双组分信号系统传感器的分子模型。

Molecular model of a sensor of two-component signaling system.

作者信息

Ryzhykau Yury L, Orekhov Philipp S, Rulev Maksim I, Vlasov Alexey V, Melnikov Igor A, Volkov Dmytro A, Nikolaev Mikhail Yu, Zabelskii Dmitrii V, Murugova Tatiana N, Chupin Vladimir V, Rogachev Andrey V, Gruzinov Andrey Yu, Svergun Dmitri I, Brennich Martha E, Gushchin Ivan Yu, Soler-Lopez Montserrat, Bothe Arne, Büldt Georg, Leonard Gordon, Engelhard Martin, Kuklin Alexander I, Gordeliy Valentin I

机构信息

Research Center for Molecular Mechanisms of Aging and Age-Related Diseases, Moscow Institute of Physics and Technology, 141700, Dolgoprudny, Russia.

Structural Biology Group, European Synchrotron Radiation Facility, 71 Avenue des Martyrs, 38000, Grenoble, France.

出版信息

Sci Rep. 2021 May 24;11(1):10774. doi: 10.1038/s41598-021-89613-6.

DOI:10.1038/s41598-021-89613-6

PMID:34031444

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8144572/

Abstract

Two-component systems (TCS) are widespread signaling systems present in all domains of life. TCS typically consist of a signal receptor/transducer and a response regulator. The receptors (histidine kinases, chemoreceptors and photoreceptors) are often embedded in the membrane and have a similar modular structure. Chemoreceptors were shown to function in highly ordered arrays, with trimers of dimers being the smallest functional unit. However, much less is known about photoreceptors. Here, we use small-angle scattering (SAS) to show that detergent-solubilized sensory rhodopsin II in complex with its cognate transducer forms dimers at low salt concentration, which associate into trimers of dimers at higher buffer molarities. We then fit an atomistic model of the whole complex into the SAS data. The obtained results suggest that the trimer of dimers is "tripod"-shaped and that the contacts between the dimers occur only through their cytoplasmic regions, whereas the transmembrane regions remain unconnected.

摘要

双组分系统（TCS）是广泛存在于所有生命领域的信号传导系统。TCS通常由信号受体/转导器和响应调节因子组成。受体（组氨酸激酶、化学感受器和光感受器）通常嵌入膜中，具有相似的模块化结构。化学感受器被证明以高度有序的阵列发挥作用，二聚体三聚体是最小的功能单元。然而，人们对光感受器的了解要少得多。在这里，我们使用小角散射（SAS）表明，去污剂溶解的感官视紫红质II与其同源转导器形成的复合物在低盐浓度下形成二聚体，在较高缓冲液摩尔浓度下缔合形成二聚体三聚体。然后，我们将整个复合物的原子模型与SAS数据进行拟合。所得结果表明，二聚体三聚体呈“三脚架”形状，二聚体之间的接触仅通过其细胞质区域发生，而跨膜区域保持不相连。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/794e/8144572/5f28f74c920f/41598_2021_89613_Fig1_HTML.jpg

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双组分信号系统传感器的分子模型。

Molecular model of a sensor of two-component signaling system.

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