莱茵衣藻Q结合位点的重新设计表明，在没有Q-Q电子转移驱动力的情况下光合作用仍能进行。

Redesign of the Chlamydomonas reinhardtii Q binding niche reveals photosynthesis works in the absence of a driving force for Q-Q electron transfer.

作者信息

Lambreva Maya D, Zobnina Veranika, Antal Taras K, Peeva Violeta N, Giardi Maria Teresa, Bertalan Ivo, Johanningmeier Udo, Virtanen Olli, Ray Mithila, Mulo Paula, Polticelli Fabio, Tyystjärvi Esa, Rea Giuseppina

机构信息

Institute for Biological Systems, National Research Council, Monterotondo Stazione (RM), Italy.

Department of Sciences, University Roma Tre, Rome, Italy.

出版信息

Physiol Plant. 2024 Nov-Dec;176(6):e70008. doi: 10.1111/ppl.70008.

DOI:10.1111/ppl.70008

PMID:39673282

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11645544/

Abstract

An in silico redesign of the secondary quinone electron acceptor (Q) binding pocket of the D1 protein of Photosystem II (PSII) suggested that mutations of the F265 residue would affect atrazine binding. Chlamydomonas reinhardtii mutants F265T and F265S were produced to obtain atrazine-hypersensitive strains for biosensor applications, and the mutants were indeed found to be more atrazine-sensitive than the reference strain IL. Fluorescence and thermoluminescence data agree with a weak driving force and confirm slow electron transfer but cannot exclude an additional effect on protonation of the secondary quinone. Both mutants grow autotrophically, indicating that PSII requires strong light for optimal function, as was the case in the ancestral homodimeric reaction center.

摘要

对光系统II（PSII）D1蛋白的次级醌电子受体（Q）结合口袋进行的计算机模拟重新设计表明，F265残基的突变会影响莠去津的结合。为了获得用于生物传感器应用的对莠去津超敏感的菌株，构建了莱茵衣藻突变体F265T和F265S，并且确实发现这些突变体比参考菌株IL对莠去津更敏感。荧光和热发光数据与弱驱动力相符，并证实了电子转移缓慢，但不能排除对次级醌质子化的额外影响。两个突变体都能自养生长，这表明PSII需要强光才能实现最佳功能，就像在祖先同二聚体反应中心的情况一样。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/456a/11645544/d5eef0c75ec2/PPL-176-e70008-g004.jpg

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Redesign of the Chlamydomonas reinhardtii Q binding niche reveals photosynthesis works in the absence of a driving force for Q-Q electron transfer.莱茵衣藻Q结合位点的重新设计表明，在没有Q-Q电子转移驱动力的情况下光合作用仍能进行。

Physiol Plant. 2024 Nov-Dec;176(6):e70008. doi: 10.1111/ppl.70008.

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莱茵衣藻Q结合位点的重新设计表明，在没有Q-Q电子转移驱动力的情况下光合作用仍能进行。

Redesign of the Chlamydomonas reinhardtii Q binding niche reveals photosynthesis works in the absence of a driving force for Q-Q electron transfer.

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