Genetic regulation of nitrogen fixation in rhizobia.

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Microbiol Mol Biol Rev. 1994 September; 58(3): 352-386

Genetic regulation of nitrogen fixation in rhizobia.

H M Fischer

Mikrobiologisches Institut, Eidgenössische Technische Hochschule, ETH-Zentrum, Zürich, Switzerland.

SUMMARY

This review presents a comparison between the complex geneticregulatory networks that control nitrogen fixation in threerepresentative rhizobial species, Rhizobium meliloti, Bradyrhizobiumjaponicum, and Azorhizobium caulinodans. Transcription of nitrogenfixation genes (nif and fix genes) in these bacteria is inducedprimarily by low-oxygen conditions. Low-oxygen sensing and transmissionof this signal to the level of nif and fix gene expression involveat least five regulatory proteins, FixL, FixJ, FixK, NifA, andRpoN (sigma 54). The characteristic features of these proteinsand their functions within species-specific regulatory pathwaysare described. Oxygen interferes with the activities of twotranscriptional activators, FixJ and NifA. FixJ activity ismodulated via phosphorylation-dephosphorylation by the cognatesensor hemoprotein FixL. In addition to the oxygen responsivenessof the NifA protein, synthesis of NifA is oxygen regulated atthe level of transcription. This type of control includes FixLJin R. meliloti and FixLJ-FixK in A. caulinodans or is broughtabout by autoregulation in B. japonicum. NifA, in concert withsigma 54 RNA polymerase, activates transcription from -24/-12-typepromoters associated with nif and fix genes and additional genesthat are not directly involved in nitrogen fixation. The FixKproteins constitute a subgroup of the Crp-Fnr family of bacterialregulators. Although the involvement of FixLJ and FixK in nifAregulation is remarkably different in the three rhizobial speciesdiscussed here, they constitute a regulatory cascade that uniformlycontrols the expression of genes (fixNOQP) encoding a distinctcytochrome oxidase complex probably required for bacterial respirationunder low-oxygen conditions. In B. japonicum, the FixLJ-FixKcascade also controls genes for nitrate respiration and forone of two sigma 54 proteins.

Microbiol Mol Biol Rev. 1994 September; 58(3): 352-386

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