Literature DB >> 29469806

MreB filaments align along greatest principal membrane curvature to orient cell wall synthesis.

Saman Hussain1, Carl N Wivagg1, Piotr Szwedziak2, Felix Wong3, Kaitlin Schaefer4, Thierry Izoré2, Lars D Renner5, Matthew J Holmes1, Yingjie Sun1, Alexandre W Bisson-Filho1, Suzanne Walker6, Ariel Amir3, Jan Löwe2, Ethan C Garner1.   

Abstract

MreB is essential for rod shape in many bacteria. Membrane-associated MreB filaments move around the rod circumference, helping to insert cell wall in the radial direction to reinforce rod shape. To understand how oriented MreB motion arises, we altered the shape of Bacillus subtilis. MreB motion is isotropic in round cells, and orientation is restored when rod shape is externally imposed. Stationary filaments orient within protoplasts, and purified MreB tubulates liposomes in vitro, orienting within tubes. Together, this demonstrates MreB orients along the greatest principal membrane curvature, a conclusion supported with biophysical modeling. We observed that spherical cells regenerate into rods in a local, self-reinforcing manner: rapidly propagating rods emerge from small bulges, exhibiting oriented MreB motion. We propose that the coupling of MreB filament alignment to shape-reinforcing peptidoglycan synthesis creates a locally-acting, self-organizing mechanism allowing the rapid establishment and stable maintenance of emergent rod shape.
© 2018, Hussain et al.

Entities:  

Keywords:  B. subtilis; Bacillus subtilis; E. coli; actin; cell shape; cell wall; infectious disease; microbiology; peptidoglycan; self organization

Mesh:

Substances:

Year:  2018        PMID: 29469806      PMCID: PMC5854468          DOI: 10.7554/eLife.32471

Source DB:  PubMed          Journal:  Elife        ISSN: 2050-084X            Impact factor:   8.140


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