Nucleotide sequence and genetic analysis of the nifB-nifQ region from Azotobacter vinelandii.

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J Bacteriol. 1988 April; 170(4): 1475-1487

research-article

Nucleotide sequence and genetic analysis of the nifB-nifQ region from Azotobacter vinelandii.

R D Joerger and P E Bishop

Department of Microbiology, North Carolina State University, Raleigh 27695-7615.

ABSTRACT

A 3.8-kilobase-pair EcoRI fragment which corrects the mutationscarried by the NifB- Azotobacter vinelandii strains CA30 andUW45 was cloned, and its nucleotide sequence was determined.Four complete open reading frames (ORFs) and two partial ORFswere found. The translation product of the first partial ORFis the carboxy-terminal end of a protein homologous to the nifAgene product from Klebsiella pneumoniae. A 285-base-pair sequencecontaining a potential nif promoter and nif regulatory sitesseparates this nifA gene from the first complete ORF which encodesa protein homologous to nifB gene products from K. pneumoniaeand Rhizobium species. The Tn5 insertion in strain CA30 andthe nif-45 mutation of strain UW45 are located within this nifBgene. The ORF downstream from nifB predicts an amino acid sequencewith a cysteine residue pattern that is characteristic of ferredoxins.No similarities were found between the translation product ofthe third complete ORF and those of nif genes from other organisms.At the carboxy-terminal end of the predicted translation productof the fourth complete ORF, 30 of 60 amino acid residues wereidentical with the sequence of the nifQ gene product from K.pneumoniae. The partial ORF located at the end of the fragmentencodes the N-terminal part of a potential protein with an unknownfunction. Northern (RNA) blot analysis indicated that transcriptsfrom the region containing the four complete ORFs were NH4+repressible and that the transcription products were identicalin cells derepressed under conditions of Mo sufficiency or Modeficiency or in the presence of vanadium. In contrast to theNifB- strain CA30, which is Nif- under all conditions, mutantsthat carry mutations affecting the C-terminal end of nifB orgenes located immediately downstream from nifB, grew under allN2-fixing conditions. However, in the presence of Mo, most ofthe strains required 1,000 times the amount of molybdate thatis sufficient for maximal growth of the wild-type strain CAunder N2-fixing conditions. Growth data from strain CA37, whichcarries a Kanr insertion in nifQ, indicate that nifQ in A. vinelandiiis not required for N2 fixation in the presence of V2O5 or underMo-deficient conditions. Growth studies and acetylene reductionassays performed on two nifEN deletion strains showed that nifEand nifN are required for N2 fixation under Mo sufficiency,as previously observed (K. E. Brigle, M. C. Weiss, W. E. Newton,and D. R. Dean, J. Bacteriol. 169:1547-1553, 1987), but notunder conditions of Mo deficiency or in the presence of 50 nMV2O5.

J Bacteriol. 1988 April; 170(4): 1475-1487

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