Abstract
Zoospores of the mosquito pathogenic fungusLagenidium giganteum preferentially attach to and encyst on the cuticular surface of the immature stages of many species of mosquitoes as the initial step in the infection process. Recognition by zoospores of specific chemical or physical signals on the cuticular surface triggers attachment. A number of compounds likely to be present on the surface of mosquito larvae were evaluated for efficacy in eliciting zoospore encystment. Free amino acids and oligomers, a number of phenolic and polyphenolic compounds and most carbohydrates did not induce encystment at concentrations less than 500 μg/ml. Colloidal chitin and chitin films were also ineffective as was O-carboxy-methylchitin; however, glycol chitin and glycol chitosan induced rapid encystment at concentrations at or below 1 μg/ml. Zoospores also attached to and encysted in great numbers on fibers of oxycellulose, but not on cellulose. Concanavalin A was the only lectin which induced encystment at concentrations less than 10 μg/ml, which suggests that a glycoprotein with terminal mannose and/or glucose residues is involved in encystment. A number of phenols were metabolized by peroxidase on the zoospore surface. Addition of hydrogen peroxide to zoospore suspensions reduced the time needed to induce zoospore encystment by some phenols; however, there was no consistent relationship between the presence or absence of this synergistic effect and the ability ofL. giganteum peroxidase to metabolize a given substrate. The sterol-binding compound amphotericin B induced immediate encystment at 3.5 μg/ml, suggesting that sterols, which are required for the induction of zoosporogenesis, were present on the zoospore membrane.
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call