Taming the flagellar motor of pseudomonads with a nucleotide messenger
Pseudomonads rely on the flagellar motor to rotate a polar flagellum for swimming and swarming, and to sense surfaces for initiating the motile‐to‐sessile transition to adopt a surface‐dwelling lifestyle. Deciphering the function and regulation of the flagellar motor is of paramount importance for u...
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sg-ntu-dr.10356-1478452022-03-26T20:11:49Z Taming the flagellar motor of pseudomonads with a nucleotide messenger Ma, Guang‐Lei Chandra, Hartono Liang, Zhao‐Xun School of Biological Sciences Singapore Centre for Environmental Life Sciences and Engineering (SCELSE) Science::Biological sciences::Microbiology Flagellar Motor Pseudomonas Cyclic Nucleotide Motility Biofilm Pseudomonads rely on the flagellar motor to rotate a polar flagellum for swimming and swarming, and to sense surfaces for initiating the motile‐to‐sessile transition to adopt a surface‐dwelling lifestyle. Deciphering the function and regulation of the flagellar motor is of paramount importance for understanding the behaviours of environmental and pathogenic pseudomonads. Recent studies disclosed the preeminent role played by the messenger c‐di‐GMP in controlling the real‐time performance of the flagellar motor in pseudomonads. The studies revealed that c‐di‐GMP controls the dynamic exchange of flagellar stator units to regulate motor torque/speed and modulates the frequency of flagellar motor switching via the chemosensory signalling pathways. Apart from being a rotary motor, the flagellar motor is emerging as a mechanosensor that transduces surface‐induced mechanical signals into an increase of cellular c‐di‐GMP concentration to initiate the cellular programs required for long‐term colonization. Collectively, the studies generate long‐awaited mechanistic insights into how c‐di‐GMP regulates bacterial motility and the motile‐to‐sessile transition. The new findings also raise the fundamental questions of how cellular c‐di‐GMP concentrations are dynamically coupled to flagellar output and the proton‐motive force, and how c‐di‐GMP signalling is coordinated spatiotemporally to fine‐tune flagellar response and the behaviour of pseudomonads in solutions and on surfaces. Nanyang Technological University National Research Foundation (NRF) Submitted/Accepted version The authors are grateful for the generous financial support from the Nanyang Technological University (NTU) (NIMBEL grant NIM/03/2017) and National Research Foundation of Singapore (SBP‐01). 2022-03-22T07:50:36Z 2022-03-22T07:50:36Z 2020 Journal Article Ma, G., Chandra, H. & Liang, Z. (2020). Taming the flagellar motor of pseudomonads with a nucleotide messenger. Environmental Microbiology, 22(7), 2496-2513. https://dx.doi.org/10.1111/1462-2920.15036 1462-2912 https://hdl.handle.net/10356/147845 10.1111/1462-2920.15036 7 22 2496 2513 en SBP-P1 NIM/03/2017 Environmental Microbiology © 2020 Society for Applied Microbiology and John Wiley & Sons Ltd. All rights reserved. This paper was published in Environmental Microbiology and is made available with permission of Society for Applied Microbiology and John Wiley & Sons Ltd. application/pdf |
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Science::Biological sciences::Microbiology Flagellar Motor Pseudomonas Cyclic Nucleotide Motility Biofilm |
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Science::Biological sciences::Microbiology Flagellar Motor Pseudomonas Cyclic Nucleotide Motility Biofilm Ma, Guang‐Lei Chandra, Hartono Liang, Zhao‐Xun Taming the flagellar motor of pseudomonads with a nucleotide messenger |
| description |
Pseudomonads rely on the flagellar motor to rotate a polar flagellum for swimming and swarming, and to sense surfaces for initiating the motile‐to‐sessile transition to adopt a surface‐dwelling lifestyle. Deciphering the function and regulation of the flagellar motor is of paramount importance for understanding the behaviours of environmental and pathogenic pseudomonads. Recent studies disclosed the preeminent role played by the messenger c‐di‐GMP in controlling the real‐time performance of the flagellar motor in pseudomonads. The studies revealed that c‐di‐GMP controls the dynamic exchange of flagellar stator units to regulate motor torque/speed and modulates the frequency of flagellar motor switching via the chemosensory signalling pathways. Apart from being a rotary motor, the flagellar motor is emerging as a mechanosensor that transduces surface‐induced mechanical signals into an increase of cellular c‐di‐GMP concentration to initiate the cellular programs required for long‐term colonization. Collectively, the studies generate long‐awaited mechanistic insights into how c‐di‐GMP regulates bacterial motility and the motile‐to‐sessile transition. The new findings also raise the fundamental questions of how cellular c‐di‐GMP concentrations are dynamically coupled to flagellar output and the proton‐motive force, and how c‐di‐GMP signalling is coordinated spatiotemporally to fine‐tune flagellar response and the behaviour of pseudomonads in solutions and on surfaces. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Ma, Guang‐Lei Chandra, Hartono Liang, Zhao‐Xun |
| format |
Article |
| author |
Ma, Guang‐Lei Chandra, Hartono Liang, Zhao‐Xun |
| author_sort |
Ma, Guang‐Lei |
| title |
Taming the flagellar motor of pseudomonads with a nucleotide messenger |
| title_short |
Taming the flagellar motor of pseudomonads with a nucleotide messenger |
| title_full |
Taming the flagellar motor of pseudomonads with a nucleotide messenger |
| title_fullStr |
Taming the flagellar motor of pseudomonads with a nucleotide messenger |
| title_full_unstemmed |
Taming the flagellar motor of pseudomonads with a nucleotide messenger |
| title_sort |
taming the flagellar motor of pseudomonads with a nucleotide messenger |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/147845 |
| _version_ |
1728433397381988352 |