Kinetics of uptake and intracellular location of cobalt,manganese and zinc in the estuarine green alga Chlorella salina

Summary The uptake kinetics and intracellular location of cobalt (⁶⁰Co), manganese (⁵⁴Mn) and zinc (⁶⁵Zn) have been characterized in Chlorella salina. Uptake of all three metals was biphasic. The initial rapid phase was independent of light, temperature or the presence of metabolic inhibitors. This first phase of metabolism-independent biosorption was followed by a slower phase of uptake that was apparently dependent on metabolism and decreased by incubation in the dark, or in the light at low temperature or in the presence of metabolic inhibitors. This latter phase of metal accumulation followed Michaelis-Menten kinetics. However, when expressed in the form of a Lineweaver-Burk plot two distinct phases were apparent for each metal with the following K_m values (M); Co²⁺, 19 and 266; Mn²⁺, 2 and 760; Zn²⁺, 4 and 635. For all three metals cellular compartmentation analysis showed that large amounts of metal were bound to intracellular components and to the cell wall. There was also a higher concentration of each metal in the vacuole than in the cytosol, indicating transport of the metals across the tonoplast which may, in part, account for the multi-phasic uptake systems detected. The influence of competing divalent ions on the active uptake of Co²⁺ and Mn²⁺ was also studied. When the concentration of divalent ion was the same as that of Co²⁺ the uptake of the latter was not affected, indicating a specific system for the uptake of Co²⁺. However, Mn²⁺ uptake inhibited by Mg²⁺, Zn²⁺ and Cd²⁺, but not by Co²⁺, which indicated that Mn²⁺, Mg²⁺ and Cd²⁺ may enter the cells via a common system with different affinities for each metal.