The Bradyrhizobium japonicum aconitase gene (acnA) is important for free-living growth but not for an effective root nodule symbiosis

Abstract

The Bradyrhizobium japonicum acnA gene encoding the tricarboxylic acid cycle enzyme aconitase was cloned and characterized. The gene was mapped immediately upstream of the cytochrome c biogenesis gene cycV and found to be transcribed in the opposite direction. The nucleotide sequence of acnA was determined; the derived amino acid sequence shared a significant similarity with bacterial aconitases and with the human iron-responsive-element-binding protein. The level of expression of the acnA gene under aerobic growth conditions was 10-fold higher than that under anaerobic conditions. The start of transcription was mapped by primer extension experiments, and the putative promoter was found to contain a typical -10 but no -35 consensus sequence for a sigma70-type RNA polymerase. A 5' deletion removing all but 19 nucleotides upstream of the start of transcription completely abolished gene expression. An acnA mutant was constructed by gene disruption, and the mutant phenotype was characterized. Growth of the mutant was severely affected and could not be corrected by the addition of glutamate as a supplement. Although aconitase activity in free-living cells was decreased by more than 70%, the ability of the mutant to establish an effective root nodule symbiosis with soybean plants was not affected. This suggested either the existence of a second aconitase or the compensation for the mutant defect by symbiosis-specific metabolites synthesized in the root nodules.