Uncovering the mechanism for polar sequestration of the major bacterial sugar regulator by high-throughput screens and 3D interaction modeling.

IF 6.9 1区生物学 Q1 CELL BIOLOGY Cell reports Pub Date : 2025-03-25 Epub Date: 2025-03-17 DOI:10.1016/j.celrep.2025.115436

Nitsan Albocher-Kedem, Meta Heidenreich, Amir Fadel, Elizabeta Sirotkin, Omer Goldberger, Anat Nussbaum-Shochat, Emmanuel D Levy, Ora Schueler-Furman, Maya Schuldiner, Orna Amster-Choder

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Abstract

The poles of rod-shaped bacteria emerge as regulatory hubs. We have shown that enzyme I (EI), the major bacterial sugar metabolism regulator, is sequestered when not needed in TmaR phase-separated condensates in Escherichia coli cell poles. Here, we combined genetic and automated microscopy screens to identify residues in EI and TmaR that are important for their interaction and colocalization. Mutating these residues affects EI-TmaR interaction in bacteria and impairs co-phase separation in yeast. The results were used to generate an EI-TmaR interaction model, which agrees with coevolution data and is supported by conservation of the interacting residues and EI-TmaR colocalization in other species. Mutating residues predicted to interact electrostatically further supports our model. The model explains how TmaR controls EI activity and its interaction with the phosphoprotein HPr and, hence, sugar uptake. Our study highlights the importance of sugar metabolism spatial regulation during evolution and presents a way to unravel protein-protein interactions.

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通过高通量筛选和三维相互作用建模揭示主要细菌糖调节因子的极性隔离机制。

杆状细菌的极点成为调控中心。我们已经证明，主要的细菌糖代谢调节剂酶I （EI）在不需要时被隔离在大肠杆菌细胞株的TmaR相分离凝聚物中。在这里，我们结合遗传和自动显微镜筛选来鉴定EI和TmaR中的残基，这些残基对它们的相互作用和共定位很重要。突变这些残基会影响细菌中EI-TmaR的相互作用，并损害酵母中的共相分离。该模型与协同进化数据一致，并得到了相互作用残基守恒和EI-TmaR在其他物种共定位的支持。预测的静电相互作用的突变残基进一步支持我们的模型。该模型解释了TmaR如何控制EI活性及其与磷酸蛋白HPr的相互作用，从而控制糖的摄取。我们的研究强调了进化过程中糖代谢空间调节的重要性，并提出了一种解开蛋白质-蛋白质相互作用的方法。

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来源期刊

Cell reports CELL BIOLOGY-

CiteScore

13.80

自引率

1.10%

发文量

1305

审稿时长

77 days

期刊介绍： Cell Reports publishes high-quality research across the life sciences and focuses on new biological insight as its primary criterion for publication. The journal offers three primary article types: Reports, which are shorter single-point articles, research articles, which are longer and provide deeper mechanistic insights, and resources, which highlight significant technical advances or major informational datasets that contribute to biological advances. Reviews covering recent literature in emerging and active fields are also accepted. The Cell Reports Portfolio includes gold open-access journals that cover life, medical, and physical sciences, and its mission is to make cutting-edge research and methodologies available to a wide readership. The journal's professional in-house editors work closely with authors, reviewers, and the scientific advisory board, which consists of current and future leaders in their respective fields. The advisory board guides the scope, content, and quality of the journal, but editorial decisions are independently made by the in-house scientific editors of Cell Reports.