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1.
A qPCR approach was developed to specifically monitor in soils Fusarium graminearum, the main agent responsible for Fusarium Head Blight, and the biocontrol agent Gliocladium catenulatum J1446 (Prestop®). For both fungi, the amplification efficacy of standard curves obtained by mixing pure fungal DNA and soil background DNA was high (qPCR efficacy>96% with R2?>?0.97) with a linear range from 10?3 ng to 10 ng/μL. Our qPCR method allowed quantifying down to 1 μg of F. graminearum and G. catenulatum J1446 mycelium per g of soil. The strong correlation observed between fungal biomass and quantified DNA (R2?=?0.9927 and 0.9356 for F. graminearum and G. catenulatum J1446, respectively) supported the use of the primers to monitor both fungi in soils. Under our experimental conditions, the ability of Prestop® to reduce F. graminearum growth was significantly higher in autoclaved soil compared to living soils, suggesting that there is an antagonistic effect of the soil microbial communities. In contrast, G. catenulatum J1446 growth was mostly not affected by the presence of F. graminearum and was able to persist in both autoclaved and living soils after 15 days of incubation. These results indicate that our qPCR approach may be used to assess the success of soil colonization by a biocontrol agent and its control efficacy by monitoring the dynamics of the BCA and the targeted pathogen in soil.  相似文献   

2.
为有效防治辽宁省稻曲病菌Ustilaginoidea virens,利用重复序列PCR(repetitive elementbased PCR,rep-PCR)分子指纹技术,对2017年自辽宁省8个市8个主产稻区采集的51株稻曲病菌菌株进行遗传多样性和致病力分析。结果显示,在3对引物中,以BOX1/BOX2和ERIC1/ERIC2为引物扩增的DNA指纹图谱的遗传多样性值分别为0.764、0.707,均大于0.7,故选择这2种引物扩增的DNA指纹图谱进行遗传多样性分析;当DNA指纹相似系数为0.78时,以BOX1/BOX2为引物和以ERIC1/ERIC2为引物扩增的DNA指纹图谱分别将供试菌株划分为12个和10个遗传类群;供试菌株致病力可划分为弱致病型、中等致病型和强致病型3个致病型,所占比例分别为33.33%、58.82%和7.85%,强致病型菌株仅在沈阳市、鞍山市和大连市出现;所有优势类群均包含3种致病型菌株。表明辽宁省稻曲病菌遗传结构复杂,不同地理来源的稻曲病菌菌株致病力存在一定差异,相同致病型的稻曲病菌菌株分属于不同的遗传类群,同一遗传类群中包含不同的致病型菌株。  相似文献   

3.
White top strain (WT strain) of Pseudomonas syringae pv. pisi (Ppi) is a variant strain causing white top disease of peas. The WT strain is distinguishable from common Ppi strains only by symptom expression chlorosis and whitening of apical shoots. To develop a specific detection method for the WT strain, we cloned a specific DNA region of the WT strain using transposon tagging. Five mutants defective in white top symptom expression were obtained. A part of the Tn5-flanking region was cloned and labeled as a hybridization probe. One clone, pAY3, gave two signal bands, one of which was detected from the genomic DNA of all the WT and the common Ppi strains; another was specific to WT strains. A restriction map of pAY3 showed that it contains two BamHI fragments; one is 5.0kb in length involving a part of Tn5, and the other is 1.5kb, did not carry Tn5, and may have been accidentally ligated into pAY3. The 1.5-kb band was subcloned as pAY13 and was used as a probe. It hybridized specifically to WT strains. These results suggested that the WT strains have a specific DNA region and that part of the region was successfully cloned. Sequence analysis of pAY13 showed that it is similar to part of nonribosomal peptide synthetases (NRPSs) genes. The deduced amino acid sequence of pAY13 suggested the existence of eight conserved motifs of NRPSs. WT strain-specific PCR primers, PS1 and PS2, were designed from the DNA sequence. These primers gave a specific amplification product of 981bp from both the genomic DNA and a direct cell preparation of WT strains. No specific amplicon was produced from Ppi strains that caused only water-soaked lesions or from strains of other P. syringae pathovars. A specific amplicon was not produced from four strains of the pea pathogen: P. marginalis pv. marginalis, P. viridiflava, Erwinia carotovora ssp. carotovora, Xanthomonas campestris pv. pisi. Using the primers, WT strain was detected from water-soaked lesions and green and white tissues without water soaking.The sequence reported in this paper has been deposited in the DDBJ database under accession no. AB117755  相似文献   

4.
Specific oligonucleotides, based on hrpW (hypersensitive response and pathogenicity) gene sequences encoding harpin protein in phytopathogenic bacteria, were designed to detect and identify virulent strains of Pseudomonas avellanae by polymerase chain reaction (PCR). A population of virulent P. avellanae strains, isolated in central Italy (Viterbo region), was assessed with hrpW-derived primers, producing a specific band of about 350 base pairs in length. This target was successfully amplified from purified genomic DNA, from bacterial culture and from hazelnut bark tissue. No amplification was obtained when the PCR assay was performed on other plant-pathogenic species from the following genera Agrobacterium, Erwinia, Brenneria, Pseudomonas, Ralstonia, Xanthomonas or from hazelnut-associated bacteria, indicating the specificity of these primers. Moreover DNA from strain ISPaVe-MCB-596, isolated from north Italy (Piedmont region) and belonging to the less aggressive population of P. avellanae, did not amplify in PCR. The PCR assay with the primers described here provides a rapid, specific and sensitive diagnostic method for virulent P. avellanae strains and a useful tool to evaluate the progress of sanitation of the area.  相似文献   

5.
Twenty strains of Clavibacter michiganensis subsp. sepedonicus from different geographic origins and other reference strains of the same and different species, including other potato pathogens, were analysed with a new procedure named TP-RAPD that originates fingerprints of bacterial species. This procedure uses two primers to amplify the 16S rDNA gene. At 45 °C of annealing, the PCR product electrophoresed in agarose gels produced a band pattern that was different in all bacterial species studied as well as in the subspecies of C. michiganensis. All strains of C. michiganensis subsp. sepedonicus displayed the same TP-RAPD number of pattern. Unlike Gram negative bacteria, Gram positives of high G + C content, such as Clavibacter, produced low bands in TP-RAPD. By using a different set of two primers also based in the 16S rDNA sequence from Escherichia coli a more adequate amplification of Gram positives of high G + C including a greater number of bands was obtained. TP-RAPD patterns using the new set of primers described in this work is a reliable and fast method to identify C. michiganensis subsp. sepedonicus.  相似文献   

6.
Two primers, specific for Phytophthora nicotianae (Pn6) and P. citrophthora (Pc2B), were modified to obtain Scorpion primers for real-time identification and detection of both pathogens in citrus nursery soils and roots. Multiplex PCR with dual-labelled fluorogenic probes allowed concurrent identification of both species ofPhytophthora among 150 fungal isolates, including 14 species of Phytophthora. Using P. nicotianaespecific primers a delayed and lower fluorescence increase was also obtained from P. cactorumDNA. However, in separate real-time amplifications, the aspecific increase of fluorescence from P. cactorum was avoided by increasing the annealing temperature. In multiplex PCR, with a series of 10-fold DNA dilutions, the detection limit was 10 pg l-1 for P. nicotianaeand 100 pg l–1 for P. citrophthora, whereas in separate reaction DNA up to 1 pg l-1 was detected for both pathogens.Simple and rapid procedures for direct DNA extraction from soil and roots were utilised to yield DNA whose purity and quality was suitable for PCR assays. By combining these protocols with a double amplification (nested Scorpion-PCR) using primers Ph2-ITS4 amplifying DNA from the main Phytophthora species (first round) and PnB5-Pn6 Scorpion and Pc2B Scorpion-Pc7 (second round), it was possible to achieve real-time detection of P. nicotianaeand P. citrophthora from roots and soil. The degree of sensitivity was similar to that of traditional detection methods based on the use of selective media. The analyses of artificially and naturally infested soil showed a high and significant correlation between the concentration of pathogen propagules and the real-time PCR cycle threshold.  相似文献   

7.
A sterile white fungus was isolated from the healthy looking roots of buffalo grass (Stenotaphrum secundatum) grown on cleared bush land in Perth, Western Australia. The fungal strain was pathogenic on 12 plant species screened under the greenhouse conditions. The clamp connections and dolipore septa indicated that the isolate was a Basidiomycete. Mycelial features, growth rate at different temperatures, as well as pathogenicity patterns of this sterile white basidiomycete (SWB) were distinctly different from those of a strain with a similar morphology, ATCC 28344, previously described as a pathogen in Florida and Georgia (USA). All attempts to induce sporulation failed. The isolates were also compared using the nucleotide sequence analysis of the ribosomal DNA array. Approximately 1 kbp of the 5 end of the large subunit ribosomal RNA gene, complete sequences of the small subunit ribosomal RNA gene and the entire ITS region (including ITS1, ITS2 and 5.8S gene) were sequenced for the purpose. The obtained sequences were compared with the homologous regions of other genera of Agaricales available in GenBank. Relatively low sequence similarities between the American and Australian strains, as well as the phylogenetic analysis of the studied regions has suggested that these two fungi belong to different genera. Interesting results were achieved in the case of the large subunit ribosomal DNA since this region has been widely studied for taxonomy of Basidiomycetes. The Australian strain 3034 appeared to be closely related to the genus Campanella and the American SWB was identified as belonging to the genus Marasmius, possibly to M. graminum. Our data suggest that the Australian strain is a novel pathogen, and is different from the American SWB isolates described to date.  相似文献   

8.
The polymerase chain reaction (PCR) is a rapid, precise method for detecting and identifying pathogenic bacteria. In addition to the published primers for identification of Agrobacterium tumefaciens up to species level, two sets of primers were designed to identify the nopaline and octopine types of Agrobacterium tumefaciens. The RBF-RBR primer set designed based on the nopaline type T-DNA right border detected the nopaline type A208 and R225f strains, and the ocsF-ocsR primer set derived from the ocs gene of the octopine type A. tumefaciens detected the octopine type A348 strain. After polymerase Chain reaction (PCR) amplification by the RBF-RBR primers, the A208 and R225f strains could be differentiated from each other by restriction fragment length polymorphism digestion using the restriction enzymes DraI and XbaI. Multiple colonies can be screened at one time in a single PCR tube with satisfactory efficiency, thereby allowing rapid detection of pathogenic A. tumefaciens. Following a rough screening by classical biovar medium and -methyl-d-glucoside medium, the developed PCR system was introduced to identify isolates collected from soil and crown gall samples. Of 42 isolates determined to be A. tumefaciens, 7 were found to be octopine type; all the rest were R225f type.  相似文献   

9.
Tumour tissue samples were collected from vines grown in various regions of Italy and other parts of Europe and extracted for detection of Agrobacterium vitis. Fifty strains were isolated on agar plates and screened by PCR with consensus primers from the virD2 gene. They were confirmed as A. vitis with a species-specific monoclonal antibody. The isolates were further analyzed by PCR for their opine synthase genes and ordered into octopine, nopaline and vitopine strains. Primers designed on the octopine synthase gene did not detect octopine strains of Agrobacterium tumefaciens. For quantitative PCR, virD2 fragments were sequenced: two classes of virD2 genes were found and two primer sets designed, which detected octopine and nopaline strains or only vitopine strains. For simultaneous identification of all opine-type strains, multiplex real-time PCR with either primer pair and SYBR Green was performed: the combined sets of primers gave signals with DNA from any A. vitis strain. Specificity of the new primers for real-time PCR was evaluated using several unidentified bacterial isolates from grapevines and other plant species. An elevated level of non-specific background was observed when the combined primer sets were used in multiplex PCR assays. The real-time PCR protocol was also used to detect A. vitis cells directly from grapevine tumours; avoiding direct isolation procedures a sensitivity in the range of one to ten cells per assay was found. Inhibition of the PCR reaction by plant material was overcome by treating tumour extracts with a DNA purification kit as a step for the isolation of nucleic acids.  相似文献   

10.
Phoma foveata and P. exigua variety exigua both infect potatoes and are morphologically very similar. P. foveata produces a pigment which allows differentiation from P. exigua in culture. Discrimination of the two species based on the production of a secondary metabolite, which is dependent on the growth conditions, is not reliable. Therefore, there is a need to develop nucleic acid based identification markers. A 482bp random amplified polymorphic DNA (RAPD) fragment from P. foveata was isolated and sequenced. Polymerase chain reaction (PCR) primers, developed from the sequence of the RAPD product, amplified a 474bp fragment for P. foveata and P. exigua varieties exigua, diversispora, inoxydibilis and sambuci-nigrae. The similarity of the PCR fragments was demonstrated by sequence analysis and by using the restriction enzymes DdeI and DpnII. P. foveata was distinguished from the four varieties of P. exigua on the basis of the RFLP patterns of the PCR fragment. Ten isolates of P. foveata and nine of P. exigua var. exigua from different geographic locations were tested and all isolates but one showed the restriction digest pattern of the PCR fragment (PCR-RFLP) specific to each species. One isolate of P. foveata demonstrated a PCR-RFLP pattern similar to P. exigua var. exigua leading to the conclusion that the isolate had been previously misidentified as a strain of P. foveata lacking the ability to produce pigment.  相似文献   

11.
Tomato chlorosis virus (ToCV), a new whitefly-transmitted and phloem-limited Crinivirus infecting tomatoes in Europe, is reported for the first time in Portugal. Tomato plants with symptoms of interveinal chlorosis, collected during autumn 1998 and summer and autumn 1999 in Algarve, southern Portugal, were positive in RT-PCR assays using ToCV-specific primers. The amplified 439bp fragment was sequenced and showed 99% homology with the ToCV sequence in the GenBank database. A digoxigenin–DNA probe was produced and tested in dot-blot with total RNAs extracted from tomato samples. Both the RT-PCR and dot-blot hybridisation procedures enabled rapid and reliable detection of ToCV from field samples.  相似文献   

12.
A partial sequence of Oat mosaic virus (OMV) has been obtained for four isolates of the virus from four European countries. This represents the first available sequence data for this important disease of winter-sown oats. The longest clone of 1699 nucleotides was obtained from infected English oats using a degenerate primer, designed to members of the Potyviridae family. Alignment of the predicted amino acid sequence with members of the Potyviridae showed closest identity with viruses of the Bymovirus genus. The predicted amino acid sequence has one open reading frame corresponding to part of the NIb and capsid protein, with a 3 untranslated region of 351 nucleotides, followed by a poly(A) tail. PCR primers were designed to the coat protein and NIb gene of members of the Bymovirus genus and used to obtain partial sequences of 1441 nucleotides at the 3 end of infected oats from both Wales and France. A specific primer set designed to the English isolate was used to generate a product of 701 nucleotides from OMV-infected oat leaves from Ireland. All four isolates are highly conserved at the amino acid level.The first two authors contributed equally to the work  相似文献   

13.
The antifungal glycoalkaloid -tomatine accumulates in tomato plants and may protect plants from fungal infection. Fusarium oxysporum f. sp. lycopersici, the causal agent of vascular wilt of tomato, produces a tomatinase (FoToml) that degrades -tomatine to the nontoxic compounds tetrasaccharide lycotetraose and tomatidine. Induction of tomatinases and the distribution of FoToml homologs were examined among 30 strains belonging to 16 formae speciales of F. oxysporum. Tomatinase activity was found in 27 strains belonging to 15 formae speciales, but FoToml homologs (>98% sequence identity) were detected in only six strains belonging to four formae speciales. To identify tomatinases other than FoToml, -tomatine-inducible proteins of another tomato pathogen F. oxysporum f. sp. radicis-lycopersici were analyzed by two-dimensional gel electrophoresis. A protein with a molecular mass of 64kDa accumulated in the -tomatine-induced culture filtrates, and the protein had tomatinase activity, degrading -tomatine to lycotetraose and tomatidine.  相似文献   

14.
Pistachio dieback occurs in the main pistachio growing areas of Australia. Xanthomonas strains belonging to the translucens group have been identified as the causal agent of the disease and two distinct groups, A and B, have been recognised within the pathogen population. In this study, specific primers for amplification of DNA of the pathogen were developed by sequencing the Internal Transcribed Spacer (ITS) region of rDNA from strains representing groups A and B, as well as from X. translucens isolated from wheat in Australia and one Xanthomonas translucens strain from orchard floor grasses. Primers were designed for amplification of DNA sequences specific to each group and a multiplex PCR test was developed that identified and differentiated strains of each group in a single PCR assay. To determine the specificity of the primers, PCR was carried out with DNA from 65 strains of the pistachio pathogen, 31 type and reference strains of Xanthomonas, and from 191 phytobacteria commonly found in and around pistachio orchards. In the multiplex PCR, a 331 bp fragment was amplified from all strains belonging to group A and a 120 bp fragment from all strains in group B. No PCR products were obtained from the other bacteria tested except for the type strain of X. translucens pv. cerealis, which has not been found in Australia. The assay was used to detect strains from both groups of the pathogen in pistachio plant material.  相似文献   

15.
Strains of Xanthomonas campestris pv. vesicatoria Dye 1978 (Xcv), the causal agent of bacterial spot, have been classified into two groups based on their ability to hydrolyze starch. Three monoclonal antibodies (MAbs), 7AH10, 5HB3, and 4AD2, were produced immunized against the living bacteria and were specific to and could distinguish Xcv strains able or unable to hydrolyze starch (Amy+ or Amy). The MAb 7AH10, obtained against strain UPB141(Amy) reacted in an enzyme-linked immunosorbent assay with all the Amy strains (n = 19) and 1 of 11 Amy+ strains. Against Xcv 2625, an Amy unusual phenotype strain, MAb 5HB3, recognized 97% of our worldwide collection of Xcvs (n = 30). Also against that strain, the MAb 4AD2 reacted with none of the homologous Amy phenotypes and with 90% (n = 11) of the heterologous Amy+ phenotypes. For all the MAbs, cross reactions with other pathovars or species were less than 4% (n = 67). By assaying a Japanese collection of strains against the three MAbs, the Amy+ strains were distinguished from the Amy strains, and their relation with other world strains could be demonstrated. All the MAbs reacted with the lipopolysaccharide fraction of the bacterial cell wall during immunoblotting.  相似文献   

16.
The nematode species Longidorus attenuatus, L. elongatus, L. macrosoma and Paralongidorus maximusare economically important pests to the viticulture industry due to their ability to vector two nepoviruses (Raspberry Ringspot Virus and Tomato Black Ring Virus) to grapevines. In Germany, these species occur in vineyard soil with other non-vector but morphologically similar longidorid species, L. helveticus, L.profundorum and L. sturhani. Species-specific primers were designed from ribosomal DNA for all seven species to facilitate taxonomic identification for non-specialists. Primers were assessed for their reliability by screening, where possible, a number of populations of each species. Furthermore, their selectivity and sensitivity were determined when challenged with closely related longidorid species and general nematode communities typical of vineyard soil. A multiplex approach using a common forward primer combined with species-specific reverse primers enabled three target nematode species to be detected in the same PCR reaction. All primers were highly specific, detecting all nematode developmental forms from disparate populations and were sufficiently sensitive to detect a single target nematode within a whole nematode community typical of a vineyard soil comprising of a range of non-target species. Given their specificity, sensitivity and reliability, these diagnostic primers should be of great benefit to both phytosanitary/quarantine services related to the viticulture industry and also as a decision management tool for growers.  相似文献   

17.
利用UP-PCR、ISSR和AFLP标记分析玉米丝黑穗病菌遗传多样性   总被引:3,自引:2,他引:1  
利用UP-PCR、ISSR和AFLP分子标记方法研究了我国主要玉米产区34株玉米丝黑穗病菌的遗传多样性。从供试引物中筛选获得具多态性的UP-PCR引物9个、ISSR引物11个和AFLP引物组合22对,分别扩增出113、72和293条谱带,多态性条带比率分别为91.15%、84.7%和83.27%。聚类分析表明,玉米丝黑穗病菌存在丰富的遗传变异,与地理来源无明显相关性。3种分子标记的遗传相似系数矩阵相关性分析表明,UP-PCR与AFLP具有较高的相关性,相关系数为0.698;UP-PCR与ISSR、ISSR与AFLP的相关系数分别为0.659和0.633。从多态性水平、稳定性和可操作性可以看出,UP-PCR技术更适于分析玉米丝黑穗病菌遗传多样性。此外,UP-PCR、ISSR和AFLP标记划分的类群与鉴别寄主划分的致病类型之间存在一定的相关性,吻合率分别为50.0%、60.0%和47.6%。  相似文献   

18.
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19.
We recently reported that two diverse types (types 1 and 2) were identified among strains of Erwinia carotovora from mulberry trees. Type 1 strains were similar to E. carotovora subsp. carotovora (Ecc), whereas type 2 strains were distinct from Ecc and other E. carotovora strains. In this study, seven more mulberry strains of type 2 and reference strains were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and randomly amplified of polymorphic DNA (RAPD). On the basis of SDS-PAGE profiles of whole-cell proteins, type 2 strains had high similarity with one another. In addition, they had an unique peptide band with a molecular mass of approximately 28kDa. RAPD analysis showed that they were also effectively differentiated by a strong, specific RAPD fragment for type 2 strains. Based on these two approaches, we have confirmed that the present type 2 strains from mulberry can be discriminated clearly from other soft rot Erwinia species.  相似文献   

20.
Experiments were conducted to determine the effects of chemical and biological treatments on gummy stem blight of cucumber caused by Didymella bryoniae in vitro and under greenhouse conditions. Eleven strains of Bacillus subtilis, strain AGB10 of B. cereus, and strain B8Fr of Enterobacter agglomerans produced antagonistic zone against D. bryoniae in vitro. Of four experiments conducted, the chemical treatments Nova,1 kresoxim-methyl, and azoxystrobin controlled the disease in three experiments and the biological treatments E. agglomerans (B8Fr), B. subtilis (AGS-4), and lysozyme in one experiment when applied as sprays on lesions caused by D. bryoniae on cucumber plants under greenhouse conditions. Fruit rot of cucumber was significantly reduced when the fruit was treated with Nova or kresoxim-methyl. These results suggest the potential of azoxystrobin, kresoxim-methyl, E. agglomerans (B8Fr), and B. subtilis (AGS-4) applied post-inoculation to control gummy stem blight on greenhouse cucumbers.  相似文献   

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