Litcius/Paper detail

Spatiotemporal regulation of switching front–rear cell polarity

Luís António Menezes Carreira, Dobromir Szadkowski, Franziska Müller, Lotte Søgaard‐Andersen

2022Current Opinion in Cell Biology23 citationsDOIOpen Access PDF

Abstract

Bacterial cells are spatiotemporally highly organised with proteins localising dynamically to distinct subcellular regions. Motility in the rod-shaped Myxococcus xanthus cells represents an example of signal-induced spatiotemporal regulation of cell polarity. M. xanthus cells move across surfaces with defined front-rear polarity; occasionally, they invert polarity and, in parallel, reverse direction of movement. The polarity module establishes front-rear polarity between reversals and consists of the Ras-like GTPase MglA and its cognate GEF and GAP, that all localise asymmetrically to the cell poles. The Frz chemosensory system constitutes the polarity inversion module and interfaces with the proteins of the polarity module, thereby triggering their polar repositioning. As a result, the polarity proteins, over time, toggle between the cell poles causing cells to oscillate irregularly. Here, we review recent progress in how front-rear polarity is established by the polarity module and inverted by the Frz system and highlight open questions for future studies.

Topics & Concepts

Myxococcus xanthusPolarity (international relations)Cell polarityBiologyCell biologyMotilityFront (military)CellPhysicsGeneticsGeneMeteorologyMutantBacterial Genetics and BiotechnologyGenomics and Phylogenetic StudiesRNA and protein synthesis mechanisms