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2.  Structural Dynamics of α-Actinin-Vinculin Interactions†  
Molecular and Cellular Biology  2005;25(14):6112-6122.
α-Actinin and vinculin orchestrate reorganization of the actin cytoskeleton following the formation of adhesion junctions. α-Actinin interacts with vinculin through the binding of an α-helix (αVBS) present within the R4 spectrin repeat of its central rod domain to vinculin's N-terminal seven-helical bundle domain (Vh1). The Vh1:αVBS structure suggests that αVBS first unravels from its buried location in the triple-helical R4 repeat to allow it to bind to vinculin. αVBS binding then induces novel conformational changes in the N-terminal helical bundle of Vh1, which disrupt its intramolecular association with vinculin's tail domain and which differ from the alterations in Vh1 provoked by the binding of talin. Surprisingly, αVBS binds to Vh1 in an inverted orientation compared to the binding of talin's VBSs to vinculin. Importantly, the binding of αVBS and talin's VBSs to vinculin's Vh1 domain appear to also trigger distinct conformational changes in full-length vinculin, opening up distant regions that are buried in the inactive molecule. The data suggest a model where vinculin's Vh1 domain acts as a molecular switch that undergoes distinct structural changes provoked by talin and α-actinin binding in focal adhesions versus adherens junctions, respectively.
doi:10.1128/MCB.25.14.6112-6122.2005
PMCID: PMC1168820  PMID: 15988023

Results 1-2 (2)