Taya Zakharova scite author profile

During morphogenesis, the actin cytoskeleton mediates cell-shape change in response to growth signals. In plants, actin filaments organize the cytoplasm in regions of polarized growth, and the filamentous arrays can be highly dynamic. Small GTPase signaling proteins termed Rho of plants (ROP)/RAC control actin polymerization. ROPs cycle between inactive GDP-bound and active GTPbound forms, and it is the active form that interacts with effector proteins to mediate cytoskeletal rearrangement and cell-shape change. A class of proteins termed guanine nucleotide exchange factors (GEFs) generate GTP-ROP and positively regulate ROP signaling. However, in almost all experimental systems, it has proven difficult to unravel the complex signaling pathways from GEFs to the proteins that nucleate actin filaments. In this article, we show that the DOCK family protein SPIKE1 (SPK1) is a GEF, and that one function of SPK1 is to control actin polymerization via two heteromeric complexes termed WAVE and actin-related protein (ARP) 2/3. The genetic pathway was constructed by using a combination of highly informative spk1 alleles and detailed analyses of spk1, wave, and arp2/3 single and double mutants. Remarkably, we find that in addition to providing GEF activity, SPK1 associates with WAVE complex proteins and may spatially organize signaling. Our results describe a unique regulatory scheme for ARP2/3 regulation in cells, one that can be tested for widespread use in other multicellular organisms.DOCK ͉ cytoskeleton ͉ guanine nucleotide exchange factor ͉ Rho GTPase ͉ ROP

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The Association of the Arabidopsis Actin-Related Protein2/3 Complex with Cell Membranes Is Linked to Its Assembly Status But Not Its Activation

Kotchoni

Zakharova

Mallery

et al. 2009

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In growing plant cells, the combined activities of the cytoskeleton, endomembrane, and cell wall biosynthetic systems organize the cytoplasm and define the architecture and growth properties of the cell. These biosynthetic machineries efficiently synthesize, deliver, and recycle the raw materials that support cell expansion. The precise roles of the actin cytoskeleton in these processes are unclear. Certainly, bundles of actin filaments position organelles and are a substrate for long-distance intracellular transport, but the functional linkages between dynamic actin filament arrays and the cell growth machinery are poorly understood. The Arabidopsis (Arabidopsis thaliana) “distorted group” mutants have defined protein complexes that appear to generate and convert small GTPase signals into an Actin-Related Protein2/3 (ARP2/3)-dependent actin filament nucleation response. However, direct biochemical knowledge about Arabidopsis ARP2/3 and its cellular distribution is lacking. In this paper, we provide biochemical evidence for a plant ARP2/3. The plant complex utilizes a conserved assembly mechanism. ARPC4 is the most critical core subunit that controls the assembly and steady-state levels of the complex. ARP2/3 in other systems is believed to be mostly a soluble complex that is locally recruited and activated. Unexpectedly, we find that Arabidopsis ARP2/3 interacts strongly with cell membranes. Membrane binding is linked to complex assembly status and not to the extent to which it is activated. Mutant analyses implicate ARP2 as an important subunit for membrane association.

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Taya Zakharova

A SPIKE1 signaling complex controls actin-dependent cell morphogenesis through the heteromeric WAVE and ARP2/3 complexes

The Association of the Arabidopsis Actin-Related Protein2/3 Complex with Cell Membranes Is Linked to Its Assembly Status But Not Its Activation

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