Mechanism of Inhibition of Cytoplasmic Streaming by Auxin in Root Hair Cells of Hydrocharis

It has been reported that auxin accelerates cytoplasmic streamingat low concentrations and inhibits it at high concentrationsin several plant cells. In the present study, the mechanismof inhibition of cytoplasmic streaming by naphthalene aceticacid (NAA) at high concentrations was analyzed in root haircells of Hydrocharis. Because the effective concentration ofNAA inhibiting cytoplasmic streaming decreased when the extracellularpH (pHo) was lowered, it was hypothesized that cytoplasmic streamingis inhibited by NAA via acidification of the cytoplasm. Thispossibility was supported by the fact that acetic acid, pro-pionicacid and decanoic acid also inhibited cytoplasmic streamingat low pHo. Acidification of the cytoplasm disturbed the orientationof actin filaments (AFs) and disrupted cortical microtubules(MTs). The effects of NAA were reversible; both cytoplasmicstreaming and organization of the cytoskeleton were recoveredupon removal of NAA. During the recovery, tracks of cytoplasmicstreaming in the subcortical region temporarily showed a helicalpattern along the longitudinal direction of the cell. Fluorescencestaining of cytoskeletons revealed that both AFs and MTs alignedobliquely to the longitudinal axis of the cell. The helicalstreaming returned to the original reverse fountain streamingafter several hours. The simultaneous changes in the organizationof both cytoskeletons supported our previous report that theorganization of AFs is regulated by MTs. ¹Author for correspondence. Fax, 81-7915-8-0175. e-mail: tomy-@sci.himeji-tech.ac.jp