Stress-mediated growth determinesE. colidivision site morphogenesis
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Abstract
In order to proliferate, bacteria must remodel their cell wall at the division site. The division process is driven by the enzymatic activity of peptidoglycan (PG) synthases and hydrolases around the constricting Z-ring. PG remodelling is reg-ulated by de-and re-crosslinking enzymes, and the directing constrictive force of the Z-ring. We introduce a model that is able to reproduce correctly the shape of the division site during the constriction and septation phase of E. coli . The model represents mechanochemical coupling within the mathematical framework of morphoelasticity. It contains only two parameters, associated with volumet-ric growth and PG remodelling, that are coupled to the mechanical stress in the bacterial wall. Different morphologies, corresponding either to mutant or wild type cells were recovered as a function of the remodeling parameter. In addition, a plausible range for the cell stiffness and turgor pressure was determined by comparing numerical simulations with bacterial cell lysis data.
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- europepmc
- last seen: 2026-05-20T01:45:00.602351+00:00