The ROP2 GTPase Controls the Formation of Cortical Fine F-Actin and the Early Phase of Directional Cell Expansion during Arabidopsis Organogenesis

doi:10.1105/tpc.001537

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The ROP2 GTPase Controls the Formation of Cortical Fine F-Actin and the Early Phase of Directional Cell Expansion during Arabidopsis Organogenesis

Ying Fu, Hai Li¹ and Zhenbiao Yang²

Department of Botany and Plant Sciences and Center for Plant Cell Biology, University of California, Riverside, California 92521

² To whom correspondence should be addressed. E-mail zhenbiao.yang{at}ucr.edu; fax 909-787-4437

Polar cell expansion in differentiating tissues is criticalfor the development and morphogenesis of plant organs and ismodulated by hormonal and developmental signals, yet littleis known about signaling in this fundamental process in plants.In contrast to tip-growing cells, such as pollen tubes and roothairs, cells in developing tissues are thought to expand bydiffuse growth. In this study, we provide evidence that thesecells expand in two phases with distinct mechanisms. In theearly phase, cell expansion can occur in both longitudinal andradial or lateral directions and is mediated by Rop GTPase signaling,a mechanism known to control tip growth. The expression of adominant-negative mutant for ROP2 (DN-rop2) inhibited polarcell expansion, whereas the expression of a constitutively activemutant (CA-rop2) caused isotropic expansion in the early phase.In the late phase, expansion occurs only in the longitudinaldirection and is not affected by DN-rop2 or CA-rop2 expression.The transition from the early to the late phase coincides withthe reorientation of cortical microtubules from random to transversearrangements. Thus, cell expansion in the late phase is consistentwith polar diffuse growth, in which polarity probably is definedby transverse cortical microtubules. We show that the directionof cell expansion in the early phase is associated with thelocalization of diffuse fine cortical F-actin in leaf epidermalcells. DN-rop2 expression specifically inhibited the formationof this F-actin, but not actin cables, whereas CA-rop2 expressioncaused delocalized distribution of this fine F-actin throughoutthe cell cortex. Furthermore, green fluorescent protein–ROP2was localized preferentially to the cortical region of the cell,where expansion apparently occurs. These observations suggestthat ROP2 control of the polar expansion of cells within tissuesis analogous to the Rop control of tip growth and of tip-localizedF-actin in pollen tubes and root hairs and that the tip growthmechanism also may modulate polar cell expansion in differentiatingtissues.

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