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Biphasic chemotaxis of <i>Escherichia coli</i> to the microbiota metabolite indole

H. J. Yang, Ravi Chawla, Kathy Y. Rhee, Rachit Gupta, Michael D. Manson, Arul Jayaraman, Pushkar P. Lele

2020Proceedings of the National Academy of Sciences68 citationsDOIOpen Access PDF

Abstract

to a range of indole concentrations and measured the dynamic responses of individual flagellar motors to determine the chemotaxis response. Below 1 mM indole, a repellent-only response was observed. At 1 mM indole and higher, a time-dependent inversion from a repellent to an attractant response was observed. The repellent and attractant responses were mediated by the Tsr and Tar chemoreceptors, respectively. Also, the flagellar motor itself mediated a repellent response independent of the receptors. Chemotaxis assays revealed that receptor-mediated adaptation to indole caused a bipartite response-wild-type cells were attracted to regions of high indole concentration if they had previously adapted to indole but were otherwise repelled. We propose that indole spatially segregates cells based on their state of adaptation to repel invaders while recruiting beneficial resident bacteria to growing microbial communities within the GI tract.

Topics & Concepts

ChemotaxisEscherichia coliMetaboliteIndole testMicrobiologyChemistryBiologyBiochemistryReceptorGeneEscherichia coli research studiesGut microbiota and health
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