Julia Dyachok scite author profile

The ARP2/3 complex, a highly conserved nucleator of F-actin, and its activator, the SCAR complex, are essential for growth in plants and animals. In this article, we present a pathway through which roots of Arabidopsis thaliana directly perceive light to promote their elongation. The ARP2/3-SCAR complex and the maintenance of longitudinally aligned F-actin arrays are crucial components of this pathway. The involvement of the ARP2/3-SCAR complex in light-regulated root growth is supported by our finding that mutants of the SCAR complex subunit BRK1/HSPC300, or other individual subunits of the ARP2/3-SCAR complex, showed a dramatic inhibition of root elongation in the light, which mirrored reduced growth of wild-type roots in the dark. SCAR1 degradation in dark-grown wild-type roots by constitutive photomorphogenic 1 (COP1) E3 ligase and 26S proteasome accompanied the loss of longitudinal F-actin and reduced root growth. Light perceived by the root photoreceptors, cryptochrome and phytochrome, suppressed COP1-mediated SCAR1 degradation. Taken together, our data provide a biochemical explanation for light-induced promotion of root elongation by the ARP2/3-SCAR complex.

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Arnold¹,

Sabala

Bozhkov³

et al. 2002

481

128

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BRICK1/HSPC300 functions with SCAR and the ARP2/3 complex to regulate epidermal cell shape in Arabidopsis

et al. 2006

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The Arp2/3 complex, a highly conserved nucleator of F-actin polymerization,is essential for a variety of eukaryotic cellular processes, including epidermal cell morphogenesis in Arabidopsis thaliana. Efficient nucleation of actin filaments by the Arp2/3 complex requires the presence of an activator such as a member of the Scar/WAVE family. In mammalian cells, a multiprotein complex consisting of WAVE, PIR121/Sra-1, Nap1, Abi-2 and HSPC300 mediates responsiveness of WAVE to upstream regulators such as Rac. Essential roles in WAVE complex assembly or function have been demonstrated for PIR121/Sra-1, Nap1 and Abi-2, but the significance of HSPC300 in this complex is unclear. Plant homologs of all mammalian WAVE complex components have been identified, including HSPC300, the mammalian homolog of maize BRICK1 (BRK1). We show that, like mutations disrupting the Arabidopsis homologs of PIR121/Sra-1, Nap1 and Scar/WAVE, mutations in the Arabidopsis BRK1gene result in trichome and pavement cell morphology defects (and associated alterations in the F-actin cytoskeleton of expanding cells) similar to those caused by mutations disrupting the ARP2/3 complex itself. Analysis of double mutants provides genetic evidence that BRK1 functions in a pathway with the ARP2/3 complex. BRK1 is required for accumulation of SCAR1 protein in vivo,potentially explaining the apparently essential role of BRK1 in ARP2/3 complex function.

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IRREGULAR TRICHOME BRANCH1 in Arabidopsis Encodes a Plant Homolog of the Actin-Related Protein2/3 Complex Activator Scar/WAVE That Regulates Actin and Microtubule Organization

et al. 2005

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Activation of Arp2/3 complex-dependent actin polymerization by plant proteins distantly related to Scar/WAVE

Frank

Égile

Dyachok

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

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Julia Dyachok

SCAR Mediates Light-Induced Root Elongation inArabidopsisthrough Photoreceptors and Proteasomes

Untitled

BRICK1/HSPC300 functions with SCAR and the ARP2/3 complex to regulate epidermal cell shape in Arabidopsis

IRREGULAR TRICHOME BRANCH1 in Arabidopsis Encodes a Plant Homolog of the Actin-Related Protein2/3 Complex Activator Scar/WAVE That Regulates Actin and Microtubule Organization

Activation of Arp2/3 complex-dependent actin polymerization by plant proteins distantly related to Scar/WAVE

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