Biodegradation of Phosphonomycin by Rhizobium huakuii PMY1

The biodegradation by Rhizobium huakuii PMY1 of up to 10 mM phosphonomycin as a carbon, energy, and phosphorus source with accompanying P_i release is described. This biodegradation represents a further mechanism of resistance to this antibiotic and a novel, phosphate-deregulated route for organophosphonate metabolism by Rhizobium spp.     

Behavior of plasmid pJB5JI in Rhizobium huakuii under free-living and symbiotic conditions

The Rhizobium leguminosarum biovar viceae host-range plasmid pJB5JI was transferred into Rhizobium huakuii strains, both wild-type 7653R and its sym plasmid-cured mutant 7653R-1. Transconjugant 7653R-1 (pJB5JI) acquired the ability to form ineffective nodules on pea plants, whereas transconjugant 7653R (pJB5JI) could not do so, indicating that the indigenous symbiotic plasmid could restrict the functional expression of pJB5JI. On the other hand, transconjugant 7653R (pJB5JI) showed higher nitrogenase activity on A. sinicus and higher shoot dry weight than the recipient strain 7653R. The alien plasmid pJB5JI in both kinds of transconjugants remained stable during frequent transfer on culture media, but in part of the isolates from nodules formed by them the pJB5JI was not visualized on gel by the Eckhardt procedure. Southern hybridization with Tn5 and nod gene probes showed that these isolates still reserved, at least in part, DNA of pJB5JI, which was probably intergrated onto the chromosome of cells.     

紫云英根瘤菌糖基转移酶基因exoL的定位突变及序列分析

利用转座子Tn5对质粒pJB-B6既定位诱变,经同源交换,筛选获得一株Rhizobiumhuakuii107胞外糖合成缺陷（Exo－）变种RH983。三亲本杂交实验显示,pJB-B6及其亚克隆pJB-B601均可纠正变种RH983的胞外多糖合成缺陷。pJB-B601的2．3kbDNA片段的核苷酸顺序表明,该片段内存在一个完整的开放阅读框架（ORF）。ORF全长1170bp,编码390个氨基酸的蛋白,该蛋白与Rhi－zobiummeliloti的糖基转移酶ExoL有56．7％．的同源性,称为RhexoL。利用启动子探测质粒,构建了RhexoL-lacZ转录融合子,发现RhexoL基因5’上游有较强的启动子活性。     

Plasmids and stability of symbiotic properties of Rhizobium trifolii.

A conjugal plasmid which encodes both peak nodulation genes and nitrogenase genes, and which is labeled with the transposon Tn5, was transferred to a wild-type Rhizobium trifolii strain to examine the stability and expression of the host range and fixation (Fix+) phenotypes. Transconjugates were isolated which were shown to initially form nitrogen-fixing nodules (Nod+ Fix+) on both clovers and peas. These hybrid strains were then repeatedly passaged through either pea or clover nodules or onto a solid agar medium to determine whether these broadened-host-range characteristics were stably maintained. An instability was noted in the capacity of some of these hybrids to form nitrogen-fixing nodules on all of the host plants used. The broadened nodulation ability was, however, more readily maintained. In some cases, the changes in the Nod+ Fix+ phenotype could be attributed to demonstrable changes in the plasmid profile of the hybrid strains, whereas in other cases no demonstrable plasmid alterations could be detected.     

Nitrogen-Fixing Nodules with Ensifer adhaerens Harboring Rhizobium tropici Symbiotic Plasmids

Ensifer adhaerens is a soil bacterium that attaches to other bacteria and may cause lysis of these other bacteria. Based on the sequence of its small-subunit rRNA gene, E. adhaerens is related to Sinorhizobium spp. E. adhaerens ATCC 33499 did not nodulate Phaseolus vulgaris (bean) or Leucaena leucocephala, but with symbiotic plasmids from Rhizobium tropici CFN299 it formed nitrogen-fixing nodules on both hosts. The nodule isolates were identified as E. adhaerens isolates by growth on selective media.     

Narrow- and Broad-Host-Range Symbiotic Plasmids of Rhizobium spp. Strains That Nodulate Phaseolus vulgaris

Agrobacterium transconjugants containing symbiotic plasmids from different Rhizobium spp. strains that nodulate Phaseolus vulgaris were obtained. All transconjugants conserved the parental nodulation host range. Symbiotic (Sym) plasmids of Rhizobium strains isolated originally from P. vulgaris nodules, which had a broad nodulation host range, and single-copy nitrogenase genes conferred a Fix⁺ phenotype to the Agrobacterium transconjugants. A Fix⁻ phenotype was obtained with Sym plasmids of strains isolated from P. vulgaris nodules that had a narrow host range and reiterated nif genes, as well as with Sym plasmids of strains isolated from other legumes that presented single nif genes and a broad nodulation host range. This indicates that different types of Sym plasmids can confer the ability to establish an effective symbiosis with P. vulgaris.     

Plasmids and saprophytic growth of Rhizobium leguminosarum bv. trifolii W14-2 in soil

Abstract: The role of plasmids in the saprophytic growth of Rhizobium is mostly unknown. Plasmid-cured and complemented derivatives of R. leguminosarum bv. trifolii strain W14-2 were used to investigate the role of plasmids in the growth of this strain in sterile soil incubated under favorable moisture and temperature conditions. Strain W14-2 contains four plasmids ( a,b,c,d ). Absence of single plasmids in plasmid-cured derivatives generally did not reduce growth in soil when compared to the wild-type but absence of plasmid a delayed growth. Derivatives were unable to grow in soil when only plasmids a or d were present in cells. When only plasmids b or c were present, growth was delayed and the final population in 7 days was approximately 10% of the wild-type population. When the wild-type was co-inoculated at equal population into soil with derivatives lacking plasmids a , c , or d, the population of the wild-type at 7 days incubation was approximately 10 times larger than those of the derivatives. Elimination of only plasmid b did not reduce the ability of the strain to grow in soil when competing with the wild-type. Plasmids were involved in saprophytic growth of strain W14-2 in soil and may be important to the ecology of Rhizobium .     

Variation in Colony Characteristics and Symbiotic Effectiveness of Rhizobium

Seventeen cultures of Rhizobium CB756 varied in symbiotic effectiveness and contained a number of different colony types. An examination of single colony isolates from one culture of CB756 indicated that colony characteristics of most isolates were unstable and did not breed true. There was a relationship between symbiotic effectiveness and colony type of the original isolate. The 3 most ineffective sub-strains were all isolated from large, gummy colonies whereas the most effective were isolated from pinpoint, dry colonies.     

Transposon Mutagenesis and Excision of R' Plasmids by Conjugative, Chimeric Plasmid pUW942 in Extra-Slow-Growing Rhizobium japonicum Strains

Transposons Tn501 (specifying mercury resistance) and Tn7 (specifying resistance to trimethoprim and streptomycin) were introduced into extra-slow-growing Rhizobium japonicum by conjugal transfer of the 82 kilobase chimeric plasmid pUW942. Mercury-resistant transconjugants were obtained at a frequency of 10 to 10. The transfer frequency of streptomycin resistance was lower than that of mercury resistance, and Tn7 was relatively unstable. pUW942 was not maintained as an autonomously replicating plasmid in R. japonicum strains. However, some of the Hg transconjugants from the RJ19FY, RJ17W, and RJ12S strains acquired antibiotic markers of the vector plasmid pUW942. Southern hybridization of plasmid and chromosomal DNA of R. japonicum strains with P-labeled pUW942 and pAS8Rep-1, the same plasmid as pUW942 except that it does not contain Tn501, revealed the formation of cointegrates between pUW942 and the chromosome of R. japonicum. More transconjugants with only Tn501 insertions in plasmids or the chromosome were obtained in crosses with strains RJ19FY and RJ17W than with RJ12S. These retained stable Hg both in plant nodules and under nonselective in vitro growth conditions. One of the RJ19FY and two of the RJ12S Hg transconjugants with vector plasmid-chromosome cointegrates conjugally transferred plasmids of 82, 84 or 86, and 90 kilobases, respectively, into plasmidless Escherichia coli C. These plasmids strongly hybridized to pUW942 and EcoRI digests of total DNA of each respective R. japonicum strain but not to indigenous plasmid DNA of the R. japonicum strains. These R' plasmids consisted of pUW942-specific EcoRI fragments and an additional one or two new fragments derived from the R. japonicum chromosome.     

Competition for Astragalus sinicus root nodule infection between its native microsymbiont Rhizobium huakuii bv. renge B3 and Rhizobium sp. ACMP18 strain, specific for Astragalus cicer

Rhizobium huakuii bv. renge B3, a native symbiont of Astragalus sinicus, outcompeted Rhizobium sp. strain ACMP18, which was isolated from Astragalus cicer nodules, in the formation of root nodules on A.␣sinicus when plants were co-inoculated with these strains. The strains occupying the nodules were identified by antibiotic resistance and phage sensitivity markers and also by polymerase chain reaction (PCR) genomic fingerprintings, which were performed by using enterobacterial repetitive intergenic consensus sequences. In PCR genomic fingerprintings, the total genomic DNA isolated from pure bacterial culture and from squashed root nodules showed identical profiles, indicating that this technique can be a useful tool for identification of rhizobia in ecological studies. When Rhizobium sp. strain ACMP18 outnumbered R. huakuii bv. renge strain B3 by a factor of ten, and even when strain ACMP18 was added to plants 1 week before bacterization with strain B3, the strain B3 occupied most nodules. Dually infected nodules were not observed, although Rhizobium sp. ACMP18 formed active nodules on A. sinicus when the bacterial strain was inoculated alone. Received: 5 February 1998 / Received revision: 23 March 1998 / Accepted: 27 April 1998     

Relationship of the Presence and Copy Number of Plasmids to Exopolysaccharide Production and Symbiotic Effectiveness in Rhizobium fredii USDA 206

Rhizobium fredii USDA 206 harbors four large plasmids, one of which carries nodulation and nitrogen fixation genes. Previously isolated groups of plasmid-cured derivatives of strain USDA 206 were compared with each other to determine possible plasmid functions. Mutant strain 206CANS was isolated as a nonmucoid (Muc⁻) derivative of strain 206CA, a mutant that was cured of two plasmids. The Muc⁻ phenotype of 206CANS was only expressed when the strain was grown on certain media, particularly those with polyols as carbon sources. Plasmid pRj206b of strain 206CANS was previously shown to have a higher copy number than the same plasmid in strains USDA 206 and 206CA. When this plasmid was transferred to Muc⁺ strains, it conferred a nonmucoid phenotype on recipient strains. The symbiotic effectiveness of the wild-type and cured strains was compared. Overall, few differences were shown, but strains 206CA and 206CANS were found to have higher nitrogenase activities than the other strains. Thus, there appeared to be a possible relationship among exopolysaccharide synthesis, plasmid copy number, and symbiotic effectiveness.     

Characterisation of Mesorhizobium huakuii cyclic beta-glucan

Periplasmic and extracellular glucans of Mesorhizobium huakuii were isolated and characterized by compositional and MALDI-TOF analyses, as well as 1H and 13C NMR spectroscopy. It was shown that M. huakuii produces a cyclic beta-glucan composed entirely of nonbranched glucose chains and unmodified by nonsugar substituents. The degree of polymerisation of the cyclic oligosaccharides was estimated to be in the range from 17 to 28. The most abundant glucan molecules contained 22 glucose residues. Glucose residues within the glucan were connected by beta-(1,2) glycosidic linkages. The cyclic glucan produced by M. huakuii is quite similar to the periplasmic beta-(1,2) glucans synthesized by Agrobacterium and Sinorhizobium genera. The synthesis of beta-glucan in M. huakuii is osmoregulated and this glucan could function as an osmoprotectant in free living cells.     

Plasmids in Nitrobacter

A screening of nine Nitrobacter strains showed that Nitrobacter X14 and Nitrobacter Y possess plasmids designated as pNH1 and pNH2, respectively. The plasmids pNH1 and pNH2 had molecular weights of about 76 Mdal as estimated by agarose gel electrophoresis. They showed similar cleavage patterns when digested with EcoRI, HindIII or BamHI. Electron microscopic investigations exhibited that the plasmid pNH1 had a contour length of 36.9 m corresponding to a molecular weight of 76 Mdal.     

Plasmids in Listeria

Thirty-two Listeria strains, including L. monocytogenes of the different Seeliger serovars, L. grayi and L. murrayi, have been analyzed for the presence of plasmids. A cryptic plasmid of 38.5 Md was found in seven strains: in four L. monocytogenes (serovars $\text{1}\text{2}\text{c}$, 4b, 4d, and Ivanov 1), and in both the L. grayi and the single L. murrayi strains. Restriction enzyme cleavage analysis with two restriction enzymes suggests that the plasmid is a single molecular species, pRYC16. Conjugation experiments between Streptococcus agalactiae BM6101 containing the resistance plasmid pIP501 and L. monocytogenes, L. grayi, or L. Murrayi demonstrated that pIP501 is transferred to Listeria at a mean frequency of 10^?6. pIP501 is fully expressed in Listeria and promotes its own transfer between strains of Listeria and from Listeria back to Streptococcus. It is suggested that a circulation of plasmids can take place among members of the genera Listeria and Streptococcus.     

Transposon Mutagenesis and Excision of R′ Plasmids by Conjugative, Chimeric Plasmid pUW942 in Extra-Slow-Growing Rhizobium japonicum Strains

Transposons Tn501 (specifying mercury resistance) and Tn7 (specifying resistance to trimethoprim and streptomycin) were introduced into extra-slow-growing Rhizobium japonicum by conjugal transfer of the 82 kilobase chimeric plasmid pUW942. Mercury-resistant transconjugants were obtained at a frequency of 10⁻⁷ to 10⁻⁹. The transfer frequency of streptomycin resistance was lower than that of mercury resistance, and Tn7 was relatively unstable. pUW942 was not maintained as an autonomously replicating plasmid in R. japonicum strains. However, some of the Hg^r transconjugants from the RJ19FY, RJ17W, and RJ12S strains acquired antibiotic markers of the vector plasmid pUW942. Southern hybridization of plasmid and chromosomal DNA of R. japonicum strains with ³²P-labeled pUW942 and pAS8Rep-1, the same plasmid as pUW942 except that it does not contain Tn501, revealed the formation of cointegrates between pUW942 and the chromosome of R. japonicum. More transconjugants with only Tn501 insertions in plasmids or the chromosome were obtained in crosses with strains RJ19FY and RJ17W than with RJ12S. These retained stable Hg^r both in plant nodules and under nonselective in vitro growth conditions. One of the RJ19FY and two of the RJ12S Hg^r transconjugants with vector plasmid-chromosome cointegrates conjugally transferred plasmids of 82, 84 or 86, and 90 kilobases, respectively, into plasmidless Escherichia coli C. These plasmids strongly hybridized to pUW942 and EcoRI digests of total DNA of each respective R. japonicum strain but not to indigenous plasmid DNA of the R. japonicum strains. These R′ plasmids consisted of pUW942-specific EcoRI fragments and an additional one or two new fragments derived from the R. japonicum chromosome.     

Characteristics and regulation of ammonium (methylammonium) transport in Rhizobium meliloti

Abstract Rhizobium meliloti can synthesize an ammonium carrier as demonstrated by concentrative methylammonium uptake ( K _m= 2 μ M), which is competitively inhibited by ammonium ( K _i= 1.2 μ M). The carrier is under nitrogen control: its synthesis is repressed by ammonium, glutamine and asparagine. The asparagine effect may be of importance for the transfer of ammonia from the bacterium to the plant in the nodule.     

Plasmids in Leuconostoc oenos

A new procedure was used to isolate 11 plasmids from eight Leuconostoc oenos strains. Plasmid DNA was not detected in 34 other strains of this species. Plasmid sizes ranged from 2.47 to 4.61 kilobase pairs. This is the first report of extrachromosomal elements in L. oenos.     

Plasmids in Staphylococcus hyicus

Fifty-one strains of Staphylococcus hyicus and six of Staph, chromogenes were collected from porcine and bovine sources in England and Belgium. Antibiotic resistance and plasmid profiles were established. Plasmids associated with resistance to tetracycline, erythromycin and streptomycin were identified in many strains; these plasmids were about the same size as those mediating similar resistances in Staph. aureus of human origin. Many small cryptic plasmids were also seen.