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Characterization of a Bradyrhizobium japonicum ferrochelatase mutant and isolation of the hemH gene.

Department of Biochemistry, State University of New York, Buffalo 14214.

ABSTRACT

A Tn5-induced mutant of Bradyrhizobium japonicum, strain LORBF1, was isolated on the basis of the formation of fluorescent colonies, and stable derivatives were constructed in backgrounds of strains LO and I110. The stable mutant strains LOek4 and I110ek4 were strictly dependent upon the addition of exogenous hemin for growth in liquid culture and formed fluorescent colonies. The fluorescent compound was identified as protoporphyrin IX, the immediate precursor of protoheme. Cell extracts of strains LOek4 and I110ek4 were deficient in ferrochelatase activity, the enzyme which catalyzes the incorporation of ferrous iron into protoporphyrin IX to produce protoheme. Mutant strain I110ek4 could take up 55Fe from the growth medium, but, unlike the parent strain, no significant incorporation of radiolabel into heme was found. This observation shows that heme was not synthesized in mutant strain I110ek4 and that the heme found in those cells was derived from exogenous hemin in the growth medium. The putative protein encoded by the gene disrupted in strain LORBF1 and its derivatives was homologous to ferrochelatases from eukaryotic organisms. This homology, along with the described mutant phenotype, provides strong evidence that the disrupted gene is hemH, that which encodes ferrochelatase. Mutant strain I110ek4 incited nodules on soybean that did not fix nitrogen, contained few viable bacteria, and did not express leghemoglobin heme or apoprotein. The data show that B. japonicum ferrochelatase is essential for normal nodule development.

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