Abstract
The role of Ca2+ in zygote polarization in fucoid algae (Fucus, Ascophyllum, and Pelvetia species) zygote polarization is controversial. Using a local source of Fucus serratus, we established that zygotes form a polar axis relative to unilateral light (photopolarization) between 8 and 14 h after fertilization (AF), and become committed to this polarity at approximately 15 to 18 h AF. We investigated the role of Ca2+, calmodulin, and actin during photopolarization by simultaneously exposing F. serratus zygotes to polarizing light and various inhibitors. Neither removal of Ca2+ from the culture medium or high concentrations of EGTA and LaCl3 had any effect on photopolarization. Bepridil, 3,4,5-trimethoxybenzoic acid 8-(diethylamino) octyl ester, nifedipine, and verapamil, all of which block intracellular Ca2 release, reduced photopolarization from 75 to 30%. The calmodulin antagonists N-(6-aminohexyl)-5-chloro-L-naphthalenesulfonamide and trifluoperazine inhibited photopolarization in all zygotes, whereas N-(6-aminohexyl)-L-naphthalenesulfonamide had no effect. Cytochalasin B, cytochalasin D, and latrunculin B, all of which inhibit actin polymerization, had no effect on photopolarization, but arrested polar axis fixation. The role of calmodulin during polarization was investigated further. Calmodulin mRNA from the closely related brown alga Macrocystis pyrifera was cloned and the protein was expressed in bacteria. Photopolarization was enhanced following microinjections of this recombinant calmodulin into developing zygotes. Confocal imaging of fluorescein isothiocyanate-labeled recombinant calmodulin in photopolarized zygotes showed a homogenous signal distribution at 13 h AF, which localized to the presumptive rhizoid site at 15 h AF.
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