解释普遍存在的非典型 G 蛋白（OsYchF1）与水稻中植物特异性 C2 结构域蛋白（OsGAP1）之间结合的结构模型。

A structure model explaining the binding between a ubiquitous unconventional G-protein (OsYchF1) and a plant-specific C2-domain protein (OsGAP1) from rice.

机构信息

School of Life Sciences, The Chinese University of Hong Kong, Shatin, N.T., Hong Kong SAR.

Center for Soybean Research of the State Key Laboratory of Agrobiotechnology, The Chinese University of Hong Kong, Shatin, N.T., Hong Kong SAR.

出版信息

Biochem J. 2020 Oct 30;477(20):3935-3949. doi: 10.1042/BCJ20200380.

DOI:10.1042/BCJ20200380

PMID:32955089

Abstract

The unconventional G-protein OsYchF1 plays regulatory roles in plant defense and abiotic stress responses. We have previously resolved the crystal structures of OsYchF1 and its plant-specific regulator, OsGAP1, and determined the residues on OsGAP1 that are essential for its binding to OsYchF1. In this study, we employed site-directed mutagenesis to identify four critical residues on the TGS domain of OsYchF1 that are critical for its binding to OsGAP1. We also generated a docking model of the OsYchF1 : OsGAP1 complex to dissect the molecular basis of their interactions. Our finding not only reveals the roles of the key interacting residues controlling the binding between OsYchF1 and OsGAP1, but also provides a working model on the potential regulatory mechanism mediated by a TGS domain, particularly in the class of GTPase of the OBG family.

摘要

非典型 G 蛋白 OsYchF1 在植物防御和非生物胁迫反应中发挥调节作用。我们之前解析了 OsYchF1 及其植物特异性调节剂 OsGAP1 的晶体结构，并确定了 OsGAP1 上与 OsYchF1 结合所必需的残基。在这项研究中，我们采用定点突变技术鉴定了 OsYchF1 的 TGS 结构域上的四个关键残基，这些残基对于 OsGAP1 的结合至关重要。我们还生成了 OsYchF1:OsGAP1 复合物的对接模型，以剖析它们相互作用的分子基础。我们的发现不仅揭示了控制 OsYchF1 和 OsGAP1 之间结合的关键相互作用残基的作用，而且还提供了一个关于 TGS 结构域介导的潜在调节机制的工作模型，特别是在 OBG 家族的 GTPase 类中。

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A structure model explaining the binding between a ubiquitous unconventional G-protein (OsYchF1) and a plant-specific C2-domain protein (OsGAP1) from rice.解释普遍存在的非典型 G 蛋白（OsYchF1）与水稻中植物特异性 C2 结构域蛋白（OsGAP1）之间结合的结构模型。

Biochem J. 2020 Oct 30;477(20):3935-3949. doi: 10.1042/BCJ20200380.

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OsRab11 and OsGAP1 are essential for the vesicle trafficking of the vacuolar H(+)-ATPase OsVHA-a1 under high salinity conditions.在高盐条件下，OsRab11 和 OsGAP1 对于液泡 H(+)-ATP 酶 OsVHA-a1 的囊泡运输是必需的。

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解释普遍存在的非典型 G 蛋白（OsYchF1）与水稻中植物特异性 C2 结构域蛋白（OsGAP1）之间结合的结构模型。

A structure model explaining the binding between a ubiquitous unconventional G-protein (OsYchF1) and a plant-specific C2-domain protein (OsGAP1) from rice.

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