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四肽重复蛋白在组装过程中保护光系统I免受氧化破坏。

Tetratricopeptide repeat protein protects photosystem I from oxidative disruption during assembly.

作者信息

Heinnickel Mark, Kim Rick G, Wittkopp Tyler M, Yang Wenqiang, Walters Karim A, Herbert Stephen K, Grossman Arthur R

机构信息

Department of Plant Biology, Carnegie Institution for Science, Stanford, CA 94305;

Department of Plant Biology, Carnegie Institution for Science, Stanford, CA 94305; Department of Biology, Stanford University, Stanford, CA 94305;

出版信息

Proc Natl Acad Sci U S A. 2016 Mar 8;113(10):2774-9. doi: 10.1073/pnas.1524040113. Epub 2016 Feb 22.

DOI:10.1073/pnas.1524040113
PMID:26903622
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4791029/
Abstract

A Chlamydomonas reinhardtii mutant lacking CGL71, a thylakoid membrane protein previously shown to be involved in photosystem I (PSI) accumulation, exhibited photosensitivity and highly reduced abundance of PSI under photoheterotrophic conditions. Remarkably, the PSI content of this mutant declined to nearly undetectable levels under dark, oxic conditions, demonstrating that reduced PSI accumulation in the mutant is not strictly the result of photodamage. Furthermore, PSI returns to nearly wild-type levels when the O2 concentration in the medium is lowered. Overall, our results suggest that the accumulation of PSI in the mutant correlates with the redox state of the stroma rather than photodamage and that CGL71 functions under atmospheric O2 conditions to allow stable assembly of PSI. These findings may reflect the history of the Earth's atmosphere as it transitioned from anoxic to highly oxic (1-2 billion years ago), a change that required organisms to evolve mechanisms to assist in the assembly and stability of proteins or complexes with O2-sensitive cofactors.

摘要

莱茵衣藻中缺乏CGL71(一种先前已证明参与光系统I(PSI)积累的类囊体膜蛋白)的突变体,在光异养条件下表现出光敏性且PSI丰度大幅降低。值得注意的是,该突变体的PSI含量在黑暗、有氧条件下降至几乎检测不到的水平,这表明突变体中PSI积累减少并非严格由光损伤导致。此外,当培养基中的氧气浓度降低时,PSI含量恢复到接近野生型水平。总体而言,我们的结果表明,突变体中PSI的积累与基质的氧化还原状态相关,而非光损伤,并且CGL71在大气氧气条件下起作用,以允许PSI稳定组装。这些发现可能反映了地球大气从无氧转变为高氧(10亿至20亿年前)的历史,这一变化要求生物体进化出机制来协助含有对氧气敏感辅因子的蛋白质或复合物的组装和稳定性。

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