Deletion mutants of nitrogen fixation in Klebsiella pneumoniae: Mapping of a cluster of nif genes essential for nitrogenase activity

Deletions of the nitrogen fixation (nif) region of the Klebsiella genome were isolated by selecting for resistance to virulent phages whose resistance loci are adjacent to nif. The extent of the various deletions was monitored by assaying several different enzymes or gene products coded for by this segment of DNA. Three classes of deletion mutants were detected: (1) gluconate-6-phosphate dehydrogenase minus (gnd^?), histidine minus but histidinol dehydrogenase plus (his^?, his D⁺), nitrogenase plus (nif⁺), shikimate utilization plus (shu⁺); (2) gnd^?, his D^?, nif^?, shu⁺; (3) gnd^?, his D^?, nif^?, shu^?. From these studies we conclude that the cluster of nif genes essential for nitrogenase activity is located on the genetic linkage map of Klebsiella between his and shu; the gene order in this region in thus phage-resistance locus (rfb?), gnd, his operon, nif, shu. Genetic analysis substantiates the finding that the nif cluster is located proximally to the operator end of the his operon.     

Restriction mapping of deletions in the nif region of the Klebsiella pneumoniae chromosome

Summary Chromosomal DNA restriction fragments carrying the nitrogen fixation (nif) and his genes of Klebsiella pneumoniae were identified in hybridization experiments using a plasmid derived from pRD1 as a radioactive probe. Restriction mapping of 26 genetically characterized chromosomal nif deletions provided a map showing the physical location of nif genes along the chromosome.     

Histidine sensitive variant of the blue-green alga Nostoc muscorum: response to corepressors of histidine biosynthesis.

Summary A model has been proposed to account for growth inhibition by L-histidine in a variant strain of Nostoc muscorum. This strain has been characterized for its response to 3-amino-1,2,4-triazole and 1,2,4-triazole-3-alanine known to act as false corepressors of the histidine biosynthesis genes. The histidine sensitive strain retained its sensitivity to triazole alanine while the inhibitory effects of aminotriazole were much reduced indicating a change in regulation of his genes. The probable interactions between nif and his genes in cyanobacteria (blue-green algae) have been discussed.     

Expression ofKlebsiella pneumoniae nif genes inProteus mirabilis

Self-transmissible plasmids carryinghis andnif genes fromKlebsiella pneumoniae have been introduced into threehis mutants ofProteus mirabilis: strains 5006-1, WR19 and WR20. Expression ofhis by the transconjugants was unequivocal, if slightly temperature-sensitive, but none was Nif⁺ when tested for acetylene reduction in anaerobic glucose medium using inocula from rich or glucose-minimal aerobic agar cultures. Succinate or pyruvate in place of glucose, low glucose, lower temperature or elevated Na₂MoO₄ did not allownif expression and no nitrogenase MoFe-protein peptide was detected immunologically after exposure to conditions in which diazotrophic enterobacteria, normal or genetically constructed, derepressnif.One strain,P. mirabilis WR19, carrying thehis nif Km^r plasmid pMF250 was examined in detail. Thenif activator genenifA was introduced on the plasmid pCK1. Such derivatives remained Nif^- when tested, after aerobic growth on rich agar media, with normal or low glucose, with succinate or with elevated Mo. However, pre-conditioning by aerobic growth on glucose-minimal agar led to subsequent anaerobic expression ofnif in glucose medium from pMF250 in WR19 carrying pCK1. NH ₄ ⁺ or proline could serve as N-source in the glucose-minimal agar. Maximum activity was about 5% of that ofK. pneumoniae in our assay conditions. Material cross-reacting with anti-serum to the nitrogenase MoFe protein was formed. Nitrogenase activity was not switched off by NH ₄ ⁺ .P. mirabilis WR19 (pCK1) showed NH ₄ ⁺ -constitutive temperature-sensitive kanamycin resistance (anif-related phenotype of this plasmid) in aerobic glucose minimal medium. Expression ofnif inP. mirabilis WR19 (pCK1, pMF250) was NH ₄ ⁺ -repressible despite the constitutivenifA character of pCK1 and introduction of thentrA ⁺ plasmid pMM17 did not alter this phenotype. However, pCK1 did not give rise to NH ₄ ⁺ -constitutive diazotrophy in the wild-typeK. pneumoniae M5al. A construct of WR19 carrying pMF250 and constitutiventrC plasmid (pMD45) remained Nif^- even after pre-growth on glucose-minimal media.We conclude (a) thatP. mirabilis forms a gene product functionally equivalent to that ofntrA inK. pneumoniae, (b) that it forms no functional equivalent of thentrC product in our growth conditions. The need for pre-conditioning on aerobic glucose media remains perplexing.Non-common abbreviation NFDM Nitrogen-free-Davis-Mingioli medium     

A slow-growing, ribosomal mutant of Salmonella typhimurium

Summary The mechanisms of S. typhimurium reversion from histidine dependence (his ^–) to histidine independence (his ⁺) were studied. Genetic and phenotypic characteristics of revertants induced by nitrosoguanidine were analyzed. Among them a class of slow-growing revertants was selected. It is found that all of these slow-growing revertants carry the original UGA nonsense mutation within the histidine operon. They are streptomycin sensitive and no specific suppressor(s) for UGA nonsense codon are demonstrable. The suppression takes place in the absence of conventional nonsense UGA suppressor(s). It is seemingly due to a ribosomal mutation which in turn is likely to produce ambiguity in the process of translation and which suppresses the UGA nonsense codon. The rate of both in vivo and in vitro protein synthesis is significantly reduced. The fact that streptomycin, at sublethal doses, reduced the growth rate of these mutants, probably because of the simultaneous burden of two ambiguity factors, suggests that the mutants described may be regarded as a kind of ram (ribosomal ambiguity) mutants with a his ^– sup ^–genotype. Their capacity to translate poly-U is reduced and in that respect they differ from ram mutants of Escherichia coli.     

Expression of klebsiella his and nif genes in serratia marcescens,Erwinia herbicola and Proteus mirabilis

Plasmid pRD1, an R plasmid of the P incompatibility group which carries his and nif genes from Klebsiella pneumoniae in addition to drug resistance markers derived from RP4, was transferred to His^- mutants of Serratia marcescens, Erwinia herbicola and Proteus mirabilis. His⁺ transconjugants were obtained at low but different frequencies according to recipient genus. Transconjugants all acquired the drug resistance, and were Nif⁺ in S. marcescens and E. herbicola, having acetylene-reducing activities of the same order of magnitude as the parent K. pneumoniae and fixing ¹⁵N₂. No evidence for nif expression in P. mirabilis transconjugants was obtained though the nif genes were present.     

An operon for histidine biosynthesis in Streptomyces coelicolor

Summary In order to demonstrate that a cluster of five his genes (eight cistrons) on the circular chromosome of S. coelicolor is an operon, a constitutive mutant was characterized biochemically, and some aspects of enzyme repression were studied.The specific activities of three enzymes, two of which coded by genes of the his cluster and one specified by a his gene located far from the his cluster, were tested under different repression and derepression conditions and at various times of grwoth in a constitutive his mutant, in two leaky his mutants and in the wild type strains of S. coelicolor.The results of such investigations demonstrate that the constitutive mutant is derepressed exclusively for the synthesis of enzymes coded by genes of the his cluster; moreover only the synthesis of such enzymes takes place in a strictly coordinate way, suggesting that the his cluster behaves as a single unit of expression and regulation.     

Spontaneous and induced mutability or frameshift strains of Salmonella typhimurium carrying uvrB and polA mutations

Three strains Salmonella typhimurium carrying frameshift mutations affecting the histidine genes (hisC3076, hisD3052 and hisC207) showed increased sensitivity to mutagenesis by ICR-191 (as judged by measuring back mutation to prototrophy), if they were made deficient in excision repair by deleting the uvrB gene. One frameshift strain, hisC3076, also showed increased sensitivity to mutagenesis by ICR-191 when it carried either of two different polA alleles, whereas the hidD305 and hisD207 frameshifts reduced sensitivity to mutagenesis in the presence of these alleles. Studies of spontaneous back mutation to prototrophy revealed siginificant mutator effects of the polA1 mutation on reversion of the hisD3052 frameshift and of the polA3 mutation on reversion of the hisC3076 frameshift. Other smaller mutator effects of the polA alleles on reversion of the his mutations may also be present. In an attempt to explain the complex interactions between different polA alleles and different frameshift mutations, it is tentatively suggested that deletion frameshift may arise mainly during DNA replication, while addition frameshifts may arise mainly during post-replication repair.     

Identification of a regulatory nifA type gene and physical mapping of cloned new nif regions of Azospirillum brasilense

Summary Three new Tn5-mutagenized nif genes of Azospirillum brasilense were characterized. The sizes of the restriction fragments and the restriction maps of the cloned nif DNA regions showed that these nif genes are distinct from those reported earlier, e.g. nifHDK, nifE, nifUS, fixABC. The Nif27 mutant was identified as a nifA type regulatory gene of A. brasilense (a) by genetic complementation with nifA of Klebsiella pneumoniae, (b) by the absence of nitrogenase iron protein in western protein blots and (c) by its inability to activate expression of a nijH-lacZ fusion. The growth characteristics of the three mutants showed that none of them is defective in general nitrogen regulatory (ntr) genes. Also, no homology was detected between the three nif DNA regions of the mutants, cloned in pMS188, pMS189 and pMS197, and the K. pneumoniae nif, gInA or ntr genes. In addition, the fixABC genes of Bradyrhizobium japonicum did not show any hybridization with the cloned Azospirillum genes. Unlike the situation in enteric bacteria, the nif genes in A. brasilense are scattered and span a region of about 65 kb.     

Overlapping sequences of Klebsiella pneumoniae nifDNA cloned and characterized.

Summary A HindIII (17.0 kb) and an EcoRl restriction fragment (6.9 kb) of Klebsiella pneumoniae nif DNA were cloned on two small amplifiable plasmids, pCM1 and pSA30 respectively. These plasmids between them carry 14 of the 15 known Klebsiella nif genes. The operon for the three structural genes for nitrogenase, nifpHDK, is carried on pSA30: four and five of the remaining six operons are on pCRA37 and pCM1 respectively. All of the nif genes were assigned to endonculease restriction fragments of DNA using the Southern blotting technique (Southern, 1975) with total DNA of nif insertion mutants and radioactive plasmid DNA which contained cloned nif DNA sequences. Their locations were consistent with the genetic map of nif genes. The estimated size of the nif gene cluster was 24 kb.     

Pleiotropic effect of his gene mutations on nitrogen fixation in Klebsiella pneumoniae

Several his mutations were found to influence nitrogen fixation in Klebsiella pneumoniae: hisB, hisC, and hisD mutants had 50% of wild-type levels of nitrogenase activity when supplied with 30 μg or less histidine/ml although this concentration did not limit protein synthesis and the mutants retained a Nif⁺ plate phenotype. A hisA mutation had a similar but more dramatic effect. At low concentrations of histidine the hisA mutant strain had only 5% of the nitrogenase activity found at high histidine concentration or in a his⁺ strain, and was also Nif^- on low histidine agar plates. Addition of adenine restored nitrogenase activity in the hisA but not the hisB, hisC, or hisD mutants. Low levels of intracellular ATP, a consequence of hisG enzyme activity, correlated with loss of nitrogen-fixing ability in the hisA mutant which failed to sustain nif gene expression under these conditions. Synthesis of other major cell proteins was relatively unaffected indicating that nif gene expression is selectively regulated by the energy status of the organism.     

The Evolution of Histidine Biosynthesis in Archaea: Insights into the <Emphasis Type="Italic">his</Emphasis> Genes Structure and Organization in LUCA

The available sequences of genes encoding the enzymes associated with histidine biosynthesis suggest that this is an ancient metabolic pathway that was assembled prior to the diversification of Bacteria, Archaea, and Eucarya. Paralogous duplication, gene elongation, and fusion events of several different his genes have played a major role in shaping this biosynthetic route. We have analyzed the structure and organization of histidine biosynthetic genes from 55 complete archaeal genomes and combined it with phylogenetic inference in order to investigate the mechanisms responsible for the assembly of the his pathway and the origin of his operons. We show that a wide variety of different organizations of his genes exists in Archaea and that some his genes or entire his (sub-)operons have been likely transferred horizontally between Archaea and Bacteria. However, we show that, in most Archaea, his genes are monofunctional (except for hisD) and scattered throughout the genome, suggesting that his operons might have been assembled multiple times during evolution and that in some cases they are the result of recent evolutionary events. An evolutionary model for the structure and organization of his genes in LUCA is proposed.     

italic> of the Whole nif Genes of Klebsiella oxytoca,a Nitrogen Fixer in the Rhizosphere of Rice

We cloned in E. coli the whole 17 nif genes (nifQ-J) of Klebsiella oxytoca NG13 using pBR322 as a vector, and constructed a recombinant plasmid, pNOW25 (nif⁺, Ap^r, 42.6 kb). A non nif DNA fragment was deleted from the plasmid with XhoI, and a smaller plasmid, pNOK31 (nif+, Ap^r, 31.1 kb), was reconstructed.

We constructed the restriction map of the cloned nif genes. The map was the same as that of the K. pneumoniae M5a1 nif genes as to the EcoRI, HindIII, BamHI and XhoI sites, but differed considerably in the PstI, SalI and BglII sites.

E. coli KO60 containing pNOW25 or pNOK31 can grow on a N-free medium. The acetylene reduction activities of KO60 (pNOW25) and KO60 (pNOK31) were 280 nmol and 390 nmol/48 hr per 7 ml of N-free liquid medium, whereas the activity of K. oxytoca NG13 was 3800 nmol. Thus, the expressed activity of the nif system of K. oxytoca is rather low in E. coli even if the nif genes are cloned on a multicopy plasmid.     

A molecular linkage map of nitrogenase and nodulation genes in Rhizobium trifolii

Summary A molecular map was constructed linking the nitrogenase structural genes (nif) and nodulation genes (nod) in the white clover symbiont, Rhizobium trifolii. In R. trifolii strain ANU843 these two genetic regions are located some 16 kilobases (kb) apart on the 180 kb symbiotic (Sym) plasmid. The molecular linkage of nod and nif genetic regions was established by hybridization analysis using recombinant plasmids containing overlapping cloned sequences. Nodulation genes were located by means of a Tn5-induced nodulation-defective mutant that failed to induce clover root hair curling (Hac^- phenotype). A cloned wild-type DNA fragment was shown to phenotypically correct the Hac^- mutation by complementation. The nifHDK genes were cloned by positive hybridization to another R. trifolii nif-specific probe. Location of the nif genes relative to the nod genes was established by analysis of a Sym plasmid deletion derivative.     

Cloning of pEA3, a large plasmid ofEnterobacter agglomerans containing nitrogenase structural genes

Summary A clone bank of an indigenous plasmid ofEnterobacter agglomerans containing structural nitrogen-fixation (nif) genes was established in a non-mobilisable, multicopy derivative of the cosmid vector pHC79. The restriction enzyme Bam HI was used to establish the clone bank and it was found that 96% of the clones contained inserts. The clones containingnif-genes were identified by Southern hybridisation usingKlebsiella pneumoniae nif DNA (KpnifHDKY) as the radioactive probe. Thenif-genes ofE. agglomerans showed extensive homology to those ofK. pneumoniae but the restriction enzyme fragment patterns of thenif-genes ofE. agglomerans were different. The plasmid bornenif-genes ofE. agglomerans are clustered as inK. pneumoniae.     

Transfer of plasmid pRD1 from Escherichia coli to Azospirillum brasilense

Summary Data are presented which indicate that plasmid pRD1 can be transferred from Escherichia coli to strains of Azospirillum brasilense with a frequency of about 10^-7. The reverse was also possible; in this case the frequency of transfer appeared to be much higher, about 5×10^-1. Transfer of the plasmid was also obtained between strains of A. brasilense; in this cross the transfer frequency was very high (about 10^-1). Moreover the pRD1 plasmid seems very stable in A. brasilense cells.Abbreviations ade, his, and trp are requirements for adenine, histidine, and tryptophan, respectively - carb, kan, rif, spc, and tet are resistance to carbenicillin, kanamycin, spectinomycin, and tetracycline, respectively - recA56 recombination deficiency - nif genes for nitrogen fixation     

Nitrogen fixation in strains ofAzotobacter chroococcum bearing deletions of a cluster of genes coding for nitrogenase

Strains of the obligately aerobic nitrogen fixing organismAzotobacter chroococcum were constructed which contained defined chromosomal deletions in which the nitrogenase structural genenifHDK cluster (nifH for the polypeptide of the Fe-protein component of nitrogenase andnifD andnifK for the alpha and beta subunits respectively of the MoFe-protein component of the enzyme) was replaced by a kanamycin resistance gene. N₂ fixation was nevertheless observed in deletion strains though only in a molybdenum-deficient medium or in spontaneously arising tungstate-resistant derivatives. In comparison with the parent strain growing in molybdenum-sufficient medium, diazotrophic growth was slow and the nitrogenase activity in vivo was characterised by disproportionately low rates of C₂H₂-reduction compared to H₂-evolution and relative insensitivity of H₂-evolution to inhibition by C₂H₂. The findings show reiteration of functional structural genes for nitrogenase inA. chroococcum consistent with our previous observation of twonifH genes in this organism and detection in this work of a secondnifK-like sequence in the genomes of both parent and deletion strains whenA. chroococcum nifK DNA was used as a probe.     

Nif-hybrids of Enterobacter cloacae: Selection for nif-gene integration with nif-plasmids containing the Mu transposon

Summary The nitrogen fixation (nif)-gene group of Klebsiella can be transferred onto Enterobacter cloacae by conjugation, using Escherichia coli donor cells carrying the composite self-transmissible nif-plasmid pRD1. To enforce integration and stabilisation, in the present study a derivative of pRD1, viz plasmid pCE1, containing the Mu transposon was used. pCE1:: Mu cts makes Enterobacter cloacae cells nif ⁺, and sensitive to temperature induction of Mu. Few cells survive treatment at 42°C. Seventy-two isolates thus obtained were screened for location of their nif-genes. At least four were found to contain the nif-genes integrated into the chromosome. This was documented by gel electrophoresis of their DNA, and by Southern hybridisation of their DNA with Klebsiella nif-KDH DNA as radioactive probe. The Mu transposon had also become part of their chromosome.     

Characterization of a 4 kb Variant of the nifD Element inAnabaena sp. Strain ATCC 33047

Heterocyst differentiation in some cyanobacteria is accompanied by a programmed DNA rearrangement within the nitrogen fixation gene nifD. The nifD element is excised from within nifD during the latter stages of heterocyst differentiation by site-specific recombination. There is considerable variation in those nifD elements examined thus far, with Nostoc sp. Strain PCC 7120 and Anabaena variabilis having 11 kb elements, and Nostoc punctiforme having a 24 kb element. Here we characterize a 4 kb nifD element in Anabaena sp. Strain ATCC 33047, and compare it with the other sequenced nifD elements. While there is considerable variation in both the size (ranging from 4 kb to 24 kb) and composition of the nifD elements examined thus far, there are regions that are conserved in all. These conserved regions include the flanking 3 and 5 regions, the xisA gene, and a small open reading frame known as ORF2 in Nostoc sp. Strain PCC 7120.