of the Min complex controls symmetric plastid division.

作者信息

Maple Jodi, Møller Simon G

机构信息

Centre for Organelle Research, Department of Mathematics and Natural Sciences, University of Stavanger, 4036 Stavanger, Norway.

出版信息

J Cell Sci. 2007 Oct 1;120(Pt 19):3446-56. doi: 10.1242/jcs.010215. Epub 2007 Sep 12.

DOI:10.1242/jcs.010215

PMID:17855384

Abstract

Plastid division represents a fundamental biological process essential for plant development; however, the molecular basis of symmetric plastid division is unclear. AtMinE1 plays a pivotal role in selection of the plastid division site in concert with AtMinD1. AtMinE1 localises to discrete foci in chloroplasts and interacts with AtMinD1, which shows a similar localisation pattern. Here, we investigate the importance of Min protein complex formation during the chloroplast division process. Dissection of the assembly of the Min protein complex and determination of the interdependency of complex assembly and localisation in planta allow us to present a model of the molecular basis of selection of the division site in plastids. Moreover, functional analysis of AtMinE1 in bacteria demonstrates the level of functional conservation and divergence of the plastidic MinE proteins.

摘要

质体分裂是植物发育所必需的一个基本生物学过程；然而，对称质体分裂的分子基础尚不清楚。AtMinE1与AtMinD1协同作用，在质体分裂位点的选择中起关键作用。AtMinE1定位于叶绿体中的离散焦点，并与AtMinD1相互作用，后者显示出类似的定位模式。在这里，我们研究了Min蛋白复合物形成在叶绿体分裂过程中的重要性。对Min蛋白复合物组装的剖析以及对植物中复合物组装和定位相互依赖性的确定，使我们能够提出一个质体分裂位点选择分子基础的模型。此外，AtMinE1在细菌中的功能分析证明了质体MinE蛋白的功能保守程度和差异。

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Min复合体形成与定位的相互依赖性控制着质体的对称分裂。

Interdependency of formation and localisation of the Min complex controls symmetric plastid division.

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