PPR-SMRs：功能神秘的古老蛋白质。

PPR-SMRs: ancient proteins with enigmatic functions.

作者信息

Liu Sheng, Melonek Joanna, Boykin Laura M, Small Ian, Howell Katharine A

机构信息

Australian Research Council Centre of Excellence in Plant Energy Biology; The University of Western Australia; Crawley, WA Australia.

Centre of Excellence in Computational Systems Biology; The University of Western Australia; Crawley, WA Australia.

出版信息

RNA Biol. 2013;10(9):1501-10. doi: 10.4161/rna.26172. Epub 2013 Aug 28.

DOI:10.4161/rna.26172

PMID:24004908

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3858433/

Abstract

A small subset of the large pentatricopeptide repeat (PPR) protein family in higher plants contain a C-terminal small MutS-related (SMR) domain. Although few in number, they figure prominently in the chloroplast biogenesis and retrograde signaling literature due to their striking mutant phenotypes. In this review, we summarize current knowledge of PPR-SMR proteins focusing on Arabidopsis and maize proteomic and mutant studies. We also examine their occurrence in other organisms and have determined by phylogenetic analysis that, while they are limited to species that contain chloroplasts, their presence in algae and early branching land plant lineages indicates that the coupling of PPR motifs and an SMR domain into a single protein occurred early in the evolution of the Viridiplantae clade. In addition, we discuss their possible function and have examined conservation between SMR domains from Arabidopsis PPR proteins with those from other species that have been shown to possess endonucleolytic activity.

摘要

高等植物中大型五肽重复序列（PPR）蛋白家族的一个小亚群含有一个C端小MutS相关（SMR）结构域。尽管数量不多，但由于其显著的突变表型，它们在叶绿体生物发生和逆向信号传导文献中占据显著地位。在这篇综述中，我们总结了关于PPR-SMR蛋白的现有知识，重点关注拟南芥和玉米的蛋白质组学及突变体研究。我们还研究了它们在其他生物中的存在情况，并通过系统发育分析确定，虽然它们仅限于含有叶绿体的物种，但它们在藻类和早期分支的陆地植物谱系中的存在表明，PPR基序和SMR结构域在单一蛋白质中的耦合发生在绿藻植物进化枝进化的早期。此外，我们讨论了它们可能的功能，并研究了拟南芥PPR蛋白的SMR结构域与其他已显示具有内切核酸酶活性的物种的SMR结构域之间的保守性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9b7c/3858433/d13992acaa35/rna-10-1501-g1.jpg

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Construction of plastid reference proteomes for maize and Arabidopsis and evaluation of their orthologous relationships; the concept of orthoproteomics.

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SUBA3: a database for integrating experimentation and prediction to define the SUBcellular location of proteins in Arabidopsis.

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PPR-SMRs：功能神秘的古老蛋白质。

PPR-SMRs: ancient proteins with enigmatic functions.

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