Zinc resistance in Neurospora crassa

Three non-identical Zn-resistant strains of Neurospora crassa have been isolated. ZNR-1 and ZNR-2 strains were obtained after repeated subculturing of wild type N. crassa on Zn-containing agar media (8mM and 16mM), while ZNR-3 was isolated after mutagenesis with diethyl sulfate, followed by selection on Zn agar plates (16mM). All three ZNR strains showed two- to threefold resistance to Zn in liquid media when compared with the wild type. However, growth measured by hyphal elongation clearly distinguished between the resistant strains (ZNR-3>ZNR-2>ZNR-1wild). The ZNR-2 and ZNR-3 strains were also cross-resistant to Co, while ZNR-2 alone was cross-resistant to Cu. Both Mg and Fe reversed the growth inhibition caused by Zn; Mg by suppression of Zn uptake and Fe without affecting the same. Assay of catalase, iron-binding siderophores and glutathione in Zn toxicity revealed significant increases in catalase and glutathione levels in the ZNR-2 strain when compared with the wild type. Kinetics of Zn uptake by preformed mycelia showed a rapid initial phase of uptake followed by a slower phase. The rates of Zn uptake measured after leaching surface-bound metal with EDTA revealed that ZNR strains have significantly reduced Zn uptake rates when compared with the wild type. The overall data suggest a partial transport block for Zn uptake as the major mechanism for resistance in ZNR strains. Genetic analysis of ZNR strains showed that in the ZNR-3 strain the znr locus maps close to the mating type locus (mt) of N. crassa LG I, while that of ZNR-1 and ZNR-2 is linked to LG IV associated with chromosomal aberration.