Nitrate reductase activity in heme-deficient mutants of Staphylococcus aureus

Abstract

Mutants H-14 and H-18 of Staphylococcus aureus require hemin for growth on glycerol and other nonfermentable substrates. H-14 also responds to delta-aminolevulinate. Heme-deficient cells grown in the presence of nitrate do not have lactate-nitrate reductase activity but gain this activity when incubated with hemin in buffer and glucose. Lactate-nitrate reductase activity is also restored to the membrane fraction from such cells by incubation with hemin and dithiothreitol; addition of adenosine 5'-triphosphate has no effect upon the restoration. Cells grown with nitrate in the absence of hemin have two to five times more reduced benzyl viologen-nitrate reductase activity than do those grown with hemin. The activity increases throughout the growth period in the absence of hemin, but with hemin present enzyme formation ceases before the end of growth. There was no evidence of enzyme destruction. The distribution of nitrate reductase activity between membrane and cytoplasm was similar in cells grown with and without hemin; 70 to 90% was in the cytoplasm. It is concluded that heme-deficient staphylococci form apo-cytochrome b, which readily combines in vitro with its prosthetic group to restore normal function. The avaliability of the heme prosthetic group influences the formation of nitrate reductase.