Félix Velando, Elizabet Monteagudo-Cascales, Miguel A Matilla, Tino Krell
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引用次数: 0
摘要
许多化学感受器在连接体末端都含有一个 C 端五肽。在大肠杆菌中,这种五肽与 CheR 和磷酸化的 CheB 形成高亲和力结合位点,去除这种结合位点会干扰化学感受器的适应性。对化学感受器的分析表明,它们的五肽序列存在显著差异,细菌通常拥有多个五肽不同的化学感受器。为了评估这种序列变异是否会改变化学感受器的亲和性和趋化性,我们使用了无核果胶杆菌 SCRI1043 作为模型。SCRI1043 有 36 个化学感受器,其中 19 个含有 C 端五肽。我们发现,CheR 对不同五肽的亲和力最多相差 11 倍(KD 值从 90 nM 到 1 μM)。亲和力最高和最低的五肽只有一个氨基酸不同。缺失 cheR 基因后,趋化性消失。用亲和力最高和最低的五肽替换 PacC 化学感受器中的五肽,可显著降低对其同源化学效应物 L-Asp 的趋化性。改变 PacC 五肽也会降低对 L-Ser 的趋化性,但不会降低对硝酸盐的趋化性。因此,五肽序列的变化可调节同源受体和另一种化学感受器的反应。
Differential CheR Affinity for Chemoreceptor C-Terminal Pentapeptides Modulates Chemotactic Responses.
Many chemoreceptors contain a C-terminal pentapeptide at the end of a linker. In Escherichia coli, this pentapeptide forms a high-affinity binding site for CheR and phosphorylated CheB, and its removal interferes with chemoreceptor adaptation. Analysis of chemoreceptors revealed significant variation in their pentapeptide sequences, and bacteria often possess multiple chemoreceptors with differing pentapeptides. To assess whether this sequence variation alters CheR affinity and chemotaxis, we used Pectobacterium atrosepticum SCRI1043 as a model. SCRI1043 has 36 chemoreceptors, with 19 of them containing a C-terminal pentapeptide. We show that the affinity of CheR for the different pentapeptides varies up to 11-fold (KD 90 nM to 1 μM). Pentapeptides with the highest and lowest affinities differ only in a single amino acid. Deletion of the cheR gene abolishes chemotaxis. The replacement of the pentapeptide in the PacC chemoreceptor with those of the highest and lowest affinities significantly reduced chemotaxis to its cognate chemoeffector, L-Asp. Altering the PacC pentapeptide also reduced chemotaxis to L-Ser, but not to nitrate, which are responses mediated by the nontethered PacB and PacN chemoreceptors, respectively. Changes in the pentapeptide sequence thus modulate the response of the cognate receptor and that of another chemoreceptor.
期刊介绍:
Molecular Microbiology, the leading primary journal in the microbial sciences, publishes molecular studies of Bacteria, Archaea, eukaryotic microorganisms, and their viruses.
Research papers should lead to a deeper understanding of the molecular principles underlying basic physiological processes or mechanisms. Appropriate topics include gene expression and regulation, pathogenicity and virulence, physiology and metabolism, synthesis of macromolecules (proteins, nucleic acids, lipids, polysaccharides, etc), cell biology and subcellular organization, membrane biogenesis and function, traffic and transport, cell-cell communication and signalling pathways, evolution and gene transfer. Articles focused on host responses (cellular or immunological) to pathogens or on microbial ecology should be directed to our sister journals Cellular Microbiology and Environmental Microbiology, respectively.
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