Piotr Szwedziak scite author profile

FtsA is an early component of the Z‐ring, the structure that divides most bacteria, formed by tubulin‐like FtsZ. FtsA belongs to the actin family of proteins, showing an unusual subdomain architecture. Here we reconstitute the tethering of FtsZ to the membrane via FtsA's C‐terminal amphipathic helix in vitro using Thermotoga maritima proteins. A crystal structure of the FtsA:FtsZ interaction reveals 16 amino acids of the FtsZ tail bound to subdomain 2B of FtsA. The same structure and a second crystal form of FtsA reveal that FtsA forms actin‐like protofilaments with a repeat of 48 Å. The identical repeat is observed when FtsA is polymerized using a lipid monolayer surface and FtsAs from three organisms form polymers in cells when overexpressed, as observed by electron cryotomography. Mutants that disrupt polymerization also show an elongated cell division phenotype in a temperature‐sensitive FtsA background, demonstrating the importance of filament formation for FtsA's function in the Z‐ring.

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Architecture of the ring formed by the tubulin homologue FtsZ in bacterial cell division

Szwedziak

et al. 2014

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Membrane constriction is a prerequisite for cell division. The most common membrane constriction system in prokaryotes is based on the tubulin homologue FtsZ, whose filaments in E. coli are anchored to the membrane by FtsA and enable the formation of the Z-ring and divisome. The precise architecture of the FtsZ ring has remained enigmatic. In this study, we report three-dimensional arrangements of FtsZ and FtsA filaments in C. crescentus and E. coli cells and inside constricting liposomes by means of electron cryomicroscopy and cryotomography. In vivo and in vitro, the Z-ring is composed of a small, single-layered band of filaments parallel to the membrane, creating a continuous ring through lateral filament contacts. Visualisation of the in vitro reconstituted constrictions as well as a complete tracing of the helical paths of the filaments with a molecular model favour a mechanism of FtsZ-based membrane constriction that is likely to be accompanied by filament sliding.DOI: http://dx.doi.org/10.7554/eLife.04601.001

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

et al. 2018

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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.

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3D-visualization of amyloid-β oligomer interactions with lipid membranes by cryo-electron tomography

et al. 2021

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Do the divisome and elongasome share a common evolutionary past?

Szwedziak

Löwe

2013

Current Opinion in Microbiology

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Piotr Szwedziak

FtsA forms actin-like protofilaments

Architecture of the ring formed by the tubulin homologue FtsZ in bacterial cell division

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

3D-visualization of amyloid-β oligomer interactions with lipid membranes by cryo-electron tomography

Do the divisome and elongasome share a common evolutionary past?

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