Abstract:
Bacterial cell division requires precise remodeling of the peptidoglycan layer at the septum. The conserved ATP-binding cassette transporter–like complex FtsEX has emerged as a key regulator of this process, coupling ATP hydrolysis to activation of periplasmic hydrolases. In this talk, I will present recent cryo-EM structures of FtsEX and its associated factors, combined with biochemical and functional assays, to illustrate how FtsEX orchestrates septal peptidoglycan hydrolysis in different bacterial species. These findings provide a unifying mechanistic framework for how FtsEX coordinates cell wall remodeling with cytokinesis, and highlight its potential as a target for antibacterial strategies.
Recommended Readings:
- Li J.W., He Y.T., Xu X., Alcorlo M., Shi J., Roper D.I., Hermoso J., Sham L.T., Luo M. Structural insights into peptidoglycan hydrolysis by the FtsEX system in Escherichia coli during cell division. eLife, 2024.
- Li J., Xu X., Shi J., Hermoso J., Sham L.T., and Luo M. Regulation of the Cell Division Hydrolase RipC by the FtsEX system in Mycobacterium tuberculosis. Nature Communications, 2023.
- Xu, X.; Li, J.; Chua, W. Z.; Pages, M. A.; Shi, J.; Hermoso, J. A.; Bernhardt, T.; Sham, L. T.; Luo, M. Mechanistic insights into the regulation of cell wall hydrolysis by FtsEX and EnvC at the bacterial division site. PNAS, 2023.
- Alcorlo, M., Siseth M.C., Li J.W., Sham L.T., Luo M., Hermoso J.. Modulation of the lytic apparatus by the FtsEX complex within the bacterial division machinery. FEBS Letters, 2024.
