Cloning and mutagenesis of a cytochrome P-450 locus from Bradyrhizobium japonicum that is expressed anaerobically and symbiotically

Abstract

Cytochromes P-450, which in many organisms participate in the metabolism of a variety of endobiotic and genobiotic substances, are synthesized by symbiotic bacteroids of Bradyrhizobium japonicum. Polyclonal antibodies were raised against two cytochromes P-450 (CYP112 and CYP114) purified from bacteroids. A lambda gt11 expression clone of B. japonicum USDA 110 DNA that reacted with the anti-CYP112 antibody was obtained and was used to screen a library of USDA 110 genomic DNA in pLAFR1 for a clone of the P-450 locus. Forced expression of subclones of the P-450 locus in Escherichia coli produced polypeptides that reacted with either the anti-CYP112 antibody or the anti-CYP114 antibody; no cross-reactivity was evident. A Western blot (immunoblot) analysis showed that neither protein was present in free-living aerobically grown B. japonicum cells, but that both proteins were present in cells grown anaerobically, as well as in bacteroids. A mutant strain disrupted in the CYP112 locus produced neither CYP112 nor CYP114, indicating that the mutation was polar for CYP114. The mutant produced effective nodules on soybeans, even though the bacteroids contained no detectable P-450. This suggests that the cytochromes P-450 which we examined are not involved in an essential symbiotic function.