Tn5-induced cytochrome mutants of Bradyrhizobium japonicum: effects of the mutations on cells grown symbiotically and in culture

Abstract

Two Bradyrhizobium japonicum cytochrome mutants were obtained by Tn5 mutagenesis of strain LO and were characterized in free-living cultures and in symbiosis in soybean root nodules. One mutant strain, LO501, expressed no cytochrome aa3 in culture; it had wild-type levels of succinate oxidase activity but could not oxidize NADH or N,N,N',N'-tetramethyl-p-phenylenediamine (TMPD). The cytochrome content of LO501 root nodule bacteroids was nearly identical to that of the wild type, but the mutant expressed over fourfold more bacteroid cytochrome c oxidase activity than was found in strain LO. The Tn5 insertion of the second mutant, LO505, had a pleiotropic effect; this strain was missing cytochromes c and aa3 in culture and had a diminished amount of cytochrome b as well. The oxidations of TMPD, NADH, and succinate by cultured LO505 cells were very similar to those by the cytochrome aa3 mutant LO501, supporting the conclusion that cytochromes c and aa3 are part of the same branch of the electron transport system. Nodules formed from the symbiosis of strain LO505 with soybean contained no detectable amount of leghemoglobin and had no N2 fixation activity. LO505 bacteroids were cytochrome deficient but contained nearly wild-type levels of bacteroid cytochrome c oxidase activity. The absence of leghemoglobin and the diminished bacterial cytochrome content in nodules from strain LO505 suggest that this mutant may be deficient in some aspect of heme biosynthesis.