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     

The uptake and hydrolysis of disaccharides by fast-and slow-growing species of Rhizobium

Slow growing strains of rhizobia appear to lack both uptake systems and catabolic enzymes for disaccharides. In the fast-growing strains of rhizobia there are uptake mechanisms and catabolic enzymes for disaccharide metabolism. In Rhizobium leguminosarum WU 163 and WU235 and R. trifolii WU290, sucrose and maltose uptake appears to be constitutive whereas in R. meliloti WU60 and in cowpea Rhizobium NGR234 uptake of these disaccharides is inducible. There is evidence that there are at least two distinct disaccharide uptake systems in fast-growing rhizobia, one transporting sucrose, maltose and trehalose and the other, lactose. Disaccharide uptake is via an active process since uptake is inhibited by azide, dinitrophenol and carbonyl cyanide m-chlorophenylhydrazone but not by arsenate. Bacteroids of R. leguminosarum WU235 and R. lupini WU8 are unable to accumulate disaccharides.     

Siderophore and organic acid production in root nodule bacteria

Nineteen strains of root nodule bacteria were grown under various iron regimes (0.1, 1.0 and 20 M added iron) and tested for catechol and hydroxamate siderophore production and the excretion of malate and citrate. The growth response of the strains to iron differed markedly. For 12 strains (Bradyrhizobium strains NC92B and 32H1, B. japonicum USDA110 and CB1809, B. lupini WU8, cowpea Rhizobium NGR234, Rhizobium meliloti strains U45 and CC169, Rhizobium leguminosarum bv viciae WU235 and Rhizobium leguminosarum bv trifolii strains TA1, T1 and WU95) the mean generation time showed no variation with the 200-fold increase in iron concentration. In contrast, in Bradyrhizobium strains NC921, CB756 and TAL1000, B. japonicum strain 61A76 and R. leguminosarum bv viciae MNF300 there was a 2–5 fold decrease in growth rate at low iron. R. meliloti strains WSM419 and WSM540 showed decreased growth at high iron.All strains of root nodule bacteria tested gave a positive CAS (chrome azurol S) assay for siderophore production. No catechol-type siderophores were found in any strain, and only R. leguminosarum bv trifolii T1 and bv viciae WU235 produced hydroxamate under low iron (0.1 and 1.0 M added iron).Malate was excreted by all strains grown under all iron regimes. Citrate was excreted by B. japonicum USDA110 and B. lupini WU8 in all iron concentrations, while Bradyrhizobium TAL1000, R. leguminosarum bv viciae MNF300 and B. japonicum 61A76 only produced citrate under low iron (0.1 and/or 1.0 M added iron) during the stationary phase of growth.Abbreviations CAS chrome azurol S - HDTMA hexadecyltrime-thylammonium bromide     

Evidence for two uptake systems in Rhizobium leguminosarum for hydroxy-aromatic compounds metabolized by the 3-oxoadipate pathway

Rhizobium leguminosarum biovar viciae and Rhizobium leguminosarum biovar trifolii have separate uptake systems for 4-hydroxybenzoate and protocatechuate. The 4-hydroxybenzoate uptake system (pobP) is inhibited by a range of compounds with substitution at the 4-position on the aromatic ring whereas the uptake system for protocatechuate (pcaP) is markedly inhibited only by other dihydroxybenzoic acids. The rate of 4-hydroxybenzoate uptake is very low in Rhizobium leguminosarum and Rhizobium trifolii grown on protocatechuate but mutants defective in 4-hydroxybenzoate uptake transport protocatechuate at rates similar to the wild-type grown under similar conditions.     

Effect of divalent cations on succinate transport in Rhizobium tropici,R. leguminosarum bv phaseoli and R. loti

Rhizobium tropici, R. leguminosarum bv phaseoli and R. loti each have an active C₄-dicarboxylic acid transport system dependent on an energized membrane. Free thiol groups are probably involved at the active site. Since EDTA inhibited succinate transport in R. leguminosarum bv phaseoli and R. loti, divalent cations may participate in the process; the activity was reconstituted by the addition of Ca²⁺ or Mg²⁺. However, EDTA had no effect on succinate transport in R. tropici, R. meliloti or R. trifolii strains. Ca²⁺ or Mg²⁺ had a similar effect on the growth rates of R. tropici and R. leguminosarum bv phaseoli; R. tropici did not require Ca²⁺ to grow on minimal medium supplemented with succinate but R. leguminosarum bv phaseoli required either or both of the divalent cations Ca²⁺ and Mg²⁺. A R. tropici Mu-dI (lacZ) mutant defective in dicarboxylic acid transport, was isolated and found unable to form effective bean nodules.The authors are with the Division of Biochemistry, Instituto de Investigaciones Biológicas Clemente Estable, Avda, Italia 3318, 11.600 Montevideo, Uruguay     

On the effects of some pesticides on Rhizobium and isolation of pesticide-resistant mutants

Summary The in vitro effects on Rhizobium of two herbicides and two fungicides that are often used in Sweden were studied. The sensitivity of the strains seems to be specific since the Rhizobium meliloti strains generally were tolerating higher doses of pesticides than strains of Rh. trifolii and Rh. leguminosarum. It was possible to isolate mutants that tolerated much higher doses of the pesticides than the wild type strains.     

Growth regulators,Rhizobium and nodulation in peas

The cytokinin content of roots and nodules of pea and the culture supernatants from two strains of Rhizobium leguminosarum has been examined. Roots, nodules and wild-type Rhizobium culture medium contained very little cytokinin as indicated by bioassay. Chemical ionisation gas chromatography-mass spectrometric analysis of the isopentenyladenine content of the culture medium from the Rhizobium strains confirmed that the content of the wild-type was low (approx. 1 ng dm^-3) but that it was increased by the introduction of the Agrobacterium Ti plasmid into the Rhizobium strain.Abbreviations CI chemical ionisation - GCMS gas chromatography-mass spectrometry - HPLC high performance liquid chromatography - iPAde isopentenyladenine - MIM multiple ion monitoring     

Glucose uptake by free living and bacteroid forms of Rhizobium leguminosarum

Free living cells of Rhizobium leguminosarum contain a constitutive glucose uptake system, except when they are grown on succinate, which appears to prevent its formation. Bacteroids isolated from Pisum sativum L fail to accumulate glucose although they actively take up ¹⁴C-succinate. Glucose uptake in free living cells is an active process since uptake was inhibited by azide, cyanide, dinitrophenol and carbonyl-m-chlorophenyl hydrazone but not by fluoride or arsenate. The non-metabolizable analogue -methyl glucose was extracted unchanged from cells, showing that it was not phosphorylated during its transport. Galactose also appears to the transported via the glucose uptake system. Organic acids, amino acids and polyols had no effect on the actual uptake of glucose. The K _m for -methyl glucose uptake was 2.9×10^-4 M.     

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.     

Degradation of aromatic compounds byRhizobium spp.

Summary The ability of rhizobia to utilize catechol, protocatechuic acid, salicylic acid, p-hydroxybenzoic acid and catechin was investigated. The degradation pathway of p-hydroxybenzoate byRhizobium japonicum, R. phaseoli, R. leguminosarum, R. trifolii andRhizobium sp. isolated from bean was also studied.R. leguminosarum, R. phaseoli andR. trifolii metabolized p-hydroxybenzoate to protocatechuate which was cleaved by protocatechuate 3,4-dioxygenasevia ortho pathway.R. japonicum degraded p-hydroxybenzoate to catechol which was cleaved by catechol 1,2-dioxygenase.Rhizobium sp., a bean isolate, dissimilatedp-hydroxybenzoate to salicylate. Salicylate was converted to gentisic acid prior to ring cleavage. The rhizobia convertedp-hydroxybenzoate to Rothera positive substance. Catechol and protocatechuic acid were directly cleaved by the species.R. japonicum converted catechin to protocatechuic acid.     

Nodulation of Trifolium repens with modified Bradyrhizobium and the nodulation of Parasponia with Rhizobium leguminosarum biovar trifolii

Thirty one strains of Rhizobium leguminosarum biovar trifolii isolated from the North and South American continents, New Guinea, USSR, Turkey and Australia, nodulated P. andersonii ineffectively when grown in plant growth tubes and in Leonard jars. Nodules were slow to form, sometimes taking over 100 days. Reisolates of R. leguminosarum biovar trifolii from P. andersonii nodulated Trifolium repens and their identity was confirmed using serological techniques. Dual occupation of nodules by Rhizobium and Bradyrhizobium in P. andersonii is reported. The reduced effectiveness of the Bradyrhizobium symbiosis depended on the relative numbers of Rhizobium occupants in this dual system. R. leguminosarum biovar trifolii and Bradyrhizobium strains from Parasponia were able to co-exist in nodules on P. andersonii and maintain similar populations in the rhizosphere and on culture media. Bradyrhizobium strains, separated from R. leguminosarum biovar trifolii, were able to initiate and form nodule-like structures on T. repens. Bradyrhizobium bacteria were identified as the sole occupants of the cells of the nodule-like structures on Trifolium repens using an immunogold labelling technique applied to ultrathin sectins. The re-isolates of Bradyrhizobium obtained from these nodule-like structures on T. repens were able to effectively nodulate P. andersonii.     

Hydrogen-stimulated CO2 fixation and coordinate induction of hydrogenase and ribulosebiphosphate carboxylase in a H2-uptake positive strain of Rhizobium japonicum

H₂-uptake positive strains (122 DES and SR) and H₂-uptake negative strains SR2 and SR3 of Rhizobium japonicum were examined for ribulosebisphosphate (RuBP) carboxylase and H₂-uptake activities during growth conditions which induced formation of the hydrogenase system. The rate of ¹⁴CO₂ uptake by hydrogenase-derepressed cells was about 6-times greater in the presence than in the absence of H₂. RuBP carboxylase activity was observed in free-living R. japonicum strains 122 DES or SR only when the cells were derepressed for their hydrogenase system. Hydrogenase and RuBP carboxylase activities were coordinately induced by H₂ and both were repressed by added succinate. Hydrogenase-negative mutant strains SR2 and SR3 derived from R. japonicum SR showed no detecyable RuBP carboxylase activities under hydrogenase derepression conditions. No detectable RuBP carboxylase was observed in bacteroids formed by H₂-uptake positive strains R. japonicum 122 DES or SR. Propionyl CoA carboxylase activity was consistently observed in extracts of cells from free-living cultures of R. japonicum but activity was not appreciably influenced by the addition of H₂. Neither phosphoenolpyruvate carboxylase nor phosphoenolpyruvate carboxykinase activity was detected in extracts of R. japonicum.Abbreviations RuBP Ribulose 1,5-bisphosphate - (Na₂EDTA) (Ethylenedinitrilo)-tetraacetic acid, disodium salt - (propionyl CoA) Propionyl coenzyme A - (PEP) Phosphoenolpyruvate - (GSH) Reduced glutathione - (Tricine) N-tris(hydroxymethyl)-methylglycine     

Neighbourhood effect of genotypes of Rhizobium leguminosarum biovar trifolii, Trifolium repens and Lolium perenne

 Ryegrass, white clover and Rhizobium isolated from the corresponding clover nodules, were harvested from a natural pasture in the Massif Central mountains (France). The specificity between Lolium, Trifolium and Rhizobium, and the genetic diversity of Rhizobium were examined. This study showed that: 1) Natural neighbouring combinations of white clover and ryegrass, re-planted together in pots, accumulated a higher biomass than non-neighbouring ones. This increase of mass is higher in the presence of the native strain of Rhizobium. 2) When white clover was inoculated with a mixture of Rhizobium strains, nodules were more often formed by its native strain. 3) The genetical diversity of the Rhizobium leguminosarum biovar trifolii was very high, as revealed by electrophoresis of esterases on seven substrates. These results support the hypothesis that there is a co-adaptation between white clover, ryegrass and Rhizobium Received: 25 March 1996 / Accepted: 13 September 1996     

Effect of amaranth on the growth of Rhizobium and Bradyrhizobium strains

The growth rate of different strains of Bradyrhizobium and Rhizobium was studied in media containing amaranth seed meal instead of yeast extract. Results obtained in erlenmeyer flasks and stirred fermenters show that both Bradyrhizobium japonicum strains E109, E110, 5019, 587 and Rhizobium melilotistrains B36, B323, B399, Lq₂₂, Lq₄₂, Lq₅₁ and U₃₂₂, grow satisfactorily in amaranth seed meal medium. Cell count obtained for the strains tested was greater than 4 × 10¹⁰ viable cells.ml^–1. Amaranth seed meal (4 g.l^–1) is a suitable component for culture media that can be used instead of yeast extract.     

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     

Subnanomolar concentrations of membrane chitolipooligosaccharides from Rhizobium leguminosarum biovar trifolii are fully capable of eliciting symbiosis-related responses on white clover

Axenic seedling bioassays were performed on white clover, vetch, and alfalfa to assess the variety and dose responses of biological activities exhibited by membrane chitolipooligosaccharides (CLOSs) from wild type Rhizobium leguminosarum bv. trifolii ANU843. Subnanomolar concentrations of CLOSs induced deformation of root hairs (Had) and increased the number of foci of cortical cell divisions (Ccd) in white clover, some of which developed into nodule meristems. In contrast, ANU843 CLOSs were unable to induce Had in alfalfa and required a 10⁴-fold higher threshold concentration to induce this response in vetch. Also, ANU843 CLOSs were not mitogenic on either of these non-host legumes. In addition, CLOS action also increased chitinase activity in white clover root exudate. Thus, the membrane CLOSs from wild type R. leguminosarum bv. trifolii are fully capable of eliciting various symbiosis-related responses in white clover in the same concentration range as extracellular CLOSs of other rhizobia on their respective legume hosts. These results and our earlier studies indicate that membrane CLOSs represent one of many different classes of bioactive metabolites made by R. leguminosarum bv. trifolii which elicit more intense symbiosis-related responses in white clover than in other legumes. Therefore, CLOSs evidently play an important role in symbiotic development, but they may not be the sole determinant of host-range in the Rhizobium-clover symbiosis.Abbreviations Ccd cortical cell division - CLOS chitolipooligosaccharide - Had root hair deformation     

Presence of an X AG − carrier in frog (Rana esculenta) red blood cells

Evidence is presented that the high levels of internal l-glutamic and l-aspartic acid in frog Rana esculenta red blood cells are due to the existence of a specific carrier for acidic amino acids of high affinity K _m = 3 m and low capacity (V_max) 0.4 mol l-Glu · Kg^–1 dry cell mass · 10 min^–1. It is Na+ dependent and the incorporation of l-glutamic acid can be inhibited by l and d-aspartate and l-cysteic acid, while d-glutamic does not inhibit. Moreover, this glutamic uptake shows a bell-shaped dependence on the external pH. All these properties show that this carrier belongs to the system X _AG ^– family. Besides the incorporation through this system, l-glutamic acid is also taken up through the ASC system, although, under physiological conditions, this transport is far less important, since it has relatively low affinity K _m 39 m but high capacity (V _max) 1.8 mol l-Glu · Kg^–1 dry cell mass · 10 min^–1.     

Identification and characterization of plasmids in hydrogen uptake positive and hydrogen uptake negative strains ofRhizobium japonicum

Modifications were made of published procedures to allow routine isolation of plasmids fromRhizobium japonicum. The plasmid profiles of a series of H₂ uptake positive and H₂ uptake negative strains were compared. None of the strains ofR. japonicum with high H₂ uptake activities exhibited discernible plasmids, while most of the strains, with little or no H₂ uptake activity, showed plasmids with molecular weights ranging from approximately 49–290 x10⁶. An examination of H₂ uptake negative mutants derived from an H₂ uptake positive parent revealed two discernible plasmid bands in nonrevertible mutants but no detectable plasmids in revertible mutants or in the parent strain from which mutants were derived.     

Studies on the respiration of efficient and inefficient strains of Rhizobium

Summary In a pot culture experiment using sterilised soil, growth and nitrogen content of Berseem (Trifolium alexandrinum) inoculated with 15 strains of Rhizobium trifolii and of pea (Pisum sativum) inoculated with 10 strains of Rhizobium leguminosarum were found to vary considerably depending on the strains of the respective Rhizobium used. Out of the 15 strains of Rhizobium trifolii, 6 strains were found to be highly efficient (increasing the nitrogen content by more than 70 per cent over the control-uninoculated) and the rest as either moderately efficient (increase in N by 30–50 per cent) or inefficient (increase in N by 4 to 20 per cent) strains. Similarly, out of the 10 strains of Rhizobium leguminosarum 5 strains were found to be highly efficient, 1 moderately efficient and the rest were more or less inefficient strains.The respiration rate (l O₂ consumed per hour per mg dry cells) of efficient and inefficient strains of Rhizobium trifolii and Rhizobium leguminosarum in glucose, maltose and mannitol substrate did not bear any relation to their efficiency. However, the stimulation of the respiratory rate of the Rhizobium strains due to the addition of glycine to the glucose substrate was found to be significantly more in case of efficient strains of Rhizobium trifolii and Rhizobium leguminosarum than those of the inefficient ones.The data presented in the paper is taken from the thesis submitted by the Senior author, to the P. G. School, IARI, N. Delhi, in 1968, for Ph. D. degree.