Rieske/cytb 复合物的“绿色”系统发育枝。

The "green" phylogenetic clade of Rieske/cytb complexes.

机构信息

BIP, Centre National de la Recherche Scientifique, UPR9036, IFR88, 31 Chemin Joseph Aiguier, Marseille, France.

出版信息

Photosynth Res. 2010 Jun;104(2-3):347-55. doi: 10.1007/s11120-010-9532-1. Epub 2010 Feb 4.

PMID:20130997

Abstract

More than a decade ago, Heliobacteria were recognised to contain a Rieske/cytb complex in which the cytochrome b subunit is split into two separate proteins, a peculiar feature characteristic of the cyanobacterial and plastidic b (6) f complex. The common presence of RCI-type reaction centres further emphasise possible evolutionary links between Heliobacteria, Chlorobiaceae and Cyanobacteria. In this contribution, we further explore the evolutionary relationships among these three phototrophic lineages by both molecular phylogeny and consideration of phylogenetic marker traits of the superfamily of Rieske/cytb complexes. The combination of these two methods suggests the existence of a "green" clade involving many non-phototrophs in addition to the mentioned RCI-type photosynthetic organisms. Structural and functional idiosyncrasies are (re-)interpreted in the framework of evolutionary biology and more specifically evolutionary bioenergetics.

摘要

十多年前，人们已经认识到，嗜氢菌含有 Rieske/cytb 复合物，其中细胞色素 b 亚基分为两个独立的蛋白质，这是一种独特的特征，存在于蓝细菌和质体 b（6）f 复合物中。常见的 RCI 型反应中心进一步强调了嗜氢菌、绿菌科和蓝细菌之间可能存在的进化联系。在本研究中，我们通过分子系统发育和对 Rieske/cytb 超家族的系统发育标记特征的考虑，进一步探讨了这三个光合谱系之间的进化关系。这两种方法的结合表明，除了上述的 RCI 型光合生物外，还存在一个涉及许多非光合生物的“绿色”分支。结构和功能的特殊性在进化生物学，特别是进化生物能量学的框架内进行了（重新）解释。

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Rieske/cytb 复合物的“绿色”系统发育枝。

The "green" phylogenetic clade of Rieske/cytb complexes.

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