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© Research
Publication : The EMBO journal

Short FtsZ filaments can drive asymmetric cell envelope constriction at the onset of bacterial cytokinesis.

Scientific Fields
Diseases
Organisms
Applications
Technique

Published in The EMBO journal - 01 Jun 2017

Yao Q, Jewett AI, Chang YW, Oikonomou CM, Beeby M, Iancu CV, Briegel A, Ghosal D, Jensen GJ

Link to Pubmed [PMID] – 28438890

Link to DOI – 10.15252/embj.201696235

EMBO J 2017 Jun; 36(11): 1577-1589

FtsZ, the bacterial homologue of eukaryotic tubulin, plays a central role in cell division in nearly all bacteria and many archaea. It forms filaments under the cytoplasmic membrane at the division site where, together with other proteins it recruits, it drives peptidoglycan synthesis and constricts the cell. Despite extensive study, the arrangement of FtsZ filaments and their role in division continue to be debated. Here, we apply electron cryotomography to image the native structure of intact dividing cells and show that constriction in a variety of Gram-negative bacterial cells, including Proteus mirabilis and Caulobacter crescentus, initiates asymmetrically, accompanied by asymmetric peptidoglycan incorporation and short FtsZ-like filament formation. These results show that a complete ring of FtsZ is not required for constriction and lead us to propose a model for FtsZ-driven division in which short dynamic FtsZ filaments can drive initial peptidoglycan synthesis and envelope constriction at the onset of cytokinesis, later increasing in length and number to encircle the division plane and complete constriction.