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).     

Transposon mutagenesis in Azospirillum brasilense: isolation of auxotrophic and Nif- mutants and molecular cloning of the mutagenized nifDNA

Summary We report the successful mutagenesis of Azospirillum brasilense 29710 Rif Sm with transposon Tn5. The narrow host-range plasmid pGS9 (p15A replicon), which possesses broad host-range N-type transfer genes, was used as the suicide vehicle to deliver Tn5 in Azospirillum. Out of 900 colonies tested, 0.8% proved to be auxotrophic. One mutant altered in indoleacetic acid (auxin) biosynthesis was isolated and, in addition, three mutants completely defective in nitrogen fixation (nif) were obtained. All the mutants tested contained a single copy of Tn5 integrated randomly in the genome. The Tn5-mutagenized EcoRI fragments were cloned from the three Nif^- mutants. Physical analysis of cloned DNA showed that Tn5 was present on a different EcoRI fragment in each case, ranging in size from 15–17 kb. The nitrogenase structural genes (nifHDK) in A. brasilense 29710 Rif Sm were localized on a 6.7 kb EcoRI fragment. We found that Tn5 is not inserted in the nifHDK genes in the Nif^- mutants reported here. Site-directed mutagenesis using the cloned, Tn5-containing DNA from mutant Nif27(pMS188), produced a large number of Nif^- transconjugants of the A. brasilense 29710 Rif wild-type strain, showing the linkage between Tn5 insertion and the Nif^- phenotype. This is the first time that transposon-mutagenized auxotrophic, Nif^- and other mutants have been available for genetic analysis in Azospirillum. This should greatly facilitate the cloning and mapping of genes involved in nitrogen fixation as well as in many other phenotypic characteristics of Azospirillum.     

Cloning and characterization of nifA and ntrC genes of the stem nodulating bacterium ORS571, the nitrogen fixing symbiont of Sesbania rostrata: Regulation of nitrogen fixation (nif) genes in the free living versus symbiotic state

Summary A cosmid bank of ORS571, a diazotrophic bacterium capable of inducing aerial stem and root nodules on Sesbania rostrata, was constructed in the vector pLAFR1. A DNA probe carrying the Klebsiella pneumoniae nifA gene was used to identify nifA-and ntrC-like regions of ORS571 in the cosmid bank by colony hybridization. Cosmids carrying these regions were mapped by restriction endonuclease analysis, Southern blotting and transposon Tn5 mutagenesis. Selected Tn5 insertion mutations in the nifA/ntrC homologous regions were used for gene-replacement experiments and the resulting ORS571 mutants were examined for Nif, Fix and Ntr phenotypes. Two clearly distinct regulatory loci were thus identified and named nifA and ntrC. Plasmids carrying gene fusions of the ORS571 nifH and nifD genes to lacZ were constructed and the regulation of the ORS571 nifHDK promoter, and of the Rhizobium meliloti nifHDK promoter, was studied under varying physiological conditions in ORS571, ORS571 nifA::Tn5 and ORS571 nitrC::Tn5 strains. A model for the role of nifA and ntrC in the regulation of ORS571 nif and other nitrogen assimilation genes is proposed.     

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.     

茎瘤固氮根瘤菌ORS571中motA基因的功能分析

[目的] MotA是细菌的鞭毛马达蛋白,是跨膜质子通道的重要组成结构之一,在调控鞭毛运动中具有至关重要的作用。本研究探究了Azorhizobium caulinodans ORS571中鞭毛马达基因motA对菌株表型和植物互作的影响。[方法] 通过同源重组原理和三亲接合转移方法构建突变菌株∆motA,测定野生型与突变体在菌体生长、运动、固氮、胞外多糖合成、生物膜形成及根系定殖能力的差异。[结果] 与野生型相比,突变体菌体生长没有明显差异,但其运动能力完全丧失,固氮、胞外多糖合成、生物膜形成及根系定殖能力减弱。[结论] MotA鞭毛马达蛋白对A.caulinodans ORS571的运动、固氮、胞外多糖合成、生物膜形成及根系定殖能力均有调控作用。     

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.     

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.     

The nifH, nifM and nifN genes of Azotobacter vinelandii: Characterisation by Tn5 mutagenesis and isolation from pLAFR1 gene banks

Summary Tn5 was introduced into Azotobacter vinelandii on a suicide vector, pGS9. Three Nif^- mutants were found to carry Tn5 in nifH (MV6), in nifN (MV22), and in or near nifM (MV21), from the results of hybridisation experiments. For MV21 and MV22 this was also shown by complementation with the nif genes of Klebsiella pneumoniae on pRD1. MV6 failed to synthesis the nifH, D and K gene products. MV6 and MV22 fixed nitrogen in the absence of supplied molybdenum while mutant MV21 did not, suggesting that the nifM gene product may be required for the alternative nitrogenase system synthesised in azotobacteria under conditions of molybdenum deprivation. Reconstitution experiments with mutant extracts showed that MV22 (nifN ^-) lacked the FeMo cofactor and that MV21 (NifM^-) synthesised inactive Fe protein. These biochemical phenotypes are identical to those of the K. pneumoniae nifN and nifM mutants, respectively, demonstrating that these genes have the same function in both K. pneumoniae and A. vinelandii. Complementation of the A. vinelandii mutants with pLAFR1 gene banks of A. vinelandii or a. chroococcum yielded three cosmids of interest. pLV10 complemented UW91, a nifH mutant, and corrected the defect in MV6 after recombination with the mutant genome. It also carried nifD (but not nifK) and about 18 kb of DNA upstream from nifH. pLV1 from the A. vinelandii gene bank complemented both MV21 and MV22 as did pLC11, isolated from the A. chroococcum gene bank. Both pLV1 and pLC11 carried part of the nif cluster downstream of nifHDK which also includes nifEN and nifMVS on about 22 kb of DNA.     

Construction of a Tn5 derivative encoding bioluminescence and its introduction in Pseudomonas, Agrobacterium and Rhizobium

Summary A simple method based upon the use of a Tn5 derivative, Tn5-Lux, has been devised for the introduction and stable expression of the character of bioluminescence in a variety of gram-negative bacteria. In Tn5-Lux, the luxAB genes of Vibrio harveyi encoding luciferase are inserted on a SalI-BglII fragment between the kanamycin resistance (Km^r) gene and the right insertion sequence. The transposon derivative was placed on a transposition suicide vehicle by in situ recombination with the Tn5 suicide vector pGS9, to yield pDB30. Mating between Escherichia coli WA803 (pDB30) and a strain from our laboratory, Pseudomonas sp. RB100C, gave a Km^r transfer frequency of 10^-6 per recipient, a value 10 times lower than that obtained with the original suicide vehicle pGS9. Tn5-Lux was also introduced by insertion mutagenesis in other strains of gram-negative soil bacteria. The bioluminescence marker was expressed in the presence of n-decanal, and was monitored as chemiluminescence in a liquid scintillation counter. The recorded light intensities were fairly comparable among the strains, and ranged between 0.2 to 1.8x10⁶ cpm for a cell density of 10³ colony forming units/ml. Nodules initiated by bioluminescent strains of Rhizobium leguminosarum on two different hosts were compared for intensity of the bioluminescence they produced.     

The two megaplasmids of Rhizobium meliloti are involved in the effective nodulation of alfalfa

Summary We have shown by physical and genetic means that there are two megaplasmids in all strains of Rhizobium meliloti that we have studied. Megaplasmids from several strains of R. meliloti were mobilized to Agrobacterium tumefaciens and to other Rhizobium strains using the Tn5-Mob system. We were also able to resolve these two megaplasmids in agarose gels for most strains, and to show that only one of them hybridized to nif and nod genes. Transfer of this plasmid, the pSym, to Agrobacterium, R. leguminosarum, and R. trifolii strains conferred on these recipients the ability to nodulate alfalfa ineffectively. The second megaplasmid did not appear to have a direct role in nodule initiation. However, we were able to complement extracellular polysaccharide (EPS^-) mutants of R. meliloti by transferring this second megaplasmid into them. Furthermore, Tn5-induced EPS^- mutants of R. meliloti 2011, which produced ineffective (Fix^-) nodules of abnormal morphology, were shown by hybridization and complementation to carry mutations in this second megaplasmid. This demonstrates that both megaplasmids of R. meliloti are necessary for the effective nodulation of alfalfa.     

Expression and regulation of the Escherichia coli glutamate dehydrogenase gene (gdh) in Rhizobium japonicum

The glutamate dehydrogenase (gdh) gene of Escherichia coli was transferred into an ammonium assimilation deficient mutant (Asm^-) of Rhizobium japonicum (CJ9) using plasmid pRP301, a broad host range derivative of RP₄. Exconjugants capable of growth on ammonia as sole N-source occurred at a frequency of 6.8×10^-6. Assimilatory GDH (NADP⁺) activity was detected in the strain carrying the E. coli gdh gene and the pattern of ammonia assimilation via GDH was similar to that of the Asm⁺ wild type strain. However, GDH mediated ammonia assimilation was not subject to regulation by l-glutamate. Nitrogenase activity was expressed ex planta in R. japonicum CJ9 harbouring the gdh gene, however, the presence of the gdh gene did not restore symbiotic effectiveness to the CJ9 Asm^- strain in nodules. The gdh plasmid was maintained in approximately 90% of the isolates recovered from soybean nodules.Abbreviations gdh glutamate dehydrogenase - Asm^- mutant ammonia assimilation deficient mutant     

Cloning of the cysB gene of Erwinia carotovora subsp. carotovora, and the identification of its product

Summary The suicide vector pJB4JI was used to generate a range of Tn5-induced mutants of Erwinia carotovora subsp. carotovora (Ecc). One mutant, HC500, was a cysteine auxotroph which had a non-pectolytic, non-cellulolytic, non-proteolytic phenotype when grown under sulphate-limitation. The cysteine lesion of HC500 was shown to be analogous to the cysB mutation of Escherichia coli. The Ecc-cysB ⁺ gene product was identified as a protein of M_r 36000.     

Insertions of Tn5 linked to mutations affecting carotenoid synthesis inMyxococcus xanthus

Summary We have characterized severalMyxococcus xanthus mutants in which carotenoid synthesis is affected. Six of them produce carotenoids in the absence of visible light, an absolute requirement for carotenogenesis in wild-type strains, and thus will be referred to as constitutive mutants. The six corresponding mutations have been mapped by transductional analysis mediated by linked Tn5 insertions. Five of the mutations have been localized to a single locus, closely linked to Tn5 insertion ΩMR136 and loosely linked to ΩDK4611. The sixth mutation, present in strain MR7, is linked to Tn5 insertion ΩMR134. Another Tn5 insertion site (ΩDK2836) has been characterized and found to be linked to the MR7 colour mutation and to ΩMR134. Darkor light-grown cultures of strains carrying the Tn5 insertion ΩDK2836 do not produce carotenoids even if they simultaneously carry any of the constitutive mutations.     

茎瘤固氮根瘤菌环二鸟苷酸代谢相关基因的功能鉴定

【目的】考察茎瘤固氮根瘤菌ORS571中c-di-GMP合成酶AZC-2412的编码基因缺失的突变表型,初步探究其功能机理。【方法】本实验构建基于cre-loxp重组酶系统的根瘤菌基因敲除系统,以及采用三亲接合技术构建突变株。测定野生型和突变株的生长速率、趋化能力、胞外多糖产量、生物膜形成等表型。【结果】突变株与野生型生长速率几乎相同。与野生型相比突变株由于细胞内c-di-GMP水平降低,胞外多糖、生物膜产量等均有所下降。【结论】实验表明,环二鸟苷酸合成酶AZC-2412缺失,使得c-di-GMP水平降低,对胞外多糖生成、细菌的运动能力、生物膜的形成、细胞絮凝、与植物的互作等均有调控作用。     

Isolation and characterisation of transposon-induced mutants of Erwinia carotovora subsp. atroseptica exhibiting reduced virulence

Summary The blackleg pathogen Erwinia carotovora subsp. atroseptica (Eca) causes an economically important disease of potatoes. We selected a genetically amenable Eca strain for the genetic analysis of virulence. Tn5 mutagenesis was used to generate nine mutants which exhibited reduced virulence (Rvi^-) of strain SCRI1043. Following physiological characterisation, mutants were divided into three classes: (1) auxotrophs; (2) extracellular enzyme mutants; and (3) a growth rate mutant. The isolation of these Rvi^- mutants has allowed us to consider some factors that affect Eca virulence.     

Common nodABC genes in Nod locus 1 of Azorhizobium caulinodans: Nucleotide sequence and plant-inducible expression

Summary Azorhizobium caulinodans strain ORS571 induces nitrogen-fixing nodules on roots and stem-located root primordia of Sesbania rostrata. Two essential Nod loci have been previously identified in the bacterial genome, one of which (Nod locus 1) shows weak homology with the common nodC gene of Rhizobium mehloti. Here we present the nucleotide sequence of this region and show that it contains three contiguous open reading frames (ORFA, ORFB and ORFC) that are related to the nodABC genes of Rhizobium and Bradyrhizobium species. ORFC is followed by a fourth (ORF4) and probably a fifth (ORF5) open reading frame. ORF4 may be analogous to the nod[ gene of R. leguminosarum, whereas ORF5 could be similar to the rhizobial nodF genes. Coordinated expression of this set of five genes seems likely from the sequence organization. There is no typical nod promoter consensus sequence (nod box) in the region upstream of the first gene (ORFA) and there is no nodD-like gene. LacZ fusions constructed with ORFA, ORFB, ORFC, and ORF4 showed inducible -galactosidase expression in the presence of S. rostrata seedlings as well as around stem-located root primordia. Among a series of phenolic compounds tested, the flavanone naringenin was the most efficient inducer of the expression of this ORS571 nod gene cluster.     

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.     

Two classes of Rhizobium meliloti infection mutants differ in exopolysaccharide production and in coinoculation properties with nodulation mutants

Summary Symbiotic mutants of Rhizobium meliloti were isolated following Tn5 mutagenesis. Besides four nodulation mutants (Nod^-) unable to induce nodule formation on alfalfa, five infection mutants (Inf^-), which induce the formation of root nodules without detectable infection threads or bacteroids, were obtained. The Inf^- mutants were subdivided into two classes. One class contains mutants which fail to synthesize acidic exopolysaccharide (EPS^-). The other class is comprised of mutants which produce excess amounts of acidic exopolysaccharide (EPS^*). ¹³C nuclear magnetic resonance spectroscopy of the exopolysaccharide isolated from one of the latter type of Inf^- mutant, 101.45, revealed that the side chain of the repeating octosaccharide unit lacks the terminal pyruvate residue. Complementing cosmids were isolated for all Inf^- mutants. In the case of the Inf^- EPS^- mutants the complementing cosmids contain DNA segments which overlap and are part of megaplasmid 2. For two mutants the mutations were found to map on a 7.8 kb EcoRI fragment. In the case of the Inf^- EPS^* mutants the complementing cosmids carry chromosomal DNA. The mutations of two Inf^- EPS^* mutants were localized on a 6.4 kb EcoRI fragment. Coinoculation of alfalfa plants with Nod^- and Inf^- EPS^- mutants resulted in effective symbiosis. The nodules appeared wild type and fixed nitrogen. In constrast, coinoculations with Nod^- mutants and the Inf^- EPS^* mutant 101.45 did not result in the formation of effective nodules.     

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.