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Dev Cell. 2007 May;12(5):827-35.

Anillin and the septins promote asymmetric ingression of the cytokinetic furrow.

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1
Ludwig Institute for Cancer Research, Department of Cellular and Molecular Medicine (UCSD), CMM-East Rm. 3053, 9500 Gilman Drive, La Jolla, CA 92093, USA. amaddox@ucsd.edu

Abstract

During cytokinesis, constriction of a cortical contractile ring generates a furrow that partitions one cell into two. The contractile ring contains three filament systems: actin, bipolar myosin II filaments, and septins, GTP-binding hetero-oligomers that polymerize to form a membrane-associated lattice. The contractile ring also contains a potential filament crosslinker, Anillin, that binds all three filament types. Here, we show that the contractile ring possesses an intrinsic symmetry-breaking mechanism that promotes asymmetric furrowing. Asymmetric ingression requires Anillin and the septins, which promote the coalescence of components on one side of the contractile ring, but is insensitive to a 10-fold reduction in myosin II levels. When asymmetry is disrupted, cytokinesis becomes sensitive to partial inhibition of contractility. Thus, asymmetric furrow ingression, a prevalent but previously unexplored feature of cell division in metazoans, is generated by the action of two conserved furrow components and serves a mechanical function that makes cytokinesis robust.

PMID:
17488632
DOI:
10.1016/j.devcel.2007.02.018
[Indexed for MEDLINE]
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