Interrelationships in trace-element metabolism in metal toxicities in a cobalt-resistant strain of Neurospora crassa

Abstract

A strain of Neurospora crassa was isolated by training the mould to grow on media containing high concentrations of Co²⁺. This strain, the Co^R strain, exhibited approximately tenfold the resistance of the parent strain to Co²⁺ and Ni²⁺ but not to Zn²⁺ or Cu²⁺. Co²⁺ toxicity in the Co^R strain was reversed by Mg²⁺ but not by Fe³⁺. Also, Co²⁺ did not affect iron metabolism in this strain. It is suggested that the mechanism of resistance in the Co^R strain involves an alteration in the pattern of iron metabolism such that the latter is no longer adversely affected by toxic concentrations of Co²⁺. The Co^R strain is genetically stable and is most probably a result of a resistance mutation in N. crassa induced by Co²⁺.