Use of the multipurpose transposon Tn<Emphasis Type="Italic">KPK2</Emphasis> for the mutational analysis of chromosomal regions upstream and downstream of the<Emphasis Type="Italic"> sipF</Emphasis> gene in<Emphasis Type="Italic"> Bradyrhizobium japonicum</Emphasis>

The DNA regions upstream and downstream of the Bradyrhizobium japonicum gene sipF were cloned by in vivo techniques and subsequently sequenced. In order to study the function of the predicted genes, a new transposon for in vitro mutagenesis, TnKPK2, was constructed. This mutagenesis system has a number of advantages over other transposons. TnKPK2 itself has no transposase gene, making transposition events stable. Extremely short inverted repeats minimize the length of the transposable element and facilitate the determination of the nucleotide sequence of the flanking regions. Since the transposable element carries a promoterless phoA reporter gene, the appearance of functional PhoA fusion proteins indicates that TnKPK2 has inserted in a gene encoding a periplasmic or secreted protein. Although such events are extremely rare, because the transposon has to insert in-frame, in the correct orientation, and at an appropriate location in the target molecule, a direct screening procedure on agar indicator plates permits the identification of candidate clones from large numbers of colonies. In this study, TnKPK2 was used for the construction of various symbiotic mutants of B. japonicum. One of the mutant strains, A2-10, which is defective in a gene encoding a protein that comigrates with bacterioferritin (bcpB), was found to induce the formation of small and ineffective nodules.Communicated by A. Kondorosi     

Transposon-induced symbiotic mutants of Bradyrhizobium japonicum: isolation of two gene regions essential for nodulation

Summary Two strains of the soybean endosymbiont Bradyrhizobium japonicum, USDA 110 and 61 A101 C, were mutagenized with transposon Tn5. After plant infection tests of a total of 6,926 kanamycin and streptomycin resistant transconjugants, 25 mutants were identified that are defective in nodule formation (Nod^-) or nitrogen fixation (Fix^-). Seven Nod^- mutants were isolated from strain USDA 110 and from strain 61 A101 C, 4 Nod^- mutants and 14 Fix^- mutants were identified. Subsequent auxotrophic tests on these symbiotically defective mutants identified 4 His^- Nod^- mutants of USDA 110. Genomic Southern analysis of the 25 mutants revealed that each of them carried a single copy of Tn5 integrated in the genome. Three 61 A101 C Fix^- mutants were found to have vector DNA co-integrated along with Tn5 in the genome. Two independent DNA regions flanking Tn5 were cloned from the three nonauxotrophic Nod^- mutants and one His^-Nod^- mutant of USDA 110. Homogenotization of the cloned fragments into wild-type strain USDA 110 and subsequent nodulation assay of the resulting homogenotes confirmed that the Tn5 insertion was responsible for the Nod^- phenotype. Partial EcoR1 restriction enzyme maps around the Tn5 insertion sites were generated. Hybridization of these cloned regions to the previously cloned nod regions of R. meliloti and nif and nod regions of B. japonicum USDA 110 showed no homology, suggesting that these regions represent new symbiotic clusters of B. japonicum.     

Bradyrhizobium japonicum mutants defective in root-nodule bacteroid development and nitrogen fixation

The genome of the slow-growing Bradyrhizobium japonicum (strain 110) was mutagenized with transposon Tn5. A total of 1623 kanamycin/streptomycin resistant derivatives were screened in soybean infection tests for nodulation (Nod) and symbiotic nitrogen fixation (Fix). In this report we describe 14 strains possessing a stable, reproducible Nod⁺Fix^- phenotype. These strains were also grown under microaerobic culture conditions to test them for free-living nitrogen fixation activity (Nif). In addition to strains having reduced Fix and Nif activities, there were also strains that had reduced symbiotic Fix activity but were Nif⁺ ex planta.Analysis of the genomic structure revealed that the majority of the strains had a single Tn5 insertion without any further apparent physical alteration. A few strains had additional insertions (by Tn5 or IS50), or a deletion, or had cointegrated part of the vector used for Tn5 mutagenesis. One of the insertions was found in a known nif gene (nifD) whereas all other mutations seem to affect different, hitherto unknown genes or operons.Several mutant strains had an altered nodulation phenotype, inducing numerous, small, widely distributed nodules. Light and electron microscopy revealed that most of these mutants were defective in different stages of bacteroid development and/or bacteroid persistence. The protein patterns of the mutants were inspected by two-dimensional gel electrophoresis after labelling microaerobic cultures with l-(³⁵S)methionine. Of particular interest were mutants lacking a group of proteins the synthesis of which was known to be under oxygen control. Such strains can be regarded as potential regulatory mutants.     

TnphoA-induced symbiotic mutants of Bradyrhizobium japonicum that impair cell and tissue differentiation in Glycine max nodules

Bradyrhizobium japonicum WM1, an ethylmethane-sulfonate-induced derivative of B. japonicum 110spc4 with reduced phosphatase activity but normal symbiotic properties, was randomly mutagenized using TnphoA. From about 1000 purified single colonies, approximately 300, preferentially those with enhanced phosphatase activity, were inoculated onto soybean seedlings to test their symbiotic traits. Sixteen strains were either completely Fix? or possessed markedly reduced acetylene reduction activity (Fix^red). Contrary to expectations, hybridization of total DNA of these strains to a transposonspecific DNA probe showed that many contained no transposon. Apparently these strains had gained resistance towards kanamycin spontaneously rather than through the introduction of TnphoA. However, in five mutant strains, two hybridizing BamHI fragments of different sizes were detected, as expected. All strains performed acetylene reduction under ex planta conditions, indicating that mutations had not occurred in nif or fix genes. A more than 50-fold increased specific activity of alkaline phosphatase was observed in strain 132, indicating the synthesis and secretion of a polypeptide fused to 'PhoA. Light and electron-microscopic analyses showed that in nodules induced by strain 132 (Fix^red) the infected cells of the central tissue were vacuolated. In some of these cells callose deposition was observed, indicating plant defense reactions. Nodules induced by mutant 184 were infected by bacteroids only in a few cells of the central tissue as isolated clusters, whereas the majority of cells remained uninfected. The concentration of phosphoenolpyruvatecarboxylase protein within the infected tissue was significantly reduced and starch granules accumulated. In both strains TnphoA insertions were identified to be the reasons for the observed phenotypes. These mutant strains should be helpful for studying the influence of the microsymbiont on the differentiation and colonization of infected cells in soybean nodules.     

Localized mutagenesis in Rhizobium japonicum

Summary The slow-growing soybean symbiont, Rhizobium japonicum, has not readily been accessible so far to classical mutational analysis of genes responsible for symbiotic nitrogen fixation. We have overcome part of this problem by the successful application of a site-directed mutagenesis technique to this organism. The following steps are involved: (i) local Tn5 mutagenesis, in E. coli, of cloned R. japonicum DNA (e.g. the nifDK operon); (ii) conjugational transfer of the mutated DNA into R. japonicum using vectors which are unable to replicate there; (iii) selection of R. japonicum exconjugants which have exchanged their wild-type genomic DNA region for the Tn5-containing fragment by homologous recombination. While using this technique it appeared mandatory to distinguish double-crossover-events (true replacements) from single-crossover events (replicon fusions or cointegrations). Only the true replacement mutants were genetically stable; their phenotypes were determined with respect to nodulation (Nod) and nitrogen fixation (Fix) by plant infection tests. Tn5 mutations within nifD and nifK caused a Nod⁺ Fix^- phenotype, whereas mutants with insertions in the immediate vicinity on either side of nifDK were found to be Nod⁺ Fix⁺, suggesting that genes flanking nifDK may not be involved in the nitrogen fixing symbiosis. Nodule reisolates were found to carry Tn5 at their original locations.     

Precise excision of bacterial transposon Tn5 in yeast

Summary We have demonstrated that precise excision of bacterial transposon Tn5 can occur in the yeast, Saccharomyces cerevisiae. Tn5 insertions in the yeast gene LYS2 were generated by transposon mutagenesis made in Escherichia coli by means of a ::Tn5 vector. Nine insertions of Tn5 into the structural part of the yeast LYS2 gene situated in a shuttle epsiomal plasmid were selected. All the plasmids with a Tn5 insertion were used to transform yeast strains carrying a deletion of the entire LYS2 gene or a deletion of the part of LYS2 overlapping the point of insertion.All insertions inactivated the LYS2 gene and were able to revert with low (about 10^-8) frequencies to lysine prototrophy. Restriction analysis of revertant plasmids revealed them to be indistinguishable from the original plasmid without Tn5 insertion. DNA sequencing of the regions containing the points of insertions, made for two revertants, proved that Tn5 excision was completely precise.     

Insertion and deletion mutations within the nif region of Rhizobium japonicum

Insertion and deletion mutants were used to characterize a genomic region of Rhizobium japonicum where the nitrogenase structural genes are located on two separate operons nifDK and nifH. In addition to previously described nifD:: Tn5 and nifK:: Tn5 mutations we have now generated, by localized mutagenesis, further Tn5 insertion mutations in the vicinity of nifDK as well as within and adjacent to nifH. The nifD:: Tn5, nifK:: Tn5, and nifH:: Tn5 mutant strains were of the Nod⁺ Fix^- phenotype whereas all other mutants were symbiotically fully effective (Nod⁺ Fix⁺). The nifH:: Tn5 mutation was helpful in the identification of the nifH gene product (the dinitrogenase reductase) by two-dimensional gel electrophoresis: due to its polar effect this insertion specifically abolished the synthesis of that protein under microaerobic culture conditions. The ultrastructure of soybean root nodules infected with either the nif ⁺ wild-type or with the nif ^- (but otherwise isogenic) mutant strains was analyzed by electron microscopy. All contained fully developed bacteroids, but the nitrogen non-fixing mutants showed massive accumulation of PHB.Of Tn5-containing strains, kanamycin sensitive derivatives were obtained which contained deletions. Several classes of deletion mutants were found which, as judged by their physical DNA structure and their phenotypes, allowed the following most important conclusions: (i) deletions lacking both the nifDK and nifH regions indicate linkage between the two operons whereby at least 15 kb of DNA separate them; (ii) one deletion ending upstream from nifH, and lacking only nifDK, indicates that the nifDK operon is located on the 5-flanking side of the nifH operon; (iii) all deletion mutants are Nod⁺ indicating that there are no essential nodulation gnes located between and adjacent to nifDK and nifH.     

Tn10 mutagenesis in Azotobacter vinelandii

Summary The tetracycline-resistant transposon Tn10 and its high-hopper derivative Tn10HH104 were introduced into the Azotobacter vinelandii genome using suicide conjugative plasmids derived from pRK2013. Several types of mutants induced by either of these elements are described. Nif^- mutants (deficient in nitrogen fixation) were easily isolated, whereas the isolation of other mutant types (auxotrophs, sugar non-users) required special selection conditions. The characterization of the mutations as transposon insertions was often complicated and sometimes required a combination of genetic and physical tests. A common source of complication, the existence of double inserts, was found among the mutants induced by Tn10HH104 but not among those induced by Tn10. Both the high-hopper and the wild-type element proved to undergo secondary transpositions, albeit at different frequencies. Another type of complication, the existence of heterozygotes, occurred because of the high level of redundancy of the A. vinelandii genome.     

Mapping of a Bradyrhizobium japonicum DNA Region Carrying Genes for Symbiosis and an Asymmetric Accumulation of Reiterated Sequences

Spontaneous kanamycin-sensitive derivatives were obtained from Bradyrhizobium japonicum (strain 110) carrying Tn5 insertions in symbiotic gene cluster I; the derivatives were shown to have deletions of cluster I plus flanking DNA which was indicated by the absence of different copies of the repeated sequences RSα and RSβ. The deletion endpoints were mapped using cloned wild-type DNA fragments containing RSα copies which also served as origins for overlapped cosmid cloning. The majority of the deletions resulted from recombinational fusion of two remote RSα copies. Novel types of repeated sequences (RSγ, RSδ, and RSε) occurring in 12, 10, and 4 copies per genome were detected. Seven, nine, and three copies of RSγ, RSδ, and RSε, respectively, were located near cluster I. It is concluded that the B. japonicum genome has an unusual DNA segment of >230 kilobase pairs characterized by the presence of repeated sequences and genes for symbiotic N₂ fixation.     

Transposon mutagenesis of Rhizobium japonicum

Summary We report here successful mutagenesis with Transposon Tn5 of three slow-growing strains of Rhizobium japonicum USDA 122, 61A76, USDA 74 and one fast-growing strain, USDA 191. Strains were chosen as representatives of different DNA homology and serogroups of this divergent species, which effectively nodulate North American soybean cultivars. The source of Tn5 was the suicide plasmid pGS9, which possesses broad host range N-type transfer genes in a narrow host range p15A replicon. The selection of Tn5 mutants was facilitated by the expression of the Tn5 encoded streptomycin gene in R. japonicum. Kanamycin and streptomycin resistant colonies appeared from interspecific crosses with E. coli at optimal frequencies of 10^-6 for R. japonicum USDA 61A76 and USDA 191 and 5x10^-7 for R. japonicum USDA 122 and USDA 74. Altogether, 6550 Tn5 mutants were isolated in USDA 122 and 61A76, and a small number from USDA 74 and USDA 191. Colony hybridization showed that all tested mutants of 61A76 and USDA 122 contained Tn5. Physical analysis of total DNAs from representative numbers of USDA 122, 61A76 and USDA 191 mutants revealed that each of them carried one copy of the transposon integrated randomly in the genome. This was also true for most USDA 74 mutants. Screening of mutants for auxotrophy showed frequencies of 0.2% for USDA 122 and 0.08% for 61A76. Several symbiotically defective mutants were identified on plants, Glycine soja and G. max.     

Round-cell mutants of Salmonella typhimurium produced by transposition mutagenesis: Lethality of rodA and mre mutations

Summary Thirty-three insertions of transposon Tn10l6l7 into genes involved in the control of rod cell shape were isolated in Salmonella typhimurium by the characteristic glossy appearance of colonies composed of spherical cells. Genetic tests demonstrated that 25 (76%) were insertions in the rodA gene, 7 (21 %) were mre mutants, and 1 (3%) was a divD mutant. No insertion in the pbpA gene were found. Insertions in cell shape genes only appeared when strains displaying resistance to mecillinam (not caused by -lactamase production) were employed. Neither rodA nor mre insertions could be transduced to wild-type strains but they were normally accepted by mecillinam-resistant derivatives and by cya and crp mutants, which, unlike the corresponding Escherichia coli strains, did not display resistance to mecillinam. On the other hand, the divD insertion could be efficiently transduced to any strain. It is concluded that the rodA, mre, and divD genes are involved in the control of rod cell shape but, in addition, the RodA and Mre products perform some function(s) that is essential for wild-type cells but dispensable for some mecillinam-resistant strains, and for cya and crp mutants.     

Rhizobium etli cytochrome mutants with derepressed expression of cytochrome terminal oxidases and enhanced symbiotic nitrogen accumulation

 A method to isolate mutants with derepressed expression of cytochrome oxidases and better symbiotic performance is presented. A mutant of Rhizobium etli, CFN030, isolated by its azide-resistant phenotype, was obtained by transposon Tn5-mob mutagenesis. This mutant has a derepressed expression of cytochrome aa₃, higher respiratory activities when cultured microaerobically and an improved symbiotic nitrogen fixation capacity. This phenotype was similar to the previously described mutant CFN037, which was isolated by its increased capacity to oxidize N,N,N′,N′-tetramethyl-p-phenylenediamine (TMPD) [Soberón M et al. (1990) J Bacteriol 172:1676–1680]. We show here that although both mutants have a similar symbiotic phenotype, they are affected in different genes. Strain CFN030 has the Tn5 inserted in the chromosome while in strain CFN037 the transposon was located in plasmid b. Cytochrome spectral analysis of both mutant strains in the post-exponential phase of growth, showed the expression of an additional terminal oxidase (cbb₃) that is not expressed in the wild-type strain. Received: 10 April 1995/Received revision: 21 August 1995/Accepted: 7 September1995     

Cloning of a DNA region from Bradyrhizobium japonicum encoding pleiotropic functions in heme metabolism and respiration

Random and site-directed Tn5-induced mutagenesis of Bradyrhizobium japonicum yielded two mutations, one in strain 2960 and the other in strain 2606::Tn5-20, which mapped close to each other but in separate genes. The corresponding wild-type genes were cloned, and their approximate location on the cloned DNA was determined. Mutant 2960 was Fix^- and formed green nodules on soybean, whereas strain 2606::Tn5-20 had ca. 4% of wild-type Fix activity and formed white nodules. Cytochrome oxidase assays (Nadi tests) showed a negative reaction with both mutants, indicating a functional deficiency of cytochrome c or its terminal oxidase or both. However, the mutants grew well under aerobic conditions on minimal media with different carbon sources. Furthermore, mutant 2960 had a reduced activity in hydrogen uptake, was unable to grow anaerobically with nitrate as the terminal electron acceptor and 2960-infected soybean nodules contained little, if any, functional leghemoglobin. Southern blot analysis showed that a B. japonicum heme biosynthesis mutant [strain LO505: O'Brian MR, Kirshbom PM, Maier RJ (1987) Proc Natl Acad Sci USA 84: 8390–8393] had its mutation close to the Tn5 insertion site of our mutant 2606::Tn5-20. This finding, combined with the observed phenotypes, suggested that the genes affected in mutants 2960 and 2606::Tn5-20 were involved in some steps of heme biosynthesis thus explaining the pleiotropic respiratory deficiencies of the mutants. Similar to strain LO505, the mutant 2606::Tn5-20 (but not 2960) was defective in the activity of protoporphyrinogen IX oxidase which catalyzes the penultimate step in the heme biosynthesis pathway. This suggests that one of the two cloned genes may code for this enzyme.     

Characterization of the fixABC region of Azorhizobium caulinodans ORS571 and identification of a new nitrogen fixation gene

Summary The fast growing strain, Azorhizobium caulinodans ORS571, isolated from stem nodules of the tropical legume Sesbania rostrata, can grow in the free-living state at the expense of molecular nitrogen. Five point mutants impaired in nitrogen fixation in the free-living state have been complemented by a plasmid containing the cloned fix-ABC region of strain ORS571. Genetic analysis of the mutants showed that one was impaired in fixC, one in fixA and the three others in a new gene, located upstream from fixA and designated nifO. Site-directed Tn5 mutagenesis was performed to obtain Tn5 insertions in fixB and fixC. The four genes are required for nitrogen fixation both in the free-living state and under symbiotic conditions. The nucleotide sequence of nifO was established. The gene is transcribed independently of fixA and does not correspond to fixX, recently identified in Rhizobium meliloti and R. leguminosarum. Biochemical analysis of the five point mutants showed that they synthesized normal amounts of nitrogenase components. It is unlikely that fixA, fixC and nifO are involved in electron transport to nitrogenase. FixC could be required for the formation of a functional nitrogenase component 2.     

Identification and cloning of nodulation genes from the stem-nodulating bacterium ORS571

Summary After random Tn5 mutagenesis of the stem-nodulating Sesbania rostrata symbiont strain ORS571, Nif^-, Fix^- and Nod^- mutants were isolated. The Nif^- mutants had lost both free-living and symbiotic N₂ fixation capacity. The Fix^- mutants normally fixed N₂ in the free-living state but induced ineffective nodules on S. rostrata. They were defective in functions exclusively required for symbiotic N₂ fixation. A further analysis of the Nod^- mutants allowed the identification of two nod loci. A Tn5 insertion in nod locus 1 completely abolished both root and stem nodulation capacity. Root hair curling, which is an initial event in S. rostrata root nodulation, was no longer observed. A 400 bp region showing weak homology to the nodC gene of Rhizobium meliloti was located 1.5 kb away from this nod Tn5 insertion. A Tn5 insertion in nod locus 2 caused the loss of stem and root nodulation capacity but root hair curling still occurred. The physical maps of a 20.5 kb DNA region of nod locus 1 and of a 40 kb DNA region of nod locus 2 showed no overlaps. The two nod loci are not closely linked to nif locus 1, containing the structural genes for the nitrogenase complex (Elmerich et al. 1982).     

Genetic approaches for studying rhizosphere colonization

Most bacterial traits involved in colonization of plant roots are yet to be defined. Studies were initiated to identify genes in Pseudomonas which play significant roles in this process. The general approach is to use transposons to construct collections of insertion mutants, each of which is then screened for alterations in its interactions with the host plant. In one study a Tn5 derivative containing a constitutively expressed -galactosidase (lacZ) gene was used to generate a collection of insertion mutants which could be distinguished from the wild-type parent on X-gal plates. Each mutant was examined for its ability to colonize wheat seedlings in the presence of the wild-type parent. Mutants which gave wild-type:mutant ratio of 20:1 or greater were obtained. In a second study a Tn5 derivative which carries a promoterless lacZ gene located near one end of the transposon was constructed. Expression of the lacZ gene depends on the presence of an active promoter outside of the transposon in the correct orientation. Insertion mutants generated with this transposon were examined for changes in -galactosidase expression in the presence and absence of plant root exudate. A number of mutants which showed differential lacZ expression have been identified.     

Analysis of the reduction in expression of tetracycline resistance determined by transposon Tn10 in the multicopy state

The tet genes of transposon Tn10 have been mapped in a 2,200 bp DNA sequence by analysing deletion and Tn5 insertion mutations. When the tet genes were present on multi-copy plasmids the level of resistance expressed was about ten-fold lower than that determined by a single copy of Tn10 in the E. coli chromosome. The 36K tet protein known to be encoded by R100 in E. coli minicells was not detected when they harboured a multicopy tet plasmid. However, normal high levels of resistance were expressed when the tet genes were recombined into the host chromosome as part of a lambda lysogen, showing that the multicopy effect was phenotypic. Most of the Tn5 insertions and deletions in tet which caused Tc^s mutations also prevented expression of high level Tc^r from a chromosomal Tn10 element present in the same cell. Only those insertions in the promoter-proximal 90–130 bp of a 1,275 bp HindII fragment known to carry the gene encoding the 36K tet protein did not reduce the single copy Tn10 resistance level.A gene fusion system that results in the constitutive synthesis of -galactosidase from a tet promoter has been used to assay tet repressor activity. The basal (uninduced) -galactosidase level in cells carrying multicopy tet plasmids was 10–20 fold lower than those carrying a single copy. The tet:: Tn5 mutants defective in the trans-dominant multicopy effect still made normal amounts of tet repressor showing that repressor overproduction was not responsible for this effect. In addition a repressor-defective constitutive mutant did not exhibit a higher resistance level when located on a multicopy plasmid vector. We postulate that a regulatory mechanism recognises the amino-terminus of the tet structural gene product when attempts are being made to overproduce the protein and prevents further translation.     

Characterization of the gene for the Fe-protein of the vanadium dependent alternative nitrogenase of Azotobacter vinelandii and construction of a Tn5 mutant

Summary A sequence homologous to the conventional nifH gene has been cloned from a different region of the Azotobacter vinelandii genome. Tn5 insertions were obtained in this clone and the mutagenized plasmid was used for marker exchange with A. vinelandii strain CA12 (nifHDK) to obtain Tn5 mutants. These mutants exhibited a Nif^- phenotype in the presence of vanadium, unlike CA12 which was Nif⁺ on vanadium-containing medium. The gene in the cloned nifH-like region is therefore apparently involved in the vanadium dependent alternative pathway of nitrogen fixation. This gene, nifH2, has been sequenced and encodes a protein of 289 amino acids that is similar to nifH in nucleotide sequence, deduced amino acid sequence, predicted secondary structure and hydrophobicity profile. A second open reading frame downstream of nifH2 codes for a protein of 64 amino acids, similar to the ferredoxin (Fd)-like protein encoded downstream of nifH ^* in A. chroococcum. Sequence analysis suggests that the nifH2 and Fd-like genes are in a single operon.     

A mutation that blocks exopolysaccharide synthesis prevents nodulation of peas by Rhizobium leguminosarum but not of beans by R. phaseoli and is corrected by cloned DNA from Rhizobium or the phytopathogen Xanthomonas

Summary A Tn5-induced mutant strain of R. phaseoli which failed to synthesize exopolysaccharide (EPS) was isolated and was shown to induce normal nitrogen-fixing nodules on Phaseolus beans, the host of this Rhizobium species. The corresponding wild-type Rhizobium DNA was cloned in a wide host-range vector and by isolating Tn5 insertions in this cloned DNA, mutations in a gene termed pss (polysaccharide synthesis) were isolated. These were introduced by marker exchange into near-isogenic strains of R. leguminosarum and R. phaseoli which differed only in the identity of their symbiotic plasmids. Whereas the EPS-deficient mutant strain of R. phaseoli induced normal nitrogen-fixing nodules on Phaseolus beans, the same mutation prevented nodulation of peas by a strain of R. leguminosarum which normally nodulates this host. Further, it was found that DNA cloned from the plant pathogen Xanthomonas campestris pathover campestris could correct the defect in EPS synthesis in R. leguminosarum and R. phaseoli and also restored the ability to nodulate peas to the pss::Tn5 mutant strain of R. leguminosarum.     

Isolation and characterization of Tn5-induced NADPH-glutamate synthase (GOGAT-) mutants of Azorhizobium sesbaniae ORS571 and cloning of the corresponding glt locus

Summary Random Tn5 mutagenesis was used to isolate two independent Azorhizobium sesbaniae ORS571 mutants disturbed in ammonium assimilation (Asm^-). Both Asm^- mutant strains were shown to lack NADPH-glutamate synthase (NADPH-GOGAT) activity and to carry Tn5 insertions ca. 1.5 kb apart in the ORS571 chromosome. The Tn5-containing region of one of the GOGAT^- mutant strains was cloned in pACYC184 and used to identify the wild-type glt (GOGAT) locus in a phage clone bank of ORS571. The cloned region was shown to have DNA homology with the Escherichia coli glt locus and to complement the Asm^- phenotype of E. coli and ORS571 GOGAT^- strains. The ORS571 GOGAT^- mutations were found to interfere with free-living as well as symbiotic nitrogen fixation. Expression of ORS571 NADPH-GOGAT activity was shown to be independent of the nitrogen regulation (ntr) system.