Accumulation and Storage of Zn2+ by Candida utilis

Abstract

Starved cells of C. utilis accumulated Zn2+ by 2 different processes. The first was a rapid, energy and temperature independent system that probably represented binding to the cell surface. The cells also possessed an energy, pH, and temperature dependent system that was capable of accumulating much greater quantities of the cation than the binding process. The energy dependent system was inhibited by KCN, Na2HAsO4, m-chlorophenyl carbonylcyanide hydrazone, N-ethylmaleimide, EDTA and diethylenetriaminepenta-acetic acid. The system was specific inasmuch as Ca2+, Cr3+, Mn2+, Co2+ or Cu2+ did not compete with, inhibit or enhance the process. Zn2+ uptake was inhibited by Cd2+. The system exhibited saturation kinetics with a half-saturation value of 1.3 .mu.M and a maximum rate of 0.21 (nmol Zn2+) min-1 (mg dry wt-1) at 30.degree. C. Zn2+ uptake required intact membranes since only the binding process was observed in the presence of nystatin, toluene or sodium dodecyl sulfate. Cells did not exchange recently accumulated 65Zn following the addition of a large excess of non-radioactive Zn2+. Similarly, cells pre-loaded with 65Zn did not lose the cation during starvation, and efflux did not occur when glucose and exogenous Zn2+ were supplied after the starvation period. Efflux was only observed after the addition of toluene or nystatin, or when cells were heated to 100.degree. C. Cells fed a large quantity of Zn2+ contained a protein fraction resembling animal cell metallothionein. In batch culture, cells of C. utilis accumulated Zn2+ only during the lag phase and the latter half of the exponential-growth phase.