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1.
Rhizobium loti strain PN4115 (NZP2213 str-1) ineffectively nodulates Leucaena leucocephala, i.e., strain PN4115 induces nodulation (Nod+) and is able to invade these nodules (Inv+), but fails to fix nitrogen (Fix). Strain PN4115 does not synthesize a flavolan-binding polysaccharide (FBP), which is synthesized by the fully effective (Nod+Inv+Fix+) R. loti strain PN184 (NZP2037 str-1). The FBP may offer protection from prodelphinidin-rich flavolans synthesized by Lc. leucocephala. In this work, we show that exopolysaccharide (EPS)-negative mutants derived from strain PN4115 have a more severe ineffective phenotype (Nod+InvFix) on Lc. leucocephala than strain PN4115. This suggests that EPS from strain PN4115 is functional during invasion of Lc. leucocephala and that the requirement for EPS precedes the requirement for FBP. Received: 8 October 1996 / Accepted: 11 December 1996  相似文献   

2.
J. J. Patel 《Plant and Soil》1978,49(2):251-257
Summary Phage-resistant mutants were obtained from a fast-growing (NZP2037) and a slow-growing (CC814s) strain of Rhizobium nodulating Lotus. All the mutants were stable and did not differ from the original parent strain in their cultural characteristics. OnLotus pedunculatus the mutants of NZP2037 were as effective in N-fixation as the parent strain but most mutants of CC814s were less effective. These mutants of CC814s were also less effective than the parent strain on several other host plants.  相似文献   

3.
After 40 days of growth at 25°C, Lotus pedunculatus cav., cv. Maku plants infected with Rhizobium loti strain NZP2037 displayed similar relative growth rates but had twice the nodule mass and only one third the whole plant dry weight of plants infected with Bradyrhizobium sp. (Lotus) strain CC814s. In the NZP2037 symbiosis, the rate of CO2 evolution (per g dry weight of nodulated root) was 1.6 times as high as that in the CC814s symbiosis while the rate of C2H2 reduction (per g dry weight of nodule) was only 48% of that in the CC814s symbiosis. Studies of the effect of short term temperature changes on the gas exchange characteristics (CO2 and H2 evolution, C2H2 reduction) of these symbioses revealed wide differences in the optima for C2H2 reduction. Nodules infected with NZP2037 displayed maximal C2H2 reduction rates [157 μmol (g dry weight nodule)?1 h?1] at 12°C, whereas nodules infected with CC814s were optimal at 30°C [208 μmol (g dry weight nodule)?1 h?1]. These short term studies suggested that differences in temperature optima for N2 may have partially accounted for the poorer effectivity, at 25°C, of strain NZP2037 when compared with strain CC-814s. The relative efficiency [RE = 1 – (H2 evolution/C2H2 reduction)] of N2 fixation varied widely with temperature in the two symbioses, but there was a general trend toward higher RE with lower temperatures. The ratio of CO2 evolution: C2H2 reduction (mol/mol) in nodulated roots infected with CC814s was constant (ca 10 CO2/C2H2) between 5°C and 30°C, whereas in plants infected with NZP2037 it reached a minimal value of 3.3 CO2/C2H2 at 10°C and was 19 CO2/C2H2 at the growing temperature (25°C).  相似文献   

4.
Summary The effect of nutrient supply on nodule formation and competition between Rhizobium strains for nodulation ofLotus pedunculatus was studied. Limiting plant growth by decreasing the supply of nutrients in an otherwise nitrogen-free medium, increased the size but decreased the number and the nitrogenase activity of nodules formed by a fast-growing strain of Lotus Rhizobium (NZP2037). In contrast decreasing nutrient supply caused only a small decline in the size, number and nitrogenase activity of nodules formed by a slow-growing strain (CC814s). Providing small quantities of NH4NO3 (50 to 250 g N) to plants grown with a normal supply of other nutrients stimulated nodule development by both Rhizobium strains and increased the nitrogenase activity of the NZP2037 nodules. Differences in the level of effectiveness (nitrogen-fixing ability) of nodules formed by different Rhizobium strains on plants grown with a normal supply of nutrients were less apparent when the plants were grown with decreased nutrient supply or when the plants were supplied with low levels of inorganic N.Inter-strain competition for nodulation ofL. pedunculatus between the highly effective slow-growing strain CC814s and 7 other fast- and slow-growing strains, showed CC814s to form 42 to 100% of the nodules in all associations. The greater nodulating competitiveness of strain CC814s prevailed despite changes in the nutrient supply to the host plant. A tendency was observed for partially effective Lotus Rhizobium strains to become more competitive in nodule formation when plant growth was supplemented with low levels of inorganic nitrogen.  相似文献   

5.
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.  相似文献   

6.
Summary A 70 kbp segment of the megaplasmid from a broad host range Rhizobium strain (MPIK3030) was mapped with the aid of cosmid clones made in the vector pJB8. A 7.9 kbp EcoRI fragment from this region, 55 kbp away from the nif gene cluster, was shown to hybridize to the common nod genes from R. meliloti. Using several R. meliloti nod probes it was possible to delimit an 830 bp region as being the center of greatest homology. Sequence data from two sections of this region gave a nucleotide homology of 73.7% to the nodC gene of R. meliloti. Using Tn5 mutagenesis a clone was isolated carrying Tn5 in the highly homologous region. When tested on Macroptilium atropurpureum, this MPIK3030 derivative was shown to have a Nod phenotype. When the wild-type allele was reintroduced into the Tn5 mutant, nodulation was restored. Interspecies complementation also showed that both R. meliloti and Rhizobium sp. MPIK3030 nod regions were able to restore nodulation to Tn5-induced nodC mutants from either strain.Dedicated to Professor Georg Melchers to celebrate his 50-year association with the journal  相似文献   

7.
Vance, C. P., Reibach, P. H. and Pankhurst, C. E. 1987. Symbiotic properties of Lotus pedunculatus root nodules induced by Rhizobium loti and Bradyrhizobium sp. ( Lotus ).
Symbiotic properties of root nodules were evaluated in glasshouse-grown Lotus pedunculatus Cav. cv. Maku inoculated with either a fast-growing Rhizobium loti strain NZP2037 or a slow-growing Bradyrhizobium sp. ( Lotus ) strain CC814s. Although the nodule mass of plants inoculated with NZP2037 was twice that of plants inoculated with CC814s, the yield of NZP2037 shoots and roots was 50% that of CC814s shoots and roots. Nodules induced by Bradyrhizobium fixed substantially more N than nodules induced by R. loti. Glucose requirements [mol glucose (mol N2 fixed)-1] of nodules induced by CC814s and NZP2037 were 7.1 and 16.6, respectively. Nodule enzymes of carbon and nitrogen assimilation reflected the disparity of the two sym-bioses. Xylem sap of the symbiosis with the higher yield contained a higher concentration of asparagine [9.86 μmol (ml xylem sap)'] than did the lower yielding symbiosis [5.80 umol (ml xylem sap)"']. Nodule CO2 fixation was directly linked to nodule N assimilation in both symbioses. The results indicate that the difference between the two symbioses extend to nodule N and C assimilation and whole plant N transport. The data support a role for host plant modulation of bacterial efficiency and assimilation of fixed N.  相似文献   

8.
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.  相似文献   

9.
Rhizobium loti is a fast-growing Rhizobium species that has been described as a microsymbiont of plants of the genus Lotus. Nodulation studies show that Lotus plants are nodulated by R loti, but not by most other Rhizobium strains, indicating that R. loti produces specific lipo-chitin oligosaccharides (LCOs) which are necessary for the nodulation of Lotus plants. The LCOs produced by five different Rhizobium ioti strains have been purified and were shown to be N-acetylglucosamine pentasaccharides of which the non-reducing residue is N-methylated and N-acylated with c/s-vaccenic acid (C18:1) or stearic acid (C18:O) and carries a carbamoyl group. In one R. loti strain, NZP2037, an additional carbamoyl group is present on the non-reducing terminal residue. The major class of LCO molecules is substituted on the reducing terminal residue with 4-O-acetylfucose. Addition of LCOs to the roots of Lotus plants results in abundant distortion, swelling and branching of the root hairs, whereas spot inoculation leads to the formation of nodule primordia.  相似文献   

10.
Rhizobium loti NZP2037 and NZP2213, each cured of its single large indigenous plasmid, formed effective nodules on Lotus spp., suggesting that the symbiotic genes are carried on the chromosome of these strains. By using pSUP1011 as a vector for introducing transposon Tn5 into R. loti NZP2037, symbiotic mutants blocked in hair curling (Hac), nodule initiation (Noi), bacterial release (Bar), and nitrogen fixation (Nif/Cof) on Lotus pedunculatus were isolated. Cosmids complementing the Hac, Noi, and Bar mutants were isolated from a pLAFR1 gene library of NZP2037 DNA by in planta complementation and found to contain EcoRI fragments of identical sizes to those into which Tn5 had inserted in the mutants. The cosmids that complemented the mutants of these phenotypic classes did not share common fragments, nor did cosmids that complemented four mutants within the Noi class, suggesting that these symbiotically important regions are not tightly linked on the R. loti chromosome.  相似文献   

11.
Two nodule-specific Rhizobium loti compounds were identified in Lotus tenuis and Lotus pedunculatus nodules induced by strain NZP2037. One, a silver nitrate-positive cation called rhizolotine, has been characterized as the riboside of a novel alpha-hydroxyimino acid containing a 1,4,5,6-tetrahydropyrimidine ring (G. J. Shaw, R. D. Wilson, G. A. Lane, L. D. Kennedy, D. B. Scott, and G. J. Gainsford, J. Chem. Soc. Chem. Commun., p. 180-181, 1986), and the other, yellow-1, stains yellow with ninhydrin. Both compounds were degraded by R. loti NZP2037 but not by strains of Rhizobium meliloti, Rhizobium trifolii, or Agrobacterium tumefaciens. Under the conditions tested neither compound was able to serve as a sole source of C or N for growth of R. loti NZP2037. Rhizolotine and yellow-1 were found in nodules from a range of different legumes inoculated with NZP2037, suggesting that the Rhizobium and not the host plant determines their synthesis. Neither compound was found in nodulelike structures of L. pedunculatus induced by transposon Tn5-induced noninfectious (Inf-) mutants of NZP2037 or in similar structures induced by a transconjugant of NZP2037 containing the symbiotic (Sym) cointegrate plasmid pPN1 of R. trifolii. Both compounds were also absent in the ineffective nodules induced by the bacterial-release-negative (Bar-) mutant, strain PN239. However, both compounds were present in nodules induced by the fixation-negative (Fix-) mutant PN235 and in Fix+ nodules formed by a plasmid-cured derivative of NZP2037. These results would suggest that infection and bacterial release from the infection thread are necessary for nodule (symbiotic) synthesis of these compounds.  相似文献   

12.
Hybridization of crushed Lotus pedunculatus root nodules with 32P-labeled total genomic DNA probes was used to identify Rhizobium loti and Bradyrhizobium sp. (Lotus rhizobia). Probes always hybridized with homologous target DNA and frequently with DNAs of other strains from the same genus. Intergeneric hybridization did not occur. Results were comparable to those from colony hybridization.  相似文献   

13.
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).  相似文献   

14.
The morphology of root nodules formed on Lotus pedunculatusby two fast-growing strains of Rhizobium, NZP2037 which formseffective (nitrogen-fixing) nodules and NZP2213 which formsineffective (non-nitrogen-fixing) nodules, has been studied.The nodules formed by NZP2037 contained a central zone of bacteroid-filledplant cells surrounded by a cortex. In contrast the nodulesformed by NZP2213 contained no Rhizoblum-infected plant cells,but rhizobia were found in localized areas on the nodule surfaceand between the outer two or three cell layers of the nodule.Electron-dense osmiophilic deposits identified as flavolans(condensed tannins) were present in the vacuoles of many uninfectedplant cells in the nodules formed by both Rhizobium strains.This is the first time that flavolans have been positively identifiedin legume root nodules. In the NZP2037 nodule flavolans werepresent in the outer cortical and epidermal cells. In the ineffecitveNZP2213 nodule fiavolans were present in many of the centralnodule cells. The concentration of flavolan in the NZP2213 nodulewas 12 times higher than in the NZP2037 nodule.  相似文献   

15.
Measurements of multiplication in liquid culture indicated that fast-growing Lotus rhizobia (Rhizobium loti) were tolerant of acidity and aluminium (at least 50 μM A1 at pH 4.5). Slow-growing Lotus rhizobia (Bradyrhizobium sp. (Lotus)) were less tolerant of acidity but equally tolerant of A1. Both genera were able to nodulateLotus pedunculatus in an acid soil (pH 4.1 in 0.01M CaCl2) and the slow-growing strains were more effective than the fast-growing strains in this soil over 30 days.  相似文献   

16.
An extract from the roots of Lotus pedunculatus plants was foundto contain a compound toxic towards fast-growing Lotus rhizobia.This compound was identified as a flavolan, which has a prodeiphinidin:procyanidin ratio of 75:25. A fast-growing strain of Rhizobium(NZP2213) which forms ineffective root nodules on L. pedunculatuswas four times more sensitive to this flavolan (ED50 = 25 ?gml–1) than another strain (NZP2037, ED50 = 100 ?g ml–1)which forms effective root nodules on this species. The rootsof another Lotus species, L. tenuis, on which both strains ofRhizobium form effective root nodules, also contained a flavolan( 95% procyanidin) but both strains were relatively insensitiveto this flavolan (EDED50 = 350 to 500 ?g ml–1) L. pedunculatusplants bearing ineffective root nodules contained two to threetimes more flavolan in their roots (5–7 mg g–1 fr.wt.)than uninoculated control plants. Experiments with seven otherLotus species and with hybrid plants developed between L. pedunculatusand L. tenuis showed a relationship between the prodeiphinidin:procyanidin ratio of the flavolan in their roots and the effectivenessof root nodules formed on these plants by NZP2213. Quantitativebinding studies of the flavolan from L. pedunculatus to NZP2037and NZP2213 indicated that, while the affinity constants forbinding were similar for both strains, the surface of strainNZP2037 contained four times more binding sites than NZP2213,possibly correlating with this strain's ability to toleratehigher concentrations of this flavolan. It is suggested thatthe differential sensitivity of these two strains of Rhizobiumto flavolans is related to their ability to form effective rootnodules on Lotus species.  相似文献   

17.
Rhizobium loti strains NZP2037 and NZP2213 were each found to contain a single large plasmid: pRlo2037a (240 MDal) and pRlo2213a (120 MDal), respectively. Plasmid DNA present in crude cell lysates of each strain and purified pRlo2037a DNA did not hybridize with pID1, a recombinant plasmid containing part of the nitrogen fixation (nif) region of R. meliloti, indicating that nif genes were not present on these plasmids. The transposon Tn5 was inserted into pRlo2037a and this plasmid was then transferred into R. leguminosarum, R. meliloti and Agrobacterium tumefaciens. All transconjugants failed to nodulate Lotus pedunculatus, suggesting that the ability to nodulate this legume was also not carried on pRlo2037a. Transfer of pRlo2037a to R. loti strain NZP2213 did not alter the Nod+ Fix- phenotype of this strain for L. pedunculatus. Determinants for flavolan resistance, believed to be necessary for effective nodulation of L. pedunculatus, were not carried on pRlo2037a. These data suggest that nodulation, nitrogen fixation and flavolan resistance genes are not present on the large plasmid in R. loti strain NZP2037.  相似文献   

18.
Swanson JA  Tu JK  Ogawa J  Sanga R  Fisher RF  Long SR 《Genetics》1987,117(2):181-189
Rhizobium meliloti Nod- mutant WL131, a derivative of wild-type strain 102F51, was complemented by a clone bank of wild-type R. meliloti 1021 DNA, and clone pRmJT5 was recovered. Transfer of pRmJT5 conferred alfalfa nodulation on other Rhizobium species, indicating a role in host range determination for pRmJT5. Mutagenesis of pRmJT5 revealed several segments in which transposon insertion causes delay in nodulation, and/or marked reduction of the number of nodules formed on host alfalfa plants. The set of mutants indicated five regions in which nod genes are located; one mutant, nod-216, is located in a region not previously reported to encode a nodulation gene. Other mutant phenotypes correlated with the positions of open reading frames for nodH, nodF and nodE , and with a 2.2-kb EcoRI fragment. A mutant in nodG had no altered phenotype in this strain. One nodulation mutant was shown to be a large deletion of the common nod gene region. We present a discussion comparing the various studies made on this extended nod gene region.  相似文献   

19.
In iron-rich conditions, Pseudomonas aureofaciens PA147-2 produces an antibiotic-like compound that inhibits the growth of a plant fungal pathogen, Aphanomyces euteiches. To contribute to the potential use of PA147-2 as a biocontrol organism, we report the identification of a genetic locus important for antibiotic biosynthesis. Mutants defective for fungal inhibition (Af-) were generated by Tn5 mutagenesis. Southern hybridization of total DNAs from three Af- mutants indicated that loss of fungal inhibition was due to a single Tn5 insertion in each mutant. Restriction mapping of the mutation points showed that in two mutants the Tn5 insertions were in the same 16.0-kb EcoRI fragment and were separated by 2.1 kb. A genomic library of PA147-2 was constructed and screened by using a region of DNA flanking the Tn5 insertion in one mutant (PA109) as a probe to recover complementing cosmids. Three cosmids containing a 16.0-kb EcoRI fragment complementary to the two mutants were recovered. Allele replacement by homologous recombination with putative complementing cosmids restored one mutant to antifungal activity against A. euteiches. Southern analysis of the complemented mutants confirmed that allele replacement had occurred between cosmid DNA and Tn5. The wild-type 16.0-kb EcoRI fragment was cloned from the cosmid and complemented the two mutants to antifungal activity. An antifungal compound was isolated from PA147-2 grown on solid medium. Antifungal activity correlated to a peak on high-pressure liquid chromatography analysis. Under the same growth and extraction conditions, the antifungal activity seen in PA147-2 was absent in two Af- mutants. Furthermore, absence of an antifungal compound in each mutant correlated to the absence of the wild-type “antifungal” peak on high-pressure liquid chromatography analysis.  相似文献   

20.
Two divergent reports have been published on the genetic complementation of rhizobial nod mutants using Frankia DNA. In 1991 putative Frankia cosmid library clones were reported to restore normal nodulation properties to Rhizobium leguminosarum biovar viciaenodD::Tn5, but no supporting sequence data were published. In 1992 a second group reported a failure to find any evidence of functional complementation of various rhizobial nod mutants by Frankia DNA (nodA, nodB and nodC). Complementation tests of nine Nod R. leguminosarum bv. viciae or Sinorhizobium meliloti Tn5 mutants (nodA , nodB , nodC , nodD , nodF  , nodL , nodH ) were thus performed using a Frankia gene library in pLAFR3 to clarify this situation. Rhizobial transconjugants obtained by tri-parental matings were screened for restoration of the nodulation phenotype on their host plants, Vicia sativa subsp. nigra or Medicago sativa. Nodulation was observed on plants inoculated with transconjugants of the R. leguminosarum bv. viciaenodC::Tn5 mutant. The Nod+ rhizobial transconjugants were isolated and analysed. The Nod+ phenotype of these transconjugants was found to be due to Tn5 excision/transposition. No functional complementation was found with any of the mutants used, suggesting that rhizobial complementation of nod mutants with Frankia DNA is unlikely to occur. Received: 17 April 1998 / Accepted: 22 July 1998  相似文献   

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