4.4 Article

Characterization of Opposing Responses to Phenol by Bacillus subtilis Chemoreceptors

期刊

JOURNAL OF BACTERIOLOGY
卷 204, 期 4, 页码 -

出版社

AMER SOC MICROBIOLOGY
DOI: 10.1128/jb.00441-21

关键词

Bacillus subtilis; NMR; chemotaxis; phenol; repellent

资金

  1. National Institutes of Health [GM054365]
  2. University of Illinois through the Robert W. Schaefer Faculty Scholar fund

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This study investigates the chemotaxis of Bacillus subtilis to phenol. The main findings are that McpA is the principal chemoreceptor responsible for the repellent response to phenol, while McpC and HemAT govern the attractant response to phenol. The signaling domain of McpA is found to sense phenol, as evidenced by in vitro binding experiments. These results contribute to our understanding of bacterial chemotaxis and demonstrate the ability of chemoreceptors to directly sense chemoeffectors.
Bacillus subtilis employs 10 chemoreceptors to move in response to chemicals in its environment. While the sensing mechanisms have been determined for many attractants, little is known about the sensing mechanisms for repellents. In this work, we investigated phenol chemotaxis in B. subtilis. Phenol is an attractant at low, micromolar concentrations and a repellent at high, millimolar concentrations. McpA was found to be the principal chemoreceptor governing the repellent response to phenol and other related aromatic compounds. In addition, the chemoreceptors McpC and HemAT were found to govern the attractant response to phenol and related compounds. Using chemoreceptor chimeras, McpA was found to sense phenol using its signaling domain rather than its sensing domain. These observations were substantiated in vitro, where direct binding of phenol to the signaling domain of McpA was observed using saturation transfer difference nuclear magnetic resonance. These results further advance our understanding of B. subtilis chemotaxis and further demonstrate that the signaling domain of B. subtilis chemoreceptors can directly sense chemoeffectors. IMPORTANCE Bacterial chemotaxis is commonly thought to employ a sensing mechanism involving the extracellular sensing domain of chemoreceptors. Some ligands, however, appear to be sensed by the signaling domain. Phenolic compounds, commonly found in soil and root exudates, provide environmental cues for soil microbes like Bacillus subtilis. We show that phenol is sensed as both an attractant and a repellent. While the mechanism for sensing phenol as an attractant is still unknown, we found that phenol is sensed as a repellent by the signaling domain of the chemoreceptor McpA. This study furthers our understanding of the unconventional sensing mechanisms employed by the B. subtilis chemotaxis pathway.

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