一个进化难题：叶绿体和线粒体分裂环。

An evolutionary puzzle: chloroplast and mitochondrial division rings.

作者信息

Miyagishima Shin-ya, Nishida Keiji, Kuroiwa Tsuneyoshi

机构信息

Department of Life Science, College of Science, Rikkyo (St Paul's) University, 3-34-1 Nishiikebukuro, Toshima-ku, Tokyo 171-8501, Japan.

出版信息

Trends Plant Sci. 2003 Sep;8(9):432-8. doi: 10.1016/S1360-1385(03)00193-6.

DOI:10.1016/S1360-1385(03)00193-6

PMID:13678910

Abstract

Consistent with their bacterial origin, chloroplasts and primitive mitochondria retain a FtsZ ring for division. However, chloroplasts and mitochondria have lost most of the proteins required for bacterial division other than FtsZ and certain homologues of the Min proteins, but they do contain plastid and mitochondrion dividing rings, which were recently shown to be distinct from the FtsZ ring. Moreover, recent studies have revealed that rings of the eukaryote-specific dynamin-related family of GTPases regulate the division of chloroplasts and mitochondria, and these proteins emerged early in eukaryotic evolution. These findings suggest that the division of chloroplasts and primitive mitochondria involve very similar systems, consisting of an amalgamation of rings from bacteria and eukaryotes.

摘要

与它们的细菌起源一致，叶绿体和原始线粒体保留了用于分裂的FtsZ环。然而，除了FtsZ和Min蛋白的某些同源物外，叶绿体和线粒体已经失去了细菌分裂所需的大部分蛋白质，但它们确实含有质体和线粒体分裂环，最近发现这些分裂环与FtsZ环不同。此外，最近的研究表明，真核生物特有的动力蛋白相关GTP酶家族的环调节叶绿体和线粒体的分裂，并且这些蛋白质在真核生物进化早期就出现了。这些发现表明，叶绿体和原始线粒体的分裂涉及非常相似的系统，该系统由细菌和真核生物的环融合而成。

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一个进化难题：叶绿体和线粒体分裂环。

An evolutionary puzzle: chloroplast and mitochondrial division rings.

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