Journal article
Authors list: Blagotinsek, V; Schwan, M; Steinchen, W; Mrusek, D; Hook, JC; Rossmann, F; Freibert, SA; Kratzat, H; Murat, G; Kressler, D; Beckmann, R; Beeby, M; Thormann, KM; Bange, G
Publication year: 2020
Pages: 20826-20835
Journal: Proceedings of the National Academy of Sciences
Volume number: 117
Issue number: 34
ISSN: 0027-8424
Open access status: Green
DOI Link: https://doi.org/10.1073/pnas.2006470117
Publisher: National Academy of Sciences
Abstract:
Bacterial flagella differ in their number and spatial arrangement. In many species, the MinD-type ATPase FIhG (also YIxH/FIeN) is central to the numerical control of bacterial flagella, and its deletion in polarly flagellated bacteria typically leads to hyperflagellation. The molecular mechanism underlying this numerical control, however, remains enigmatic. Using the model species Shewanella putrefaciens, we show that FIhG links assembly of the flagellar C ring with the action of the master transcriptional regulator FIrA (named FIeQ in other species). While FIrA and the flagellar C-ring protein FIiM have an overlapping binding site on FIhG, their binding depends on the ATP-dependent dimerization state of FIhG. FIiM interacts with FIhG independent of nucleotide binding, while FIrA exclusively interacts with the ATP-dependent FIhG dimer and stimulates FIhG ATPase activity. Our in vivo analysis of FIhG partner switching between FIiM and FIrA reveals its mechanism in the numerical restriction of flagella, in which the transcriptional activity of FIrA is down-regulated through a negative feedback loop. Our study demonstrates another level of regulatory complexity underlying the spationumerical regulation of flagellar biogenesis and implies that flagellar assembly transcriptionally regulates the production of more initial building blocks.
Citation Styles
Harvard Citation style: Blagotinsek, V., Schwan, M., Steinchen, W., Mrusek, D., Hook, J., Rossmann, F., et al. (2020) An ATP-dependent partner switch links flagellar C-ring assembly with gene expression, Proceedings of the National Academy of Sciences, 117(34), pp. 20826-20835. https://doi.org/10.1073/pnas.2006470117
APA Citation style: Blagotinsek, V., Schwan, M., Steinchen, W., Mrusek, D., Hook, J., Rossmann, F., Freibert, S., Kratzat, H., Murat, G., Kressler, D., Beckmann, R., Beeby, M., Thormann, K., & Bange, G. (2020). An ATP-dependent partner switch links flagellar C-ring assembly with gene expression. Proceedings of the National Academy of Sciences. 117(34), 20826-20835. https://doi.org/10.1073/pnas.2006470117
