Bacterial amino acid chemotaxis: a widespread strategy with multiple physiological and ecological roles.

IF 2.7 3区 生物学 Q3 MICROBIOLOGY Journal of Bacteriology Pub Date : 2024-10-24 Epub Date: 2024-09-27 DOI:10.1128/jb.00300-24
Miguel A Matilla, Tino Krell
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Abstract

Chemotaxis is the directed, flagellum-based movement of bacteria in chemoeffector gradients. Bacteria respond chemotactically to a wide range of chemoeffectors, including amino, organic, and fatty acids, sugars, polyamines, quaternary amines, purines, pyrimidines, aromatic hydrocarbons, oxygen, inorganic ions, or polysaccharides. Most frequent are chemotactic responses to amino acids (AAs), which were observed in numerous bacteria regardless of their phylogeny and lifestyle. Mostly chemoattraction responses are observed, although a number of bacteria are repelled from certain AAs. Chemoattraction is associated with the important metabolic value of AAs as growth substrates or building blocks of proteins. However, additional studies revealed that AAs are also sensed as environmental cues. Many chemoreceptors are specific for AAs, and signaling is typically initiated by direct ligand binding to their four-helix bundle or dCache ligand-binding domains. Frequently, bacteria possess multiple AA-responsive chemoreceptors that at times possess complementary AA ligand spectra. The identification of sequence motifs in the binding sites at dCache_1 domains has permitted to define an AA-specific family of dCache_1AA chemoreceptors. In addition, AAs are among the ligands recognized by broad ligand range chemoreceptors, and evidence was obtained for chemoreceptor activation by the binding of AA-loaded solute-binding proteins. The biological significance of AA chemotaxis is very ample including in biofilm formation, root and seed colonization by beneficial bacteria, plant entry of phytopathogens, colonization of the intestine, or different virulence-related features in human/animal pathogens. This review provides insights that may be helpful for the study of AA chemotaxis in other uncharacterized bacteria.

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细菌的氨基酸趋化作用:一种具有多种生理和生态作用的广泛策略。
趋化作用是细菌在化学效应梯度中以鞭毛为基础的定向运动。细菌对多种化学效应物(包括氨基酸、有机酸和脂肪酸、糖、多胺、季胺、嘌呤、嘧啶、芳香烃、氧、无机离子或多糖)都会产生趋化反应。最常见的是对氨基酸(AAs)的趋化反应,在许多细菌中都观察到了这种反应,而不论其系统发育和生活方式如何。虽然一些细菌会被某些 AAs 排斥,但观察到的大多是趋化反应。趋化作用与 AAs 作为生长底物或蛋白质组成成分的重要代谢价值有关。然而,更多的研究表明,AAs 也能作为环境线索被感知。许多化学感受器对 AAs 具有特异性,信号通常是通过配体与它们的四螺旋束或 dCache 配体结合域直接结合而启动的。细菌通常具有多种 AA 响应化学感受器,这些化学感受器有时具有互补的 AA 配体谱。通过鉴定 dCache_1 结构域结合位点的序列基序,可以定义一个 AA 特异性的 dCache_1AA 化学感受器家族。此外,配体范围广泛的化学感受器也能识别 AA,而且有证据表明,化学感受器是通过与装载 AA 的溶质结合蛋白结合而激活的。AA 趋化作用的生物学意义非常广泛,包括生物膜的形成、有益细菌的根和种子定殖、植物病原体的植物进入、肠道定殖或人类/动物病原体的不同毒力相关特征。本综述提供的见解可能有助于研究其他未定性细菌的 AA 趋化性。
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来源期刊
Journal of Bacteriology
Journal of Bacteriology 生物-微生物学
CiteScore
6.10
自引率
9.40%
发文量
324
审稿时长
1.3 months
期刊介绍: The Journal of Bacteriology (JB) publishes research articles that probe fundamental processes in bacteria, archaea and their viruses, and the molecular mechanisms by which they interact with each other and with their hosts and their environments.
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