早期原核生物内共生的证据。

Evidence for an early prokaryotic endosymbiosis.

作者信息

Lake James A

机构信息

Department of Molecular, Cellular and Developmental Biology, University of California, Los Angeles, California 90095, USA.

出版信息

Nature. 2009 Aug 20;460(7258):967-71. doi: 10.1038/nature08183.

DOI:10.1038/nature08183

PMID:19693078

Abstract

Endosymbioses have dramatically altered eukaryotic life, but are thought to have negligibly affected prokaryotic evolution. Here, by analysing the flows of protein families, I present evidence that the double-membrane, gram-negative prokaryotes were formed as the result of a symbiosis between an ancient actinobacterium and an ancient clostridium. The resulting taxon has been extraordinarily successful, and has profoundly altered the evolution of life by providing endosymbionts necessary for the emergence of eukaryotes and by generating Earth's oxygen atmosphere. Their double-membrane architecture and the observed genome flows into them suggest a common evolutionary mechanism for their origin: an endosymbiosis between a clostridium and actinobacterium.

摘要

内共生极大地改变了真核生物的生命历程，但人们认为它对原核生物进化的影响微不足道。在此，通过分析蛋白质家族的流动情况，我提出证据表明，具有双层膜的革兰氏阴性原核生物是由一种古老的放线菌与一种古老的梭菌共生形成的。由此产生的分类群极其成功，并通过提供真核生物出现所必需的内共生体以及产生地球的氧气大气层，深刻地改变了生命的进化。它们的双层膜结构以及观察到的基因组流入情况表明了其起源的共同进化机制：一种梭菌与放线菌之间的内共生。

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早期原核生物内共生的证据。

Evidence for an early prokaryotic endosymbiosis.

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