Wj. Page et al., INHIBITION OF AZOTOBACTER-SALINESTRIS GROWTH BY ZINC UNDER IRON-LIMITED CONDITIONS, Canadian journal of microbiology, 42(7), 1996, pp. 655-661
The growth yield of Azotobacter salinestris is, a Na+-dependent, micro
aerophilic nitrogen-fixing bacterium, was inhibited more than 60% by 5
mu M Zn2+. This organism was much more sensitive to Zn2+ than the obl
igate aerobe Azotobacter vinelandii. Inhibition of A. salinestris was
most evident in iron-limited cells and exogenously added Fe2+ was more
effective than Fe3+ in preventing inhibition by Zn2+. While Zn2+ decr
eased the Fe content of the cells, decreased the activity of the solub
le cytoplasmic ferric reductase, and altered the intracellular Fe2+/Fe
3+ ratio, which in turn increased siderophore production, none of thes
e effects appeared severe enough to account for growth inhibition. How
ever, Zn2+ also was observed to be a powerful inhibitor of Fe-limited
whole cell respiration. As the cells became more Fe sufficient, this i
nhibition of respiration was decreased. Growth of A. salinestris is al
so was inhibited by Cd2+ > Zn2+ > Cu2+ > Cr2+ > Ni2+ > Co2+, and inhib
ition by these ions also was reversed by exogenous Fe2+ or Fe3+. Exami
nation of isolated cell membranes showed that the sensitivity of A. sa
linestris NADH oxidase activity to Zn2+ and other respiratory poisons
changed as the cells became Fe sufficient, but a similar change did no
t occur in A. vinelandii. It is proposed that Fe-limited A. salinestri
s cells present a sensitive target for Zn2+ inhibition, possibly a sul
fhydryl group in a terminal oxidase, but this target is lost or is of
decreased importance in Fe-sufficient cells.