A post‐translational,c‐di‐GMP‐dependent mechanism regulating flagellar motility |
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Authors: | Xin Fang Mark Gomelsky |
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Institution: | Department of Molecular Biology, University of Wyoming, Laramie, WY 82071, USA. |
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Abstract: | Elevated levels of the second messenger cyclic dimeric GMP, c‐di‐GMP, promote transition of bacteria from single motile cells to surface‐attached multicellular communities. Here we describe a post‐translational mechanism by which c‐di‐GMP initiates this transition in enteric bacteria. High levels of c‐di‐GMP induce the counterclockwise bias in Escherichia coli flagellar rotation, which results in smooth swimming. Based on co‐immunoprecipitation, two‐hybrid and mutational analyses, the E. coli c‐di‐GMP receptor YcgR binds to the FliG subunit of the flagellum switch complex, and the YcgR–FliG interaction is strengthened by c‐di‐GMP. The central fragment of FliG binds to YcgR as well as to FliM, suggesting that YcgR–c‐di‐GMP biases flagellum rotation by altering FliG‐FliM interactions. The c‐di‐GMP‐induced smooth swimming promotes trapping of motile bacteria in semi‐solid media and attachment of liquid‐grown bacteria to solid surfaces, whereas c‐di‐GMP‐dependent mechanisms not involving YcgR further facilitate surface attachment. The YcgR–FliG interaction is conserved in the enteric bacteria, and the N‐terminal YcgR/PilZN domain of YcgR is required for this interaction. YcgR joins a growing list of proteins that regulate motility via the FliG subunit of the flagellum switch complex, which suggests that FliG is a common regulatory entryway that operates in parallel with the chemotaxis that utilizes the FliM‐entryway. |
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