Signal integration and adaptive sensory diversity tuning in Escherichia coli chemotaxis.

Cell systems Pub Date : 2024-07-17 Epub Date: 2024-07-08 DOI:10.1016/j.cels.2024.06.003
Jeremy Philippe Moore, Keita Kamino, Rafaela Kottou, Thomas S Shimizu, Thierry Emonet
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Abstract

In uncertain environments, phenotypic diversity can be advantageous for survival. However, as the environmental uncertainty decreases, the relative advantage of having diverse phenotypes decreases. Here, we show how populations of E. coli integrate multiple chemical signals to adjust sensory diversity in response to changes in the prevalence of each ligand in the environment. Measuring kinase activity in single cells, we quantified the sensitivity distribution to various chemoattractants in different mixtures of background stimuli. We found that when ligands bind uncompetitively, the population tunes sensory diversity to each signal independently, decreasing diversity when the signal's ambient concentration increases. However, among competitive ligands, the population can only decrease sensory diversity one ligand at a time. Mathematical modeling suggests that sensory diversity tuning benefits E. coli populations by modulating how many cells are committed to tracking each signal proportionally as their prevalence changes.

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大肠杆菌趋化过程中的信号整合与适应性感觉多样性调整
在不确定的环境中,表型多样性对生存有利。然而,随着环境不确定性的降低,表型多样性的相对优势也会降低。在这里,我们展示了大肠杆菌种群如何整合多种化学信号来调整感官多样性,以应对环境中每种配体流行率的变化。通过测量单细胞中激酶的活性,我们量化了不同背景刺激混合物中各种趋化物质的敏感性分布。我们发现,当配体非竞争性地结合时,种群会独立地调整对每种信号的感觉多样性,当信号的环境浓度增加时,多样性就会降低。然而,在竞争性配体中,种群每次只能降低一种配体的感觉多样性。数学建模表明,感官多样性调整可以调节有多少细胞致力于跟踪每种信号,使之与这些信号的流行程度成比例,从而使大肠杆菌种群受益。
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