Physical and genetic map of the major nif gene cluster from Azotobacter vinelandii.

Determination of a 28,793-base-pair DNA sequence of a region from the Azotobacter vinelandii genome that includes and flanks the nitrogenase structural gene region was completed. This information was used to revise the previously proposed organization of the major nif cluster. The major nif cluster from A. vinelandii encodes 15 nif-specific genes whose products bear significant structural identity to the corresponding nif-specific gene products from Klebsiella pneumoniae. These genes include nifH, nifD, nifK, nifT, nifY, nifE, nifN, nifX, nifU, nifS, nifV, nifW, nifZ, nifM, and nifF. Although there are significant spatial differences, the identified A. vinelandii nif-specific genes have the same sequential arrangement as the corresponding nif-specific genes from K. pneumoniae. Twelve other potential genes whose expression could be subject to nif-specific regulation were also found interspersed among the identified nif-specific genes. These potential genes do not encode products that are structurally related to the identified nif-specific gene products. Eleven potential nif-specific promoters were identified within the major nif cluster, and nine of these are preceded by an appropriate upstream activator sequence. A + T-rich regions were identified between 8 of the 11 proposed nif promoter sequences and their upstream activator sequences. Site-directed deletion-and-insertion mutagenesis was used to establish a genetic map of the major nif cluster.     

Further analysis of nitrogen fixation (nif) genes in Azotobacter chroococcum: identification and expression in Klebsiella pneumoniae of nifS, nifV, nifM, and nifB genes and localization of nifE/N-, nifU-, nifA- and fixABC-like genes

The results presented extend previous investigations on the genetics of nitrogen fixation in Azotobacter chroococcum and indicate that nif- and fix-like DNA is located in at least five different regions of the genome. Region I contains functional copies of nifS,V and M, as well as nifH, D and K, all of which complemented mutants of Klebsiella pneumoniae. In addition, nifE- and/or nifN-like and nifU-like DNA is located in this region. The organization of the nif cluster in region I closely resembles that of K. pneumoniae. though spread over 22 kb as compared with 14 kb. Region II contains a functional nifB gene, which complemented a K. pneumoniae nifB mutant, and seems to be adjacent to ap nifA-like gene. Region III harbours nifH*, encoding a second nitrogenase Fe-protein. Region IV contains a reiteration of nifE- on and/or nifN-like sequences, and DNA homologous to Rhizobium meliloti fixABC is present in region V. The apparent complexity of nifDNA in A. chroococcum is probably related to the two systems for N2-fixation pr present in this organism.     

Cloning of nifHD from Nostoc commune UTEX 584 and of a flanking region homologous to part of the Azotobacter vinelandii nifU gene.

The heterocystous cyanobacterium Nostoc commune UTEX 584 contains two nifH-like sequences (nifH1 and nifH2) in addition to nifHD. A region of DNA 1 kilobase upstream from the 5' end of nifH showed considerable sequence similarity to part of the published nifU sequences of Azotobacter vinelandii and Klebsiella pneumoniae.     

DNA hybridization analysis of the nif region of two methylotrophs and molecular cloning of nif-specific DNA.

DNA isolated from two diazotrophic methylotrophs, the obligate methanotroph Methylosinus sp. strain 6 and the methanol autotroph Xanthobacter sp. H4-14, hybridized to DNA fragments encoding nitrogen fixation (nif) genes from Klebsiella pneumoniae. This interspecific nif homology was limited to DNA fragments encoding the nitrogenase structural proteins (nifH, nifD, and nifK) and specific methylotroph DNA sequences. The hybridization patterns obtained with the two methylotrophs were dissimilar, indicating that the nif region of methylotrophs is not physically conserved. By using the K. pneumoniae nif structural genes as a probe, a fragment of nif DNA from each methylotroph was cloned and characterized. The DNA fragment from Methylosinus sp. 6 encoded two polypeptides of 57,000 and 34,000 molecular weight.     

Molecular cloning of nif DNA from Azotobacter vinelandii.

Two clones which contained nif DNA were isolated from a clone bank of total EcoRI-digested Azotobacter vinelandii DNA. The clones carrying the recombinant plasmids were identified by use of the 32P-labeled 6.2-kilobase (kb) nif insert from pSA30 (which contains the Klebsiella pneumoniae nifK, nifD, and nifH genes) as a hybridization probe. Hybridization analysis with fragments derived from the nif insert of pSA30 showed that the 2.6-kb insert from one of the plasmids (pLB1) contains nifK whereas the 1.4-kb insert from the other plasmid (pLB3) contains nifD. Marker rescue tests using genetic transformation indicated that the 2.6-kb A. vinelandii nif fragment contains the wild-type alleles for the nif-6 and nif-38 mutations carried by Nif- strains UW6 and UW38. The 1.4-kb insert contains the wild-type allele for the nif-10 mutation carried by Nif- strain UW10.     

Organization of nitrogen fixation genes in a nonheterocystous, filamentous cyanobacterium

Abstract The nonheterocystous, filamentous cyanobacterium, Plectonema boryanum fixes nitrogen only under microaerophilic conditions. The organization of nitrogen fixation genes ( nifH, D, K ) in Plectonema was determined by using cloned fragments from the Anabaena nif genes as probes in Southern hybridizations. Regions of Plectonema DNA were homologous to Anabaena nifH, nifD , and nifK genes, and the resulting pattern of hybridization was used to construct a map of nifH, D, K DNA isolated from Plectonema cells grown under non-nitrogen fixing conditions (combined nitrogen and O₂ present). The nifH and nifD genes are on the same 3 kbp Hin dIII fragment, and nifK is on a 1 kbp Hin dIII fragment. All three nif fragments are adjacent to one another on a 12 kbp Cla I fragment.     

Nitrogenase promoter-lacZ fusion studies of essential nitrogen fixation genes in Bradyrhizobium japonicum I110.

DNA fragments containing either the nifD or nifH promoter and 5' structural gene sequences from Bradyrhizobium japonicum I110 were fused in frame to the lacZ gene. Stable integration of these nif promoter-lacZ fusions by homologous double reciprocal crossover into a symbiotically nonessential region of the B. japonicum chromosome provided an easy assay for the effects of potential nif regulatory mutants. The level of beta-galactosidase activity expressed from these two nif promoter-lacZ fusions was assayed in bacteroids of B. japonicum I110 wild type and Fix mutants generated by transposon Tn5 mutagenesis and identified in the accompanying paper. No nif-positive regulatory mutants were identified from among an array of Fix- mutants in which Tn5 was inserted 9 kilobase pairs upstream of the nifDK operon and within the 18-kilobase-pair region separating the nifDK and nifH operons. This result indicates that there are no genes in these regions involved in the regulation of nitrogenase structural gene expression. Interestingly, the level of beta-galactosidase activity expressed from the nifH promoter was twice that expressed from the nifD promoter, suggesting that the normal cellular level of the nifH gene product in bacteroids is in a 2:1 ratio with the nifD gene product instead of in the 1:1 stoichiometry of the nitrogenase enzyme complex.     

Structural features of multiple nifH-like sequences and very biased codon usage in nitrogenase genes of Clostridium pasteurianum.

The structural gene (nifH1) encoding the nitrogenase iron protein of Clostridium pasteurianum has been cloned and sequenced. It is located on a 4-kilobase EcoRI fragment (cloned into pBR325) that also contains a portion of nifD and another nifH-like sequence (nifH2). C. pasteurianum nifH1 encodes a polypeptide (273 amino acids) identical to that of the isolated iron protein, indicating that the smaller size of the C. pasteurianum iron protein does not result from posttranslational processing. The 5' flanking region of nifH1 or nifH2 does not contain the nif promoter sequences found in several gram-negative bacteria. Instead, a sequence resembling the Escherichia coli consensus promoter (TTGACA-N17-TATAAT) is present before C. pasteurianum nifH2, and a TATAAT sequence is present before C pasteurianum nifH1. Codon usage in nifH1, nifH2, and nifD (partial) is very biased. A preference for A or U in the third position of the codons is seen. nifH2 could encode a protein of 272 amino acid residues, which differs from the iron protein (nifH1 product) in 23 amino acid residues (8%). Another nifH-like sequence (nifH3) is located on a nonadjacent EcoRI fragment and has been partially sequenced. C. pasteurianum nifH2 and nifH3 may encode proteins having several amino acids that are conserved in other proteins but not in C. pasteurianum iron protein, suggesting a possible role for the multiple nifH-like sequences of C. pasteurianum in the evolution of nifH. Among the nine sequenced iron proteins, only the C. pasteurianum protein lacks a conserved lysine residue which is near the extended C terminus of the other iron proteins. The absence of this positive charge in the C. pasteurianum iron protein might affect the cross-reactivity of the protein in heterologous systems.     

Bacteria in the gular and paracloacal glands of the American alligator (Alligator mississippiensis; Reptila, Crocodilia)

Plasmid DNA of six strains of Rhizobium galegae was blotted onto nitrocellulose and hybridized with the 4.8 kb PstI fragment of pRme4lb, a megaplasmid carrying the nifH and the nifD genes of Rhizobium meliloti. DNA sequences homologous to the nif genes were localized on the megaplasmid or on the large plasmid bands of the R. galegae strains tested. In three of the strains analysed the nif genes were located on the megaplasmids. In the other three strains investigated, which also possessed megaplasmids, the nif genes were located on the smaller plasmids.     

A DNA fragment hybridizing to a nif probe in Rhodobacter capsulatus is homologous to a 16S rRNA gene

We have sequenced the Rhodobacter capsulatus nifH and nifD genes. The nifH gene, which codes for the dinitrogenase reductase protein, is 894 bp long and codes for a polypeptide of predicted Mr 32,412. The nifD gene, which codes for the alpha subunit of dinitrogenase, is 1,500 bp long and codes for a protein of predicted Mr 56,113. A 776-bp BglII-XhoI fragment containing only nif sequences was used as a hybridization probe against R. capsulatus genomic DNA. Two HindIII fragments, 11.8 kb and 4.7 kb in length, hybridize to this probe. Both fragments have been cloned from a cosmid library. The 11.8-kb fragment contains the nifH, D and K genes, as previously demonstrated (Scolnik and Haselkorn, 1984). In this paper we present evidence that suggests that the 4.7-kb HindIII fragment contains a gene coding for 16S rRNA, and that although homology between nif and this fragment can be observed in filter hybridization experiments, a second copy of the nif structural genes seems not to be present in this region.     

Nucleotide sequence and mutational analysis of the structural genes (anfHDGK) for the second alternative nitrogenase from Azotobacter vinelandii.

The nucleotide sequence of a region of the Azotobacter vinelandii genome exhibiting sequence similarity to nifH has been determined. The order of open reading frames within this 6.1-kilobase-pair region was found to be anfH (alternative nitrogen fixation, nifH-like gene), anfD (nifD-like gene), anfG (potentially encoding a protein similar to the product of vnfG from Azotobacter chroococcum), anfK (nifK-like gene), followed by two additional open reading frames. The 5'-flanking region of anfH contains a nif promoter similar to that found in the A. vinelandii nifHDK gene cluster. The presumed products of anfH, anfD, and anfK are similar in predicted Mr and pI to the previously described subunits of nitrogenase 3. Deletion plus insertion mutations introduced into the anfHDGK region of wild-type strain A. vinelandii CA resulted in mutant strains that were unable to grow in Mo-deficient, N-free medium but grew in the presence of 1 microM Na2MoO4 or V2O5. Introduction of the same mutations into the nifHDK deletion strain CA11 resulted in strains that grew under diazotrophic conditions only in the presence of vanadium. The lack of nitrogenase 3 subunits in these mutant strains was demonstrated through two-dimensional gel analysis of protein extracts from cells derepressed for nitrogenase under Mo and V deficiency. These results indicate that anfH, anfD, and anfK encode structural proteins for nitrogenase 3.     

Nucleotide sequence of the gene encoding the nitrogenase iron protein of Thiobacillus ferrooxidans.

The DNA sequence was determined for the cloned Thiobacillus ferrooxidans nifH and part of the nifD genes. A putative T. ferrooxidans nifH promoter was identified whose sequences showed perfect consensus with those of the Klebsiella pneumoniae nif promoter. Two putative consensus upstream activator sequences were also identified. The amino acid sequence was deduced from the DNA sequence. In a comparison of nifH DNA sequences from T. ferrooxidans and eight other nitrogen-fixing microbes, a Rhizobium sp. isolated from Parasponia andersonii showed the greatest homology (74%) and Clostridium pasteurianum (nifH 1) showed the least homology (54%). In a comparison of the amino acid sequences of the Fe proteins, the Rhizobium sp. and Rhizobium japonicum showed the greatest homology (both 86%) and C. pasteurianum (nifH 1 gene product) demonstrated the least homology (56%) to the T. ferrooxidans Fe protein.     

Genetic and structural analysis of the Rhizobium meliloti fixA, fixB, fixC, and fixX genes.

The fixA, fixB, fixC, and fixX genes of Rhizobium meliloti 1021 constitute an operon and are required for nitrogen fixation in alfalfa nodules. DNA homologous to the R. meliloti fixABC genes is present in all other Rhizobium and Bradyrhizobium species examined, but fixABC-homologous sequences were found in only one free-living diazotroph, Azotobacter vinelandii. To determine whether the fixABCX genes share sequence homology with any of the 17 Klebsiella pneumoniae nif genes, we determined the entire nucleotide sequence of the fixA, fixB, fixC, and fixX genes and defined four open reading frames that code for polypeptides of molecular weights 31,146, 37,786, 47,288, and 10,937, respectively. Neither DNA nor amino acid sequence homology to the R. meliloti fixA, -B, -C, and -X genes was found in the K. pneumoniae nif operon. The fixX gene contains a cluster of cysteine residues characteristic of ferredoxins and is highly homologous to an Azotobacter ferredoxin which has been shown to donate electrons to nitrogenase. The fixABC operon contains a promoter region that is highly homologous to other nifA-activated promoters. We also found a duplication of the 5' end of the fixABCX operon; a 250-bp region located 520 bp upstream of the fixABCX promoter bears more than 65% homology to the 5' end of the transcribed region, including the first 32 codons of fixA.     

Complete nucleotide sequence of the Azotobacter vinelandii nitrogenase structural gene cluster

DNA fragments coding for the structural genes for Azotobacter vinelandii nitrogenase have been isolated and sequenced. These genes, nifH, nifD and nifK, code for the iron (Fe) protein and the alpha and beta subunits of the molybdenum-iron (MoFe) protein, respectively. They are arranged in the order: promoter:nifH:nifD:nifK. There are 129 nucleotides separating nifH and nifD and 101 nucleotides separating nifD and nifK. The amino acid (aa) sequences deduced from the nucleotide sequences are discussed in relation to the prosthetic group-binding regions of the nifHDK-encoded polypeptides.     

Isolation of nifH and part of nifD by modified capture polymerase chain reaction from a natural population of the marine cyanobacterium Trichodesmium sp.

Abstract A modified capture polymerase chain reaction (CPCR) technique was used to isolate the entire sequence of the nifH gene and its flanking regions from a natural population of Trichodesmium sp. A set of specific CPCR primers derived from a known 72-bp DNA segment of the nifH sequence permitted isolation of both the upstream and the downstream region of Trichodesmium sp. nifH . The 882-bp nifH gene presented here is the first full-length gene isolated from Trichodesmium sp. A sequence similar to a nif -like promoter was found in front of nifH . The nifH open reading frame of Trichodesmium sp. encoded 294 amino acids. Comparative analysis of the Trichodesmium sp. NifH sequence revealed strong similarity with 23 known NifH proteins. Amino acids postulated to be involved in binding of the 4Fe:4S cluster and those subjected to ADP-ribosylation were present. An open reading frame for the nifD gene was identified 189 bp downstream of nifH . A sequence similar to the consensus of the nif -like promoter was also found in front of nifD .