The WASP–WAVE protein network: connecting the membrane to the cytoskeleton
T Takenawa, S Suetsugu - Nature reviews Molecular cell biology, 2007 - nature.com
T Takenawa, S Suetsugu
Nature reviews Molecular cell biology, 2007•nature.comWiskott–Aldrich syndrome protein (WASP) and WASP-family verprolin-homologous protein
(WAVE) family proteins are scaffolds that link upstream signals to the activation of the
ARP2/3 complex, leading to a burst of actin polymerization. ARP2/3-complex-mediated actin
polymerization is crucial for the reorganization of the actin cytoskeleton at the cell cortex for
processes such as cell movement, vesicular trafficking and pathogen infection. Large
families of membrane-binding proteins were recently found to interact with WASP and WAVE …
(WAVE) family proteins are scaffolds that link upstream signals to the activation of the
ARP2/3 complex, leading to a burst of actin polymerization. ARP2/3-complex-mediated actin
polymerization is crucial for the reorganization of the actin cytoskeleton at the cell cortex for
processes such as cell movement, vesicular trafficking and pathogen infection. Large
families of membrane-binding proteins were recently found to interact with WASP and WAVE …
Abstract
Wiskott–Aldrich syndrome protein (WASP) and WASP-family verprolin-homologous protein (WAVE) family proteins are scaffolds that link upstream signals to the activation of the ARP2/3 complex, leading to a burst of actin polymerization. ARP2/3-complex-mediated actin polymerization is crucial for the reorganization of the actin cytoskeleton at the cell cortex for processes such as cell movement, vesicular trafficking and pathogen infection. Large families of membrane-binding proteins were recently found to interact with WASP and WAVE family proteins, therefore providing a new layer of membrane-dependent regulation of actin polymerization.
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