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同源化学感受受体 Tlp2、Tlp3 和 Tlp4 在. 中的多样化感觉范围

Diverse Sensory Repertoire of Paralogous Chemoreceptors Tlp2, Tlp3, and Tlp4 in .

机构信息

Institute for Glycomics, Griffith Universitygrid.1022.1, Gold Coast, Queensland, Australia.

Department of Microbiology and Translational Data Analytics Institute, The Ohio State Universitygrid.261331.4, Columbus, Ohio, USA.

出版信息

Microbiol Spectr. 2022 Dec 21;10(6):e0364622. doi: 10.1128/spectrum.03646-22. Epub 2022 Nov 14.

DOI:10.1128/spectrum.03646-22
PMID:36374080
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9769880/
Abstract

Campylobacter jejuni responds to extracellular stimuli via transducer-like chemoreceptors (Tlps). Here, we describe receptor-ligand interactions of a unique paralogue family of dCache_1 (double lcium channels and motaxis) chemoreceptors: Tlp2, Tlp3, and Tlp4. Phylogenetic analysis revealed that Tlp2, Tlp3, and Tlp4 receptors may have arisen through domain duplications, followed by a divergent evolutionary drift, with Tlp3 emerging more recently, and unexpectedly, responded to glycans, as well as multiple organic and amino acids with overlapping specificities. All three Tlps interacted with five monosaccharides and complex glycans, including Lewis's antigens, P antigens, and fucosyl GM1 ganglioside, indicating a potential role in host-pathogen interactions. Analysis of chemotactic motility of single, double, and triple mutants indicated that these chemoreceptors are likely to work together to balance responses to attractants and repellents to modulate chemotaxis in C. jejuni. Molecular docking experiments, in combination with saturation transfer difference nuclear magnetic resonance spectroscopy and competition surface plasmon resonance analysis, illustrated that the ligand-binding domain of Tlp3 possess one major binding pocket with two overlapping, but distinct binding sites able to interact with multiple ligands. A diverse sensory repertoire could provide C. jejuni with the ability to modulate responses to attractant and repellent signals and allow for adaptation in host-pathogen interactions. Campylobacter jejuni responds to extracellular stimuli via transducer-like chemoreceptors (Tlps). This remarkable sensory perception mechanism allows bacteria to sense environmental changes and avoid unfavorable conditions or to maneuver toward nutrient sources and host cells. Here, we describe receptor-ligand interactions of a unique paralogue family of chemoreceptors, Tlp2, Tlp3, and Tlp4, that may have arisen through domain duplications, followed by a divergent evolutionary drift, with Tlp3 emerging more recently. Unlike previous reports of ligands interacting with sensory proteins, Tlp2, Tlp3, and Tlp4 responded to many types of chemical compounds, including simple and complex sugars such as those present on human blood group antigens and gangliosides, indicating a potential role in host-pathogen interactions. Diverse sensory repertoire could provide C. jejuni with the ability to modulate responses to attractant and repellent signals and allow for adaptation in host-pathogen interactions.

摘要

空肠弯曲菌通过类转录器感受受体(Tlps)对外界刺激做出反应。在这里,我们描述了一种独特的 dCache_1(双钙离子通道和趋动性)感受受体的平行基因家族的受体 - 配体相互作用:Tlp2、Tlp3 和 Tlp4。系统发育分析表明,Tlp2、Tlp3 和 Tlp4 受体可能是通过结构域复制产生的,然后经历了不同的进化漂移,其中 Tlp3 最近出现,并出人意料地对聚糖以及多种具有重叠特异性的有机和氨基酸做出响应。所有三种 Tlps 都与五种单糖和复杂糖相互作用,包括 Lewis 抗原、P 抗原和岩藻糖 GM1 神经节苷脂,表明它们在宿主 - 病原体相互作用中可能具有潜在作用。对单个、双个和三个突变体的趋化运动分析表明,这些感受受体可能共同作用,以平衡对趋化吸引剂和排斥剂的反应,从而调节空肠弯曲菌的趋化性。分子对接实验,结合饱和转移差核磁共振光谱和竞争表面等离子体共振分析,说明了 Tlp3 的配体结合域具有一个主要的结合口袋,其中包含两个重叠但不同的结合位点,能够与多种配体相互作用。多样化的感觉受体库可以使空肠弯曲菌能够调节对趋化吸引剂和排斥剂信号的反应,并允许在宿主 - 病原体相互作用中进行适应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd91/9769880/0ec5b3a4c3fb/spectrum.03646-22-f007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd91/9769880/8f83f67786c2/spectrum.03646-22-f001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd91/9769880/32ce88e7508b/spectrum.03646-22-f002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd91/9769880/51012745520c/spectrum.03646-22-f003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd91/9769880/e736279bd1a0/spectrum.03646-22-f004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd91/9769880/96cd59a9e4c1/spectrum.03646-22-f005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd91/9769880/e61bbe422175/spectrum.03646-22-f006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd91/9769880/0ec5b3a4c3fb/spectrum.03646-22-f007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd91/9769880/8f83f67786c2/spectrum.03646-22-f001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd91/9769880/32ce88e7508b/spectrum.03646-22-f002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd91/9769880/51012745520c/spectrum.03646-22-f003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd91/9769880/e736279bd1a0/spectrum.03646-22-f004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd91/9769880/96cd59a9e4c1/spectrum.03646-22-f005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd91/9769880/e61bbe422175/spectrum.03646-22-f006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd91/9769880/0ec5b3a4c3fb/spectrum.03646-22-f007.jpg

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