Organization of the cytoskeleton in the coenocytic algaVaucheria longicaulis var.macounii: an experimental study

Abstract

The organization of the cytoskeleton of vegetative filaments ofVaucheria longicaulis Hoppaugh var.macounii Blum is investigated by fluorescence microscopy using monoclonal anti β-tubulin antibodies and fluorescein (FITC)-labelled phalloidin. Confocal laser scanning microscopy observations give further information on the distribution of the cytoskeletal elements. Phalloidin labelling reveals F-actin bundles in the cortical cytoplasm of both fixed and unfixed vegetative filaments of this alga. In addition a more diffuse fluorescent component, seen at higher magnification to be made up of thinner F-actin bundles, can also be detected in unfixed cells. The distribution of the F-actin bundles resemble that of filamentous structures observed with differential interference contrast (DIC) microscopy in living cells. These structures seem to correspond to the “microtubule associated reticulum” (MAR) described in literature and overall the evidence suggests that actin and MAR elements are co-distributed. F-actin bundles are always found in association with focal masses (foci) of phalloidin-positive material. Foci are also observed by DIC microscopy associated with the cytoplasmic filamentous structures in living cells. Depolymerization of F-actin with cytochalasin D and the subsequent repolymerization that occurs on transfer ofVaucheria vegetative filaments to cytochalasin-free medium suggest that these foci are involved in the organization of the F-actin array. Immunofluorescence for β-tubulin reveals microtubule bundles that are shorter in length and straighter in configuration than microfilament bundles. Microtubule bundles are associated with spot-like focal structures that, in many instances, show a close relationship with respect to nuclei. Oryzalin and cold temperature cause the depolymerization of the microtubule bundles and suggest, in conjunction with repolymerization studies, that these fluorescent spots associated with the ends of the microtubule bundles are involved in their organization; hence, they represent microtubule organizing centres or MTOCs. The importance of both microfilament and microtubule bundle focal regions is discussed with respect to the apical growth exhibited by the vegetative filaments of this alga.