全长细菌光敏色素Pr-Pfr长程信号传导机制在原子水平上的结构基础。

Structural basis for the Pr-Pfr long-range signaling mechanism of a full-length bacterial phytochrome at the atomic level.

作者信息

Otero Lisandro H, Foscaldi Sabrina, Antelo Giuliano T, Rosano Germán L, Sirigu Serena, Klinke Sebastián, Defelipe Lucas A, Sánchez-Lamas Maximiliano, Battocchio Giovanni, Conforte Valeria, Vojnov Adrián A, Chavas Leonard M G, Goldbaum Fernando A, Mroginski Maria-Andrea, Rinaldi Jimena, Bonomi Hernán R

机构信息

Fundación Instituto Leloir, IIBBA-CONICET, Av. Patricias Argentinas 435 (C1405BWE), Buenos Aires, Argentina.

Plataforma Argentina de Biología Estructural y Metabolómica PLABEM, Av. Patricias Argentinas 435 (C1405BWE), Buenos Aires, Argentina.

出版信息

Sci Adv. 2021 Nov 26;7(48):eabh1097. doi: 10.1126/sciadv.abh1097. Epub 2021 Nov 24.

DOI:10.1126/sciadv.abh1097

PMID:34818032

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8612531/

Abstract

Phytochromes constitute a widespread photoreceptor family that typically interconverts between two photostates called Pr (red light–absorbing) and Pfr (far-red light–absorbing). The lack of full-length structures solved at the (near-)atomic level in both pure Pr and Pfr states leaves gaps in the structural mechanisms involved in the signal transmission pathways during the photoconversion. Here, we present the crystallographic structures of three versions from the plant pathogen virulence regulator BphP bacteriophytochrome, including two full-length proteins, in the Pr and Pfr states. The structures show a reorganization of the interaction networks within and around the chromophore-binding pocket, an α-helix/β-sheet tongue transition, and specific domain reorientations, along with interchanging kinks and breaks at the helical spine as a result of the photoswitching, which subsequently affect the quaternary assembly. These structural findings, combined with multidisciplinary studies, allow us to describe the signaling mechanism of a full-length bacterial phytochrome at the atomic level.

摘要

光敏色素构成了一个广泛存在的光受体家族，通常在两种称为Pr（吸收红光）和Pfr（吸收远红光）的光状态之间相互转换。在纯Pr和Pfr状态下，缺乏在（近）原子水平解析的全长结构，这使得光转换过程中信号转导途径所涉及的结构机制存在空白。在此，我们展示了来自植物病原体毒力调节因子BphP细菌光敏色素的三个版本的晶体结构，包括处于Pr和Pfr状态的两个全长蛋白。这些结构显示了发色团结合口袋内部和周围相互作用网络的重组、α-螺旋/β-折叠舌状转变、特定结构域的重新定向，以及由于光开关作用导致螺旋主干处的扭结和断裂的交替变化，这随后影响了四级组装。这些结构发现，结合多学科研究，使我们能够在原子水平描述全长细菌光敏色素的信号传导机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/93de/8612531/0ce9c523aac6/sciadv.abh1097-f1.jpg

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全长细菌光敏色素Pr-Pfr长程信号传导机制在原子水平上的结构基础。

Structural basis for the Pr-Pfr long-range signaling mechanism of a full-length bacterial phytochrome at the atomic level.

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