Acquisition of an Agrobacterium Ri plasmid and pathogenicity by other alpha-Proteobacteria in cucumber and tomato crops affected by root mat

Root mat of cucumbers and tomatoes has previously been shown to be caused by Agrobacterium radiobacter strains harboring a root-inducing Ri plasmid (pRi). Nine other pRi-harboring alpha-Proteobacteria have subsequently been isolated from root mat-infected crops. Fatty acid profiling and partial 16S rRNA sequence analysis identified three of these strains as being in the genus Ochrobactrum, five as being in the genus Rhizobium, and one as being in the genus Sinorhizobium: An in vitro pathogenicity test involving inoculation of cucumber cotyledons was developed. All pRi-harboring alpha-Proteobacteria induced typical root mat symptoms from the cotyledons. Average transformation rates for rhizogenic Ochrobactrum (46%) and Rhizobium (44%) strains were lower than those observed for rhizogenic A. radiobacter strains (64%). However, individual strains from these three genera all had transformation rates comparable to those observed from cotyledons inoculated with a rhizogenic Sinorhizobium strain (75%).     

Acquisition of an Agrobacterium Ri Plasmid and Pathogenicity by Other α-Proteobacteria in Cucumber and Tomato Crops Affected by Root Mat

Root mat of cucumbers and tomatoes has previously been shown to be caused by Agrobacterium radiobacter strains harboring a root-inducing Ri plasmid (pRi). Nine other pRi-harboring α-Proteobacteria have subsequently been isolated from root mat-infected crops. Fatty acid profiling and partial 16S rRNA sequence analysis identified three of these strains as being in the genus Ochrobactrum, five as being in the genus Rhizobium, and one as being in the genus Sinorhizobium. An in vitro pathogenicity test involving inoculation of cucumber cotyledons was developed. All pRi-harboring α-Proteobacteria induced typical root mat symptoms from the cotyledons. Average transformation rates for rhizogenic Ochrobactrum (46%) and Rhizobium (44%) strains were lower than those observed for rhizogenic A. radiobacter strains (64%). However, individual strains from these three genera all had transformation rates comparable to those observed from cotyledons inoculated with a rhizogenic Sinorhizobium strain (75%).     

Transgenic roots produced by introducing Ri-rol genes into cucumber cotyledons by particle bombardment

Transformed roots ofCucumis sativus were obtained from cotyledon tissues that had been bombarded with gold particles coated with plasmid pE7.4 using a pneumatic particle gun. This plasmid containsrolA, rolB, rolC genes and ORF 13 of the 7.4 kbEco RI fragment of T-DNA of pRi 1724 isolated fromAgrobacterium rhizogenes MAF 03-01724. The nature of the tissue and the composition of the culture media used greatly influenced the recovery of transformed roots. The transgenic nature of the derived roots was confirmed by the vigorous. highly-branched growth seen on a phytohormone-free medium. The stable integration ofrol genes into the cucumber genome was confirmed by Southern blot analysis.     

Incompatibility between a Rhizobium Sym plasmid and a Ri plasmid of Agrobacterium

The symbiotic plasmid of Rhizobium trifolii G1008 was mobilized to other Rhizobium strains and to Agrobacterium using Tn5-Mob, a transposon that confers on a host replicon the ability to be mobilized in trans by RP4. Incompatibility was observed between pSymG1008 and the hairy-root-inducing plasmid pRi1855. Agarose gel electrophoresis revealed that pRi1855 was eliminated as an autonomous element in the presence of pSymG1008 and its absence was correlated with loss of the ability to induce hairy root disease. This indicates a close ancestral relationship between a Rhizobium symbiotic plasmid and a plant pathogenic plasmid of Agrobacterium. pSymG1008 and pRi1855 can be assigned to the IncRh-3 incompatibility group. Furthermore, pSymG1008 was mobilized at low frequency to R. phaseoli 51E and the transconjugants isolated had lost the indigenous Sym plasmid and the ability to nodulate beans.     

Progeny study of tobacco regenerant transformed by agrobacterium rhizogenes

The pRi T-DNA markers were followed in the first generation of the progeny ofAgrobacterium tumefaciens strain C58Cl(pRiA4b) transformed tobacco regenerant. Two categories segregating probably in the ratio 15: 1 can be distinguished: those showing a complex of pRi T-DNA transformation markers and those showing no transformation markers. The presence of both T_L and T_R-DNA was demonstrated by Southern blotting. The most prominent of the transformation markers observedIn vitro was rapid growth of detached plagiotropic roots on media without phytohormones. Most of the progeny plants of the transformant showed irregularities of leaf morphology and inflorescence and flower morphology. The last resulted in sterility in most progeny plants.     

Disarming and sequencing of Agrobacterium rhizogenes strain K599 (NCPPB2659) plasmid pRi2659

Agrobacterium rhizogenes strain K599 (pRi2659), a causative agent of hairy root disease, effectively induces hairy root formation in a variety of plant species, including numerous soybean (Glycine max) cultivars. Because Agrobacterium-mediated transformation of soybean remains challenging and labor intensive, K599 appeared a suitable progenitor for new agrobacteria strains for plant transformation. In this paper, we report the disarming and sequencing of pRi2659 and the usefulness of the resulting disarmed strain in plant transformation studies of Arabidopsis thaliana, maize (Zea mays), tomato (Lycopersicon esculentum), and soybean (G. max). Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

The influence of plant growth regulators on callus induction in pumpkin (Cucurbita pepo L.) hairy roots

Following in vitro infection with Agrobacterium rhizogenes wild strain (mannopine, 8196) and two A. tumefaciens transconjugant strains (C58C1 pArA4abc and C58C1 pArA4b) transformed (hairy) roots were induced in pumpkin (C. pepo L.) cotyledons. The presence of pRi T-DNA in pumpkin long-term hairy root cultures was determined by Southern hybridization. The influence of plant growth regulators on callus induction in root explants from hairy root lines, which differed mutually in morphology and growth rate, was tested by the addition of growth regulators to basal nutrient medium; while 2.4-D inhibited root proliferation in all hairy root lines tested, callus induction depended both on plant growth regulators and the root line.     

Characterization of plasmid-borne and chromosome-encoded traits of Agrobacterium biovar 1, 2, and 3 strains from France

We collected 111 Agrobacterium isolates from galls of various origins (most of them from France) and analyzed both their plasmid-borne and chromosome-encoded traits. Phenotypic analysis of these strains allowed their classification in three phena which exactly matched the delineation of biovars 1, 2, and 3. A fourth phenon was identified which comprises three atypical strains. The phenotypic analysis has also allowed us to identify 12 additional characteristics which could be used to identify the three biovars of Agrobacterium. Our results also suggest that biovar 1 and 2 represent distinct species. Analysis of plasmid-borne traits confirmed that tartrate utilization is a common feature of biovar 3 strains (now named Agrobacterium vitis) and of Agrobacterium grapevine strains in general. Among pathogenic strains of Agrobacterium, several exhibited unusual opine synthesis and degradation patterns, and one strain of biovar 3 induced tumors containing vitopine and a novel opine-like molecule derived from putrescine. We have named this compound ridéopine.     

Origin of the Outbreak in France of Pseudomonas syringae pv. actinidiae Biovar 3, the Causal Agent of Bacterial Canker of Kiwifruit,Revealed by a Multilocus Variable-Number Tandem-Repeat Analysis

The first outbreaks of bacterial canker of kiwifruit caused by Pseudomonas syringae pv. actinidiae biovar 3 were detected in France in 2010. P. syringae pv. actinidiae causes leaf spots, dieback, and canker that sometimes lead to the death of the vine. P. syringae pv. actinidifoliorum, which is pathogenic on kiwi as well, causes only leaf spots. In order to conduct an epidemiological study to track the spread of the epidemics of these two pathogens in France, we developed a multilocus variable-number tandem-repeat (VNTR) analysis (MLVA). MLVA was conducted on 340 strains of P. syringae pv. actinidiae biovar 3 isolated in Chile, China, France, Italy, and New Zealand and on 39 strains of P. syringae pv. actinidifoliorum isolated in Australia, France, and New Zealand. Eleven polymorphic VNTR loci were identified in the genomes of P. syringae pv. actinidiae biovar 3 ICMP 18744 and of P. syringae pv. actinidifoliorum ICMP 18807. MLVA enabled the structuring of P. syringae pv. actinidiae biovar 3 and P. syringae pv. actinidifoliorum strains in 55 and 16 haplotypes, respectively. MLVA and discriminant analysis of principal components revealed that strains isolated in Chile, China, and New Zealand are genetically distinct from P. syringae pv. actinidiae strains isolated in France and in Italy, which appear to be closely related at the genetic level. In contrast, no structuring was observed for P. syringae pv. actinidifoliorum. We developed an MLVA scheme to explore the diversity within P. syringae pv. actinidiae biovar 3 and to trace the dispersal routes of epidemic P. syringae pv. actinidiae biovar 3 in Europe. We suggest using this MLVA scheme to trace the dispersal routes of P. syringae pv. actinidiae at a global level.     

Cholera caused by Vibrio cholerae O1 ctxAB- tcpA+

Results of analysis of cholera outbreak during which V. cholerae O1 biovar El-Tor ctxAB- tcpA+ was isolated from 2 patients and 30 carriers are presented. Epidemic was caused by contamination of water source and water route of transmission. Strains identical to ones detected in humans were isolated from water of surface well in zone of water intake. Genome and VNTR-analysis of ctxAB- tcpA+ vibrios that caused outbreak in Rostov region in 2005 showed that they differed from ctxAB- tcpA- and ctxAB- tcpA+ vibrios isolated previously during and beyond of outbreaks from patients, carriers and environment and formed separate group with certain genotype. These results confirms conclusions of epidemiological analysis about imported cause of recent outbreak.     

Genetically Transformed Plant Roots as a Model for Studying Specific Metabolism and Symbiotic Contacts of the Root System

Genetic transformation of plants mediated by Ri plasmid ofAgrobacterium rhizogenes occupies a special place in plant cell engineering, since this technique based on a natural phenomenon allows cultivation of isolated growing plant roots on hormone-free media. Application of wild-type unmodified agrobacterial strains allows us to obtain root cultures capable of long-term growth in vitro due to an increased sensitivity of the cells to auxins while other biochemical properties remain unaltered. A collection of pRi T-DNA transformed roots of certain dicotyledons was made; some strains in it are used to study synthesis of secondary metabolites in root cells. Thein vitro cultivated roots could synthesize root-specific metabolites, which makes possible their application for large-scale biotechnological production of ecologically pure crude drugs. Cocultivation of pRi T-DNA transformed roots with arbuscular mycorrhizal fungi makes possible vital study of all stages of obligate symbiont development and interaction with plant roots. Dual axenic culture of AM fungi and pRi T-DNA transformed plants can be used to make a collection of the most valuable endomycorrhizal fungal species and to produce considerable quantities of homogeneous fungal inoculums.     

The non-conserved region of cucumopine-type Agrobacterium rhizogenes T-DNA is responsible for hairy root induction

The T-DNA regions of three strains of Ri plasmids 1855, 8196, 2659 (agropine, mannopine and cucumopine type respectively) share two highly conserved regions flanking a non-homologous central part [1,2]. We have cloned segments of the cucumopine Ri plasmid 2659 T-DNA in the binary vector system Bin 19 and infected carrot discs with recombinant Agrobacterium strains. We show here that the central non-conserved region is crucial in hairy root induction as it is sufficient to induce rooting on the apical (auxin-rich) surface of carrot discs; in order to observe rooting on the basal (auxin-depleted) side of the discs, a longer T-DNA fragment, also encompassing part of the right conserved region, had to be utilized in conjunction with a Agrobacterium strain carrying aux genes. Differences of growth properties in culture are exhibited by roots transformed with different fragments of pRi 2659 T-DNA, although all transformed roots show the plagiotropic behaviour typical of hairy roots.     

发根农杆菌LBA9402Bin19转化红豆草及再生转基因植株

Hypocotyl segments of Onobrychis viciaefolia were transformed by Agrobacterium rhizogenes LBA9402 which harboured pBin19 and pRi1855. Seedling age and preculture time of hypocotyl segments influenced the transformation frequency. Paper electrophoresis revealed that 70% of single hairy root cultures could synthesize agropine. Calli were induced from hairy root segments on MS medium containing 0-9.05 mumol/L 2,4-D and 0-2.22 mumol/L 6-BA at first, then they were transferred onto MS0 medium without kanamycin for regeneration. Constitution and concentration of phytohormones in callus induction media affected subsequent regeneration of calluses on MS0 medium remarkably. Regeneration frequency and shoot number per callus declined when 2,4-D concentration in callus induction media increased from 4.52 to 9.05 mumol/L, while they ascended when 6-BA in callus induction media increased from 0 to 2.22 mumol/L. On MS medium supplemented with 4.52 mumol/L 2,4-D and 2.22 mumol/L 6-BA, only 14.2% hairy root segments could produce calluses, but the regeneration frequency reached 58.1% and the shoot number per callus was 37.2. In 32 analysed plants regenerated from 8 kanamycin resistant hairy root lines, 25 were nptII positive and showed different copy numbers.     

Shoot regeneration from GUS-transformed tomato (Lycopersicon esculentum) hairy root

To study the influence of genetic background on the transformation and regeneration of cultivated tomato plants, hairy root lines of tomato (Lycopersicon esculentum) were obtained by inoculating the hypocotyl explants of three tomato cultivars with the Agrobacterium rhizogenes strain DCAR-2, which harbors the pBI-121 binary vector. The Ri-T-DNA transformation into the plant DNA was confirmed by both of mikimopine and GUS assay analyses. The regeneration efficiency from hairy root explants was assessed. The data indicated that white embryonic calli were formed within two weeks in the presence of 2 mgl(-1) 2, 4-D plus 0.25 mgl(-1) kinetin. Adventitious shoots emerged from the embryonic callus in the presence of 1 mgl(-1) GA3 along with 0.5 mgl(-1) NAA. The regeneration frequency was higher in the cultivar UC-97, followed by Momotaro and then Edkawi. Molecular confirmation of the integration of the GUS gene into the hairy root-derived plants genomes was done via PCR using GUS-specific primers and also using Southern blotting analysis. Our data shows that regeneration is possible from hairy roots of the cultivated tomato and this system could be used to produce transgenic tomato plants expressing the genes present in Agrobacterium rhizogenes binary vectors.     

Monitoring of horizontal gene transfer from agricultural microorganisms to soil bacteria and analysis of microbial community in soils

To investigate the possibility of horizontal gene transfer between agricultural microorganisms and soil microorganisms in the environment, Bacillus subtilis KB producing iturin and the PGPR recombinant strain Pseudomonas fluorescens MX1 were used as model microorganisms. The soil samples of cucumber or tomato plants cultivated in pots and the greenhouse for a six month period were investigated by PCR, real-time PCR, Southern hybridization, and terminal restriction fragment length polymorphism (T-RFLP) fingerprinting. Our data from Southern blotting and TRFLP patterns suggest that the model bacteria do not give significant impacts on the other bacteria in the pots and greenhouse during cultivation.     

番茄根内促生放线菌的分离鉴定及其促生效果

【背景】植物体内普遍存在一定数量的内生放线菌,对植物的生长发育具有促生作用。【目的】从番茄根内分离、筛选并鉴定出能够有效促进植物生长发育的内生放线菌,为生物菌肥的开发奠定基础。【方法】采用组织研磨培养法和放线菌分离培养基对番茄根内放线菌进行分离,利用Salkowski比色法、钼锑抗比色法和CAS平板检测法进一步筛选出具有较强促生特性的菌株,通过番茄和黄瓜苗期盆栽试验验证其促生效果。结合形态、生理生化以及16S r RNA基因序列相似性和系统发育分析,对菌株进行鉴定。【结果】分离筛选出一株吲哚乙酸(Indole-3-acetic acid,IAA)产量达25.56 mg/L的内生放线菌NEAU-D1,能够产生铁载体并且对多种难溶性磷酸盐具有良好溶解效果,通过16S r RNA基因序列分析,该菌株属链霉菌属。番茄和黄瓜苗期盆栽试验结果表明,接种该菌株的番茄幼苗其根长、株高、植株鲜重和干重较对照分别显著增加了9%、23%、47%和92%,而接种该菌株的黄瓜幼苗根长、株高、植株鲜重和干重较对照分别显著增加了43%、47%、134%和58%。【结论】链霉菌NEAU-D1可以作为潜在的促生菌资源用于设施蔬菜多功能生物菌肥的研发。     

Effect of Two Plant Species, Flax (Linum usitatissinum L.) and Tomato (Lycopersicon esculentum Mill.), on the Diversity of Soilborne Populations of Fluorescent Pseudomonads

Suppression of soilborne disease by fluorescent pseudomonads may be inconsistent. Inefficient root colonization by the introduced bacteria is often responsible for this inconsistency. To better understand the bacterial traits involved in root colonization, the effect of two plant species, flax (Linum usitatissinum L.) and tomato (Lycopersicon esculentum Mill.), on the diversity of soilborne populations was assessed. Fluorescent pseudomonads were isolated from an uncultivated soil and from rhizosphere, rhizoplane, and root tissue of flax and tomato cultivated in the same soil. Species and biovars were identified by classical biochemical and physiological tests. The ability of bacterial isolates to assimilate 147 different organic compounds and to show three different enzyme activities was assessed to determine their intraspecific phenotypic diversity. Numerical analysis of these characteristics allowed the clustering of isolates showing a high level (87.8%) of similarity. On the whole, the populations isolated from soil were different from those isolated from plants with respect to their phenotypic characteristics. The difference in bacteria isolated from uncultivated soil and from root tissue of flax was particularly marked. The intensity of plant selection was more strongly expressed with flax than with tomato plants. The selection was, at least partly, plant specific. The use of 10 different substrates allowed us to discriminate between flax and tomato isolates. Pseudomonas fluorescens biovars II, III, and V and Pseudomonas putida biovar A and intermediate type were well distributed among the isolates from soil, rhizosphere, and rhizoplane. Most isolates from root tissue of flax and tomato belonged to P. putida bv. A and to P. fluorescens bv. II, respectively. Phenotypic characterization of bacterial isolates was well correlated with genotypic characterization based on repetitive extragenic palindromic PCR fingerprinting.