Degradation of mandelate and 4-hydroxymandelate by Rhizobium leguminosarum biovar trifolii TA1

Rhizobium leguminosarum biovar trifolii TA1 grows on 4-hydroxymandelate and enzymes involved in its catabolism are inducible. Strain TA1 does not grown on mandelate or cis, cis-muconate, but spontaneous mutants capable of growth on these substrates were isolated. Enzymes involved in mandelate degradation were also inducible. The presence of intermediates of the mandelate and hydroxymandelate pathways resulted in a significant decrease in some of the enzymes involved in their degradation. Succinate and acetate, end products of the pathways, and glucose caused reductions in the levels of enzymes in the mandelate and hydroxymandelate pathways.     

Plasmid-mediated control of nodulation in Rhizobium trifolii

The nodulation ability was effectively eliminated from different Rhizobium trifolii strains incubated at elevated temperature (urkowski and Lorkiewicz, 1978). Non-nodulating (Nod^-) mutants were stable and no reversion of Nod^- to Nod⁺ phenotype was observed. Strains R. trifolii 24 and T12 which showed a high percentage of elimination of nodulation ability were examined in detail. Two plasmids were detected in strain 24 using neutral and alkaline sucrose gradient centrifugation of plasmid preparations. Molecular weights of the plasmids pWZ1 and pWZ2 were 460 Mdal and 190 Mdal, respectively. Rhizobium lysates labeled with ³H-thymidine and ultracentrifuged in caesium chloride — ethidium bromide gradients demonstrated a 40% reduction of the plasmid DNA content in R. trifolii 24 Nod^- mutants in comparison with the nodulating wild type strain 24. It was found further that non-nodulation of mutants 24 Nod^- was due to the absence of plasmid pWZ2. Sucrose gradient data also demonstrated that strain T12 contained two plasmids with molecular weights corresponding to those of pWZ1 and pWZ2, respectively. In Nod^- mutant clones derived from strain T12, pWZ2 plasmid was missing.Non Standard Abbreviations CCC covalently closed circular - OC open cirucular - Sarkosyl sodium N-lauroylsarcosinate     

Correlation between extracellular polysaccharide composition and nodulating ability inRhizobium trifolii

Summary Two auxotrophic mutants ofRhizobium trifolii which are deficient in nodulating ability have been isolated. Both mutants (strain RS 164 His^– and strain RS213 Leu^–) appear to synthesize abnormal extracellular polysaccharides as compared with the wild type strain RS 55. Simultaneous recovery of nodulating ability and wild type polysaccharide composition has been found in a Leu⁺ revertant of strain RS 213.Abbreviation EPS Extracellular Polysaccharide - NIG N-Methyl-N-Nitro-N-Nitrosoguanidine     

Rhizobium trifolii mutant defective in the structure of lipopolysaccharide

Rhizobium trifolii AR182, a mutant resistant to rhizobiophages lysing the parental strain AR5, formed abortive nodules on the clover plant roots. The polyacrylamide gel electrophoresis of the isolated lipopolysaccharide revealed only one band. On the other hand, the lipopolysaccharide isolated from the non-mucoid mutant R. trifolii AR16 showed several, regularly spaced bands in the high molecular weight region. The results suggest that R. trifolii AR182 is a rough (R)-mutant.Abbreviations LPS lipopolysaccharide - EPS exopolysaccharide - CPS capsular polysaccharide - DOC sodium deoxycholate - PAGE polyacrylamide gel electrophoresis - GC-MS gas liquid chromatography-mass spectrometry - KDO 2-keto-3-deoxy-octonic acid - Rha rhamnose - Fuc fucose - Man mannose - Gal galactose - Glc glucose - UA uronic acid     

Nodulation of specific legumes is controlled by several distinct loci in Rhizobium trifolii

Summary Three distinct loci (designated regions III, IV and V) were identified in the 14 kb Nod region of Rhizobium trifolii strain ANU843 and were found to determine the host range characteristics of this strain. Deletion of region III or region V only from the 14 kb Nod region affected clover nodulation capacity. The introduction to R. Leguminosarum of DNA fragments on multicopy vectors carrying regions III, IV and V (but not smaller fragments) extended the host range of R. leguminosarum so that infection threads and nodules occurred on white clover plants. The same DNA fragments were introduced to the Sym plasmid-cured strain (ANU845) carrying the R. meliloti recombinant nodulation plasmid pRmSL26. Plasmid pRmSL26 alone does not confer root hair curling or nodulation on clover plants. However, the introduction to ANU845 (pRmSL26) of a 1.4 kb fragment carrying R. trifolii region IV only, resulted in the phenotypic activation of marked root hair curling ability to this strain on clovers but no infection events or nodules resulted. Only the transfer of regions III, IV and V to strain ANU845 (pRmSL26) conferred normal nodulation and host range ability of the original wild type R. trifolii strain. These results indicate that the host range genes determine the outcome of early plant-bacterial interactions primarily at the stage of root hair curling and infection.     

The role of motility in the efficiency of nodulation by Rhizobium meliloti

Tn5 mutants of Rhizobium meliloti L5.30 defective in motility (Mot^-) were isolated and compared to the parent with respect to the nodulation activity. Each of the mutants was able to generate normal nodules on the alfalfa (Medicago sativa) but had slightly delayed nodule formation. Coinoculation of lucerne with wild type Mot⁺ and Mot^- cells in the wide range of ratios resulted in nodules occupied in the majority by a motile strain suggesting that motility is a factor involved in the competition for nodule formation.     

Ammonium uptake by cowpea Rhizobium strain MNF 2030 and Rhizobium trifolii MNF 1001

Free-living Rhizobium trifolii MNF 1001 and cowpea Rhizobium MNF 2030 grown in chemostat culture under nitrogen limitation had high activities of an ammonium permease. In phosphate-limited, nitrogen-excess conditions, strains MNF 1001 and MNF 2030 retained 20% and 50%, respectively, of the ammonium uptake activity found in nitrogen-limited cells. Uptake in both strains was sensitive to azide, cyanide, carbonyl cyanide m-chlorophenyl hydrazone and 2,4-dinitrophenol. A gradient of ammonium concentration greater than 150-fold developed across the membrane within 20 min in cells of strain MNF 1001 grown under ammonia limitation. The pH optimum for ammonium uptake by N-limited cells of both MNF 1001 and MNF 2030 was around pH 7. The apparent K _m values for the ammonium permease in strains MNF 2030 and MNF 1001 were 3.9±1.6 M and 2.0±1.6 M respectively, and the V _max was 47±2.6 nmol min^-1 (mg protein)^-1 for MNF 2030 and 101±5.1 nmol min^-1 (mg protein)^-1 for MNF 1001. Isolated snake bean bacteroids of strain MNF 2030 capable of transporting succinate and l-glutamate had no detectable ammonium uptake activity. It therefore appears that the ammonium permeases in cells of these two strains are not as tightly regulated as in R. leguminosarum MNF 3841.Abbreviations CCCP Carbonyl cyanide m-chlorophenyl hydrzone - HEPES N-Hydroxyethylpiperazine-N-2-ethanesulphonic acid     

repABC-based replication systems of Rhizobium leguminosarum bv. trifolii TA1 plasmids: incompatibility and evolutionary analyses

Soil bacteria of the genus Rhizobium possess complex genomes consisting of a chromosome and in addition, often, multiple extrachromosomal replicons, which are usually equipped with repABC genes that control their replication and partition. The replication regions of four plasmids of Rhizobium leguminosarum bv. trifolii TA1 (RtTA1) were identified and characterized. They all contained a complete set of repABC genes. The structural diversity of the rep regions of RtTA1 plasmids was demonstrated for parS and incα elements, and this was especially apparent in the case of symbiotic plasmid (pSym). Incompatibility assays with recombinant constructs containing parS or incα demonstrated that RtTA1 plasmids belong to different incompatibility groups. Horizontal acquisition was plausibly the main contributor to the origin of RtTA1 plasmids and pSym is probably the newest plasmid of this strain. Phylogenetic and incompatibility analyses of repABC regions of three closely related strains: RtTA1, R. leguminosarum bv. viciae 3841 and Rhizobium etli CFN42, provided data on coexistence of their replicons in a common genomic framework.     

Tn5 insertion mutants of Pseudomonas sp. 267 defective in siderophore production and their effect on clover (Trifolium pratense) nodulated with Rhizobium leguminosarum bv. trifolii

Pseudomonas sp. strain 267 isolated from soil promoted growth of different plants under field conditions and enhanced symbiotic nitrogen fixation in clover under gnotobiotic conditions. This strain produced pyoverdine-like compound under low-iron conditions and secreted vitamins of the B group. The role of fluorescent siderophore production in the beneficial effect of strain 267 on nodulated clover plants was investigated. Several non-fluorescent (Pvd^-) Tn5 insertion mutants of Pseudomonas sp. strain 267 were isolated and characterized. The presence of Tn5 insertions was confirmed by Southern analysis of EcoRI digested genomic DNA of each derivative strain. The siderophore-negative mutants were compared to the parental strain with respect to their growth promotion of nodulated clover infected with Rhizobium leguminosarum bv. trifolii 24.1. We found that all isolated Pvd^- mutants stimulated growth of nodulated clover plants in a similar manner to the parental strain. No consistent differences were observed between strain 267 and Pvd^- derivatives strains with respect to their plant growth promotion activity under gnotobiotic conditions.Dr Deryto died in august 1994     

Discrimination of Rhizobium japonicum,Rhizobium lupini,Rhizobium trifolii,Rhizobium leguminosarum and of bacteriods by uptake of 2-ketoglutaric acid,glutamic acid and phosphate

Rhizobium strains (one each of Rh.japonicum, Rh. lupini, Rh. leguminosarum) take up 2-ketoglutaric acid in general much faster and from lower concentrations in the medium than strains of Escherichia coli, Bacillus subtilis and Chromobacterium violaceum. A strain of Enterobacter aerogenes, however, is more similar to some Rhizobium strains. The same strains of Rhizobium take up also phosphate much faster and from lower concentrations than the other bacteria tested. 4 strains of Rh. lupini proved to be significantly different from 4 strains of Rh. trifolii in taking up l-glutamic acid from three to ten times lower concentration within 5 h. A similar difference was noticed between 5 strains of Rh. leguminosarum and 2 strains of Rh. japonicum for the uptake of 2-ketoglutaric acid and of l-glutamic acid. Isolated bacteriods from nodules of Glycine max var. Chippeway have a reduced uptake capacity for glutamic acid and for 2-ketoglutaric acid during the first 10–12 h, but reach the same value after 24 h as free living Rh. japonicum cells. The differences in the uptake kinetics are independent of cell concentration. The group II Rhizobium strains (Rh. japonicum and Rh. lupini, slow growing Rhizobium) are characterized by a rapid uptake of glutamic acid to a lowremaining concentration of 1–3×10^-7 M and an uptake of 2-ketoglutaric acid to a remaining concentration of 2–5×10^-7 M. The group I Rhizobium strains (Rh. trifolii and Rh. leguminosarum, fast growing Rhizobium), can be characterized by a much slower uptake of both substances with a more than ten times higher concentration of both metabolites remaining in the medium after the same time.     

Siderophore production and utilization byRhizobium trifolii

Summary Several strains ofRhizobium trifolii were tested for their ability to synthesize and utilize phenolate or hydroxamate types of siderophores. None of the nodulating strains ofR. trifolii was able to produce detectable amounts of siderophores. Only the non-nodulating strainR. trifolii AR6 formed a phenolate siderophore, which stimulated the growth of the siderophore-negative mutant AR65. Other strains ofR. trifolii could not utilize iron from exogenously supplied Desferal, pseudobactin or citrate. The siderophore fromR. trifolii AR6 and 2,3-dihydroxybenzoic acid slightly stimulated the growth of someR. trifolii strains.     

Organisation of nodulation and nitrogen fixation genes on a Rhizobium trifolii symbiotic plasmid

A Rhizobium trifolii symbiotic plasmid specific gene library was constructed and the physical organisation of regions homologous to nifHDK, nifA and nod genes was determined. These symbiotic gene regions were localised to u 25 kb region on the sym-plasmid, pPN1. In addition four copies of a reiterated sequence were identified on this plasmid, with one copy adjacent to nifH. No rearrangement of these reiterated sequences was observed between R. trifolii bacterial and bacteroid DNA. Analysis of a deletion derivative of pPN1 showed that these sequences were spread over a 110 kb region to the left of nifA.     

Host-specific nodulation is encoded on a 14kb DNA fragment in Rhizobium trifolii

Summary The Rhizobium trifolii genes necessary for nodule induction and development have been isolated on a 14.0kb fragment of symbiotic (Sym) plasmid DNA. When cloned into a broad-host-range plasmid vector, these sequences confer a clover nodulation phenotype on a derivative of R. trifolii which has been cured of its endogenous Sym plasmid. Furthermore, these sequences encode both host specificity and nodulation functions since they confer the ability to recognize and nodulate clover plants on Agrobacterium and a fast-growing cowpea Rhizobium. This indicates that the bacterial genes essential for the initial, highly-specific interaction with plants are closely linked.     

Specific and general effectiveness ofRhizobium trifolii populations from different agricultural locations

Summary The effectiveness ofRhizobium trifolii isolates from five locations in southern Britain representing contrasting soil types has been examined with five white clover varieties. The average effectiveness of Rhizobium isolates varied considerably as did the average productivity of plant varieties. The largest differences were, however, associated with Rhizobium population × plant variety interactions. These were often large enough to reverse relative yield differences between white clover varieties. The implications of these results for improving clover productivity in nitrogen fixation are discussed.     

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.     

Saprophytic competence of acid tolerant strains ofRhizobium trifolii in acid soil

Summary Laboratory prescreening ofRhizobium trifolii for acid tolerance, based upon the ability of rhizobia to grow in acid media (pH 4.2) containing Al (15 M), was successful for the selection of strains capable of survival in acid soil.Both sterile and non-sterile soils of varying acidity were inoculated with several strains ofR. trifolii.Acid tolerant strains generally had significantly higher populations at every sample period than an acid sensitive strain. Amelioration of soil acidity by liming improved persistence of all strains. Soil sterilization by autoclaving adversely affected survival of all strains at each soil acidity level.Paper Number 8766 of the Journal Series, North Carolina Agricultural Research Service, Raleigh, NC 27650, USA.     

The formation of R-prime deletion mutants and the identification of the symbiotic genes in Rhizobium fredii strain USDA191

Summary R-prime plasmids were formed between the plasmid of Rhizobium fredii strain USDA191 containing nodulation and nitrogen-fixation genes, pRjaUSDA191c, and pRL180, and RP1 derivative. R. fredii USDA191 contains four HindIII fragments that hybridize with an 8.7 kb EcoRI fragment that contains nodulation genes from R. meliloti. These four fragments are on pRjaUSDA191c and are 15.5 kb, 12.5 kb, 6.8 kb, and 5.2 kb in size. A series of R-primes generated in E. coli of pRjaUSDA191c were transferred into a Nod^- Nif^- derivative of strain USDA191 to determine which nodulation region is necessary for nodule formation. Transconjugants containing the 12.5 kb and the 6.8 kb HindIII fragments on segments of pRjaUSDA191c produced nodules on soybean plants. However, transconjugants containing the 12.5 kb HindIII fragment alone were unable to form nodules, suggesting that the 6.8 kb HindIII fragment or the 6.8 kb and the 12.5 kb HindIII fragments together were needed for nodule formation. The 6.8 kb HindIII fragment was subcloned into the vector pVK102 and transferred into transconjugants containing no sequences homologous to R. meliloti nodulation DNA or to transconjugants containing only the 12.5 kb HindIII fragment. Nodules were formed on soybeans only when both the 12.5 kb and the 6.8 kb HindIII fragments were present in R. frediistrain USDA191.     

Selection of Portuguese Rhizobium leguminosarum bv. trifolii strains for production of legume inoculants

From several native clover species, growing in six different soil types, 170 Rhizobium leguminosarum biovar trifolii strains were isolated, covering the central and southern regions of Portugal. The effectiveness of the strains varied from ineffective to highly effective on T. subterraneum cv. Clare and on T. fragiferum cv. Palestine, with a predominance of medium and high effectiveness on both host plants. The effectiveness was not influenced by provenence (soil or plant), except for the strains from the rankers soils and for the strains isolated from T. pratense, that were ineffective or medium effective on T. subterraneum.Selected strains were evaluated for effectiveness on T. subterraneum cv. Clare, using the commercial strain TA1 as reference. Several of the isolated strains were more effective than TA1, indicating that local strains may be used to produce better inoculants.     

Aromatic metabolism in Rhizobium trifolii-catechol 1,2-dioxygenase

Catechol 1,2-dioxygenase has been purified 46-fold from cells of Rhizobium trifolii TA1 grown on benzoate plus glucose. The dioxygenase had a molecular weight of 107,000 and a sub-unit molecular weight of 59,000. The enzyme had a K _m of 2 M for catechol and also cleaved 4-methylcatechol. The dioxygenase contained 2 g atoms of Fe³⁺ per mole of enzyme which could be removed by treatment with 1,10-phenanthroline, resulting in a complete loss of activity; reactivation of the enzyme occurred specifically with Fe³⁺.     

Competition studies withRhizobium trifolii in laboratory experiments

Summary Competition studies were carried out in soil cores by comparing the nodule forming ability of antibiotic resistance marked strains, inoculated at three inoculum levels onTrifolium repens versus an effective indigenous Rhizobium population of 1.5×10⁵/gm. It was seen that the indigenous marked isolate G1067 formed a high proportion of nodules sampled (>90%) at all three inoculum levels (10⁵, 10⁷ and 10⁹ cells/seed) wherein the introduced foreign strain G1032 formed >50% of the nodules at the highest inoculum level.In a test tube experiment, competition for nodule sites was examined by inoculating mixtures of twoR. trifolii strains at different input levels on two cultivars ofTrifolium repens var. Huia and Titan. It was seen that G1032 was less competitive than G1006 and G1067 on cv. Huia but was more competitive on cv. Titan than the other two strains.