Crippling the bacterial cell wall molecular machinery

Williams, Allison H.; Wheeler, Richard; Deghmane, Ala‐Eddine; Santecchia, Ignacio; Impens, Francis; Bastos, Paulo; Hicham, Samia; Nilges, Maryse Moya; Malosse, Christian; Chamot‐Rooke, Julia; Haouz, Ahmed; Robins, William; Taha, Muhamed‐Kheir; Boneca, Ivo Gomperts

doi:10.1101/607697

Cited by 1 publication

(1 citation statement)

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“…RlpA is required under low‐salt conditions, but not during growth in standard laboratory media, suggesting P. aeruginosa encodes at least one redundant septal LTG (Jorgenson et al , ). Salmonella enterica similarly appears to require LTGs MltC and MltE for proper daughter cell separation in low‐salt conditions (Monteiro et al ., ) and in Neisseria gonorrhoeae , mutating the LTGs LtgA or LtgC result in daughter cell separation defects (Cloud and Dillard, ; Williams et al , ). Thus, LTGs appear to play important and often redundant, but poorly understood roles in septal cleavage in diverse bacteria.…”

Section: Introductionmentioning

confidence: 99%

Lytic transglycosylases RlpA and MltC assist in Vibrio cholerae daughter cell separation

Weaver

Jiménez-Ruiz

Tallavajhala

et al. 2019

Molecular Microbiology

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Summary The cell wall is a crucial structural feature in the vast majority of bacteria and comprises a covalently closed network of peptidoglycan (PG) strands. While PG synthesis is important for survival under many conditions, the cell wall is also a dynamic structure, undergoing degradation and remodeling by ‘autolysins’, enzymes that break down PG. Cell division, for example, requires extensive PG remodeling, especially during separation of daughter cells, which depends heavily upon the activity of amidases. However, in Vibrio cholerae, we demonstrate that amidase activity alone is insufficient for daughter cell separation and that lytic transglycosylases RlpA and MltC both contribute to this process. MltC and RlpA both localize to the septum and are functionally redundant under normal laboratory conditions; however, only RlpA can support normal cell separation in low‐salt media. The division‐specific activity of lytic transglycosylases has implications for the local structure of septal PG, suggesting that there may be glycan bridges between daughter cells that cannot be resolved by amidases. We propose that lytic transglycosylases at the septum cleave PG strands that are crosslinked beyond the reach of the highly regulated activity of the amidase and clear PG debris that may block the completion of outer membrane invagination.

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Section: Introductionmentioning

confidence: 99%