CTP 合酶丝的冷冻电镜结构揭示了出芽酵母饥饿过程中 pH 敏感性组装的机制。

Cryo-EM structures of CTP synthase filaments reveal mechanism of pH-sensitive assembly during budding yeast starvation.

机构信息

Department of Biochemistry, University of Washington, Seattle, United States.

Graduate Program in Biological Physics, Structure, and Design, University of Washington, Seattle, United States.

出版信息

Elife. 2021 Nov 4;10:e73368. doi: 10.7554/eLife.73368.

DOI:10.7554/eLife.73368

PMID:34734801

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8641951/

Abstract

Many metabolic enzymes self-assemble into micron-scale filaments to organize and regulate metabolism. The appearance of these assemblies often coincides with large metabolic changes as in development, cancer, and stress. Yeast undergo cytoplasmic acidification upon starvation, triggering the assembly of many metabolic enzymes into filaments. However, it is unclear how these filaments assemble at the molecular level and what their role is in the yeast starvation response. CTP Synthase (CTPS) assembles into metabolic filaments across many species. Here, we characterize in vitro polymerization and investigate in vivo consequences of CTPS assembly in yeast. Cryo-EM structures reveal a pH-sensitive assembly mechanism and highly ordered filament bundles that stabilize an inactive state of the enzyme, features unique to yeast CTPS. Disruption of filaments in cells with non-assembly or pH-insensitive mutations decreases growth rate, reflecting the importance of regulated CTPS filament assembly in homeotstasis.

摘要

许多代谢酶自组装成微米尺度的纤维，以组织和调节代谢。这些组装的出现通常与代谢的巨大变化相一致，如在发育、癌症和应激过程中。酵母在饥饿时会发生细胞质酸化，触发许多代谢酶组装成纤维。然而，目前尚不清楚这些纤维在分子水平上是如何组装的，以及它们在酵母饥饿反应中的作用是什么。CTP 合酶（CTPS）在许多物种中组装成代谢纤维。在这里，我们描述了体外聚合，并研究了酵母中 CTPS 组装的体内后果。低温电子显微镜结构揭示了一种 pH 敏感的组装机制和高度有序的纤维束，这些纤维束稳定了酶的无活性状态，这是酵母 CTPS 所特有的特征。在没有组装或 pH 不敏感突变的细胞中破坏纤维会降低生长速度，这反映了调节 CTPS 纤维组装在同源性中的重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7a57/8641951/27723af5abc3/elife-73368-fig1.jpg

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CTP 合酶丝的冷冻电镜结构揭示了出芽酵母饥饿过程中 pH 敏感性组装的机制。

Cryo-EM structures of CTP synthase filaments reveal mechanism of pH-sensitive assembly during budding yeast starvation.

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