Abstract
ABSTRACTThe endomembrane system of the chlamydomonad flagellate, Gloeomonas kupfferi Skuja, consists of a complex network of endoplasmic reticulum, Golgi bodies, and various vacuoles. One of the more distinct vacuolar components is the contractile vacuole (CV) complex, which consists of two anterior contractile vacuoles that expand/contract approximately every 30 s. In this study, experimental cytochemical labeling was performed to help elucidate possible endocytic/membrane recycling mechanisms in Gloeomonas and the possible role of the contractile vacuole in this process. When incubated with 0.5 mg · mL−1 cationic ferritin for short periods of time (2–60 min), labeling follows this route: inner membrane of CV, globular deposits in the CV and associated vesicles, and ultimately the terminal trans face cisternae of the Golgi apparatus (GA). Similar incubations with Lucifer yellow and concanavalin A—gold conjugates support distinct uptake of exogenous ligands by the CV and associated vesicles. Our results suggest that the contractile vacuole may be a site of endocytosis and that the trans GA loci may be a key site of membrane recycling.
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