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Opposite Surfaces of the Cdc15 F-BAR Domain Create a Membrane Platform That Coordinates Cytoskeletal and Signaling Components for Cytokinesis

Chloe E. Snider, Mintu Chandra, Nathan A. McDonald, Alaina H. Willet, Scott E. Collier, Melanie D. Ohi, Lauren P. Jackson, Kathleen L. Gould

2020Cell Reports21 citationsDOIOpen Access PDF

Abstract

Many eukaryotes assemble an actin- and myosin-based cytokinetic ring (CR) on the plasma membrane (PM) for cell division, but how it is anchored there remains unclear. In Schizosaccharomyces pombe, the F-BAR protein Cdc15 links the PM via its F-BAR domain to proteins in the CR's interior via its SH3 domain. However, Cdc15's F-BAR domain also directly binds formin Cdc12, suggesting that Cdc15 may polymerize a protein network directly adjacent to the membrane. Here, we determine that the F-BAR domain binds Cdc12 using residues on the face opposite its membrane-binding surface. These residues also bind paxillin-like Pxl1, promoting its recruitment with calcineurin to the CR. Mutation of these F-BAR domain residues results in a shallower CR, with components localizing ∼35% closer to the PM than in wild type, and aberrant CR constriction. Thus, F-BAR domains serve as oligomeric membrane-bound platforms that can modulate the architecture of an entire actin structure.

Topics & Concepts

CytokinesisCell biologyBiologyCytoskeletonSchizosaccharomycesActinActin cytoskeletonMembrane proteinSchizosaccharomyces pombeBiophysicsCell divisionMembraneBiochemistrySaccharomyces cerevisiaeCellYeastFungal and yeast genetics researchPhotosynthetic Processes and MechanismsCellular transport and secretion
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