Inhibition of crown gall formation by Agrobacterium radiobacter biovar 3 strains isolated from grapevine

Graft unions of nursery stock of grapevine (Vitis vinifera L.) collected in Japan yielded pathogenic and nonpathogenic strains of Agrobacterium. On the basis of classical diagnostic tests, a sequence analysis, and a multiplex polymerase chain reaction method previously reported, the pathogenic strain was identified as Agrobacterium tumefaciens biovar 3, whereas the nonpathogenic strains were assigned to Agrobacterium radiobacter biovar 3. Stems of tomato (Lycopersicon esculentum Mill.) seedlings were inoculated with both A. tumefaciens biovar 3 strain G-Ag-27 as a pathogen and one of the control strains isolated from grapevine or A. radiobacter biovar 2 strain K84 as competitors to assay the suppression of gall formation caused by the pathogen. In a test with a 1 : 1 pathogen/nonpathogen cell ratio, all A. radiobacter biovar 3 strains reduced gall incidence and size compared to that of the positive control inoculated only with the pathogen. Strain VAR03-1 was especially effective in reducing the incidence of gall formation on grapevine and reduced gall size by 84%–100% of those on the positive control. Many tested nonpathogenic biovar 3 strains were bacteriocinogenic, causing an inhibition zone against A. tumefaciens biovar 3 strains on YMA medium. Strain VAR03-1 was the most effective against indicator strains and appears to be a promising agent for controlling crown gall of grapevine.     

Phylogenetic relationships of Ralstonia solanacearum species complex strains from Asia and other continents based on 16S rDNA, endoglucanase, and hrpB gene sequences

The 16S rDNA, endoglucanase, and hrpB genes were partially sequenced for Asian strains of Ralstonia solanacearum spp. complex, including 31 strains of R. solanacearum and two strains each of the blood disease bacterium (BDB) and Pseudomonas syzygii. Additional sequences homologous to these DNA regions, deposited at DDBJ/EMBL/GenBank databases were included in the analysis. Various levels of polymorphisms were observed in each of these DNA regions. The highest polymorphism (approximately 25%) was found in the endoglucanase gene sequence. The hrpB sequence had about 22% poly-morphism. The phylogenetic analysis consistently divided the strains into four clusters, as distinctly shown on the phylogenetic trees of 16S rDNA, hrpB gene, and endo-glucanase gene sequences. Cluster 1 contained all strains from Asia, which belong to biovars 3, 4, 5, and N2. Cluster 2 comprised the Asian strains of R. solanacearum (as biovars N2 and 1) isolated from potato and clove, as well as BDB and P. syzygii. Cluster 3 contained race 3 biovar 2 strains from potato, race 2 biovar 1 strains from banana, and race 1 biovar 1 strains isolated from America, Asia, and other parts of the world. Cluster 4 was exclusively composed of African strains. The results of the study showed the distribution and diversity of the Asian strains, which are present in three of the four clusters. The similarity of Asian strains to those in the other regions was also observed.The nucleotide sequence data reported are available in the DDBJ/EMBL/GenBank databases under accession numbers AY464950 to AY465050     

PCR primers for identification of opine types of <Emphasis Type="Italic">Agrobacterium tumefaciens</Emphasis> in Japan

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.     

中国4省猕猴桃细菌性溃疡病菌的生物型检测和遗传多样性分析

由丁香假单胞菌猕猴桃致病变种Pseudomonas syringae pv. actinidiae (Psa)侵染引起的猕猴桃细菌性溃疡病(kiwifruit bacterial canker)是全球猕猴桃生产上最具毁灭性的细菌病害。为探明福建、安徽、四川和陕西4省Psa菌株的生物型和遗传多样性,用5对PCR特异性引物PsaJ-F/-R、PsaK-F/-R、Tac-F/-R、Con002-F/-R和avrRps4-F1/-R2检测Psa菌株的生物型;用4对PCR引物27F/1492R、PsaF1/PsaR2、gapA-Fps/Rps和rpoD+364s/-1222ps分别扩增16S rRNA、ITS、gapA和rpoD基因,进行多基因联合分析Psa菌株的遗传多样性。结果表明,特异性引物Tac-F/-R从47株Psa菌株中均能扩增出一条545 bp的特异条带,其他4对引物未扩增出任何条带,说明供试Psa菌株的生物型均为biovar 3。多基因联合分析表明,4省Psa存在丰富的遗传多样性,4个群体共检测出27个单倍型,单倍型多样性为0.955。安徽、福建、四川和陕西群体的单倍型数差异较大,分别为1、8、12个和12个。4个群体的多态性位点数、核苷酸多样性和平均核苷酸差异数差异极显著(P<0.01),其中福建群体的多态性最丰富,而安徽群体的多态性最低。AMOVA分析表明,3.6%的遗传变异来源于种群间,而96.4%的遗传变异来源于种群内,说明种群内变异是遗传变异的主要来源。遗传分化分析表明,安徽省Psa群体与其他3个群体间的遗传分化极高(Fst>0.175),福建、四川和陕西群体间的遗传分化水平较低(Fst<0.017)。研究结果有利于了解福建省Psa的来源,为阻断Psa的传播和猕猴桃细菌性溃疡病的长期可持续控制提供了理论参考。     

Detection of tumorigenic Agrobacterium strains from infected apple saplings by colony PCR with improved PCR primers

With the colony polymerase chain reaction (PCR), the specificity of newly prepared primer sets VCF2/VCR2, VCF3/VCR3, VCF4/VCR4, and VCF5/VCR5 to Ti or Ri plasmids in Agrobacterium strains were compared to that of the conventional set VCF/VCR. At first, control strains, which consisted of a nonpathogenic strain and phytopathogenic strains carrying Ti or Ri plasmid, were used. VCF3/VCR3 and VCF5/VCR5 were highly specific to all the phytopathogenic strains, whereas the others were not. These two primer sets were superior to VCF/VCR in their specificity with colony PCR to tumorigenic Agrobacterium strains isolated from apple saplings.     

Chromosomal and Ti plasmid characterization of tumorigenic strains of three Agrobacterium species isolated from grapevine tumours

Fifty-six tumorigenic Spanish grapevine strains of Agrobacterium spp. were tested for biovar classification, pathogenicity on several hosts, opine utilization, 16S rRNA gene sequencing and PCR amplifications using five primer sets targeting chromosomal and Ti plasmid genes. Fifty of them belonged to A. vitis (biovar 3), three to A. tumefaciens (biovar 1) and three to A. rhizogenes (biovar 2). All strains were tumorigenic on grapevines. Most A. vitis strains were also pathogenic on tomato and tobacco plants, while the three A. tumefaciens strains were only pathogenic on grapevine. Although most A. vitis strains used octopine, 12 utilized neither octopine nor nopaline. 16S rRNA gene sequencing clearly distinguished between strains belonging to the three species. Those of A. vitis could be further divided into three chromosomal backgrounds according to their 16S ribosomal RNA gene sequences. No universal primer pair was found for the detection of all three Agrobacterium species isolated from grapevine. DNA from all A. vitis strains was amplified with the chromosomally-encoded pehA primer pair. In both A. vitis and A. tumefaciens a correlation was observed between the amplifications obtained using the tmr and the virA Ti-plasmid-targeting primer pairs. Three types of Ti plasmid were found in A. vitis strains according to their PCR amplifications and opine utilization profiles. A given chromosomal background harboured only one type of Ti plasmid within the strains from each analysed sample, showing a strong association between chromosomal backgrounds and Ti plasmids in A. vitis .     

Physiological, Biochemical and Molecular Analyses of an Italian Collection of Agrobacterium tumefaciens strains

Physiological, biochemical and molecular characteristics of Agrobacterium tumefaciens strains isolated in Italy from different host plants were analysed. Diseased plants were collected from several nurseries located in nine different regions. Out of 1293 strains isolated from 12 fruit tree and six ornamental plant species, a group of 120 strains was chosen as representative of the whole collection. The majority of the strains were biovar 2 (82.5%), agrocin 84 sensitive, and were isolated from stone fruit trees. Most of the strains identified as biovar 1 were isolated from ornamental plants and were insensitive to A. radiobacter antagonistic strain K84. Some strains that were isolated from Euonymus spp, Prunus GF 677 and Pyrus communis (pear) OHF tumours could not be allocated to any of the three Agrobacterium biovars. PCR-restriction fragment length polymorphism of the rrs gene plus the intergenic spacer was used for strain fingerprinting and characterisation. Results showed a wide genetic variability within the biovar 1 strains and homogeneity within the biovar 2 group. Biovar 2 strains from Sardinia were highly variable and differed from the biovar 2 strains isolated from the other regions of Italy.     

Comparative Analysis of Japanese and Foreign Strains of <Emphasis Type="Italic">Ralstonia solanacearum</Emphasis> Based on 16S Ribosomal RNA Gene Sequences

We determined nearly the complete sequences of the 16S ribosomal RNA gene (rDNA) for Japanese strains of R. solanacearum. The comparison of 1471 nucleotide positions separated the Japanese strains into two groups, group 1 with biovars 1, 2, 3 and 4 strains which belonged to race 1, and group 2 with biovar 2 strains corresponding to race 3. Group 1 strains all had identical sequences, and strains representing the four biovars within the group did not differ from each other. Group 2 strains had characteristic nucleotides which differed at seven positions from group 1 strains. Comparative analysis of Japanese and foreign strains based on 16S rDNA sequences showed that Japanese group 1 was closely related to Asian and Australian biovars 3, 4 and 5, and belonged to the known division 1. Japanese group 2 was homogeneous to Indonesian biovars 2 and N2 in subdivision 2b. Since the differences in the nucleotides corresponded to restriction sites for the AluI, RFLP analysis of PCR-amplified 16S rDNA efficiently differentiated not only Japanese group 1 from group 2, but also differentiated three types of foreign strains which differed in biovar and geographic origin. Received 26 July 1999/ Accepted in revised form 19 November 1999     

Detection of <Emphasis Type="Italic">Agrobacterium vitis</Emphasis> by PCR using novel <Emphasis Type="Italic">virD2</Emphasis> gene-specific primers that discriminate two subgroups

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.     

Phylogenetic relationship and genetic diversity of <Emphasis Type="Italic">Agrobacterium</Emphasis> spp. isolated in Poland based on <Emphasis Type="Italic">gyrB</Emphasis> gene sequence analysis and RAPD

The genetic diversity of 47 strains of Agrobacterium originating from different host plants and geographical locations in Poland, together with 12 strains from other countries was investigated. It was analyzed using RFLP of DNA fragment amplified with primers UP-1 and UP-2r flanking part of gyrB and parE genes, gyrB sequencing and randomly amplified polymorphic DNA (RAPD) technique. On the basis of obtained results, we found the majority of agrobacteria isolated in Poland belong to biovar 2. However, among others, three strains distinct from type strains of all the known Agrobacterium species, were discovered. All three methods showed no correlation between genetic diversity and geographical origin or the host plant of all studied strains but they revealed high diversity of the tested agrobacteria. The highest diversity was observed within strains of biovar 1, whereas those of biovar 2 were found to be the more homogenous group. The topology of the constructed gyrB tree corresponds to topologies of 16S and 23S rDNA trees obtained in this and other studies, but the gyrB tree had deeper branching. In the case of RAPD, it was possible to find a unique DNA fingerprint for almost each strain tested. The gyrB gene appeared to be a good phylogenetic marker with high discrimination power allowing better differentiation between species and strains, whereas the RAPD technique can serve as a tool for single strain typing.     

Eucalyptus occidentalis plantlets are naturally infected by pathogenic Agrobacterium tumefaciens

In the Sidi M’djahed nursery (Algeria), over 60,000 eucalyptus (Eucalyptus occidentalis) plantlets exhibited tumour-like growths localized at the crown of the plants that resembled crown galls caused by Agrobacterium tumefaciens. Bacteria colonizing the galls were isolated and purified. Most (22 out of 24) of the isolates had cultural and biochemical characteristics similar to those of strains of the biovar 1 of A. tumefaciens. Twenty out of 22 Agrobacterium isolates induced tumour formation on various test plants. In PCR experiments, DNA extracted from these virulent strains yielded an amplification signal corresponding to a 247-bp fragment located within the virulence region of nopaline type Ti plasmid. Consistent with this, the opine nopaline was detected in the tumours induced on test plants – but not on eucalyptus plants. Nopaline was degraded by the 20 pathogenic isolates that were also sensitive to agrocin 84, indicating the presence of a nopaline-type pTi in these strains. The chromosomal region encoding the 16S rRNA was analyzed in a sub-population of the pathogenic agrobacterial isolates. The analyzed strains were found to belong to the ribogroup of the reference strain B6. Interestingly, Eucalyptus camaldulensis and Eucalyptus cladocalyx grown in the same nursery and in the same soil substrate developed no galls.     

Strain Level Identification of Pseudomonads Using Denaturing Gradient Gel Electrophoresis of 16S-23S Spacer Region rDNA

Specific Pseudomonas strains were detected by PCR amplification of the 16S-23S rDNA spacer region followed by denaturing gradient gel electrophoresis (DGGE) to generate DNA banding profiles. In initial studies, two diverse sequence areas within the 16S-23S rDNA spacer region were located in five closely related Pseudomonas fluorescens and P. putida strains. DNA banding profiles of 16 different pseudomonads were generated using PCR primers flanking this region, followed by DGGE of the PCR products. Distinct banding profiles were observed for each strain, and specificity could be increased by designing additional primers within the spacer region. A specific primer (513-1) was used to selectively amplify and detect a plant-disease suppressive bacterium, P. fluorescens strain 513, in soil. Six field soils from different locations were used with the 513-1 primer to test the specificity of this technique. Five soils did not yield any gel bands, but one soil led to a faint 250-bp band, similar in size to that of P. fluorescens 513. Resolution of strain 513 from the indigenous strain in this soil was achieved by DGGE of the amplified DNA fragments. The results therefore demonstrate the utility of PCR-DGGE analysis for strain-specific identification of pseudomonads in environmental samples. Received 17 January 2000/ Accepted in revised form 10 May 2000     

Detection of Clavibacter michiganensis subsp. sepedonicus in Potato Tubers by Multiplex PCR with Coamplification of Host DNA

A new multiplex PCR assay was developed for the detection of Clavibacter michiganensis subsp. sepedonicus in potato tubers. The assay combines two different tests in one reaction mixture. First, a highly specific and sensitive detection of the pathogen and second, an indicator test for successful amplification (internal PCR control), which monitors potentially false-negative PCR results, caused by inhibition of the PCR. For the simultaneous amplification of two different targets in one reaction mixture, a mix of two different primer sets was used. For the detection of C. michiganensis subsp. sepedonicus, a pathogen-specific primer set PSA-1/PSA-R was used, based on the intergenic spacer region of the 16S–23S rRNA genes of C. michiganensis subsp. sepedonicus. For the simultaneous amplification of the internal PCR control, the plant-specific primer set NS-7-F/NS-8-R was employed, permitting amplification of target sequence from plant DNA present in DNA extractions from potato core fluid. The applicability of the multiplex PCR was verified in 3500 composite samples of 200 seed potato tubers from 143 different cultivars in a survey for C. michiganensis subsp. sepedonicus by parallel testing using immunofluorescence, a bioassay in eggplant seedlings and multiplex PCR.     

Biochemical and genetical analysis reveal a new clade of biovar 3 <Emphasis Type="Italic">Dickeya</Emphasis> spp. strains isolated from potato in Europe

Sixty-five potato strains of the soft rot-causing plant pathogenic bacterium Dickeya spp., and two strains from hyacinth, were characterised using biochemical assays, REP-PCR genomic finger printing, 16S rDNA and dnaX sequence analysis. These methods were compared with nineteen strains representing six Dickeya species which included the type strains. A group of twenty-two potato strains isolated between 2005-2007 in the Netherlands, Poland, Finland and Israel were characterised as belonging to biovar 3. They were 100% identical in REP-PCR, dnaX and 16S rDNA sequence analysis. In a polyphasic analysis they formed a new clade different from the six Dickeya species previously described, and may therefore constitute a new species. The strains were very similar to a Dutch strain from hyacinth. On the basis of dnaX sequences and biochemical assays, all other potato strains isolated in Europe between 1979 and 1994 were identified as D. dianthicola (biovar 1 and 7), with the exception of two German strains classified as D. dieffenbachia (biovar 2) and D. dadantii (biovar 3), respectively. Potato strains from Peru were classified as D. dadantii, from Australia as D. zeae and from Taiwan as D. chrysanthemi bv. parthenii, indicating that different Dickeya species are found in association with potato.     

Detection and identification of the phytoplasma associated with pear decline in Taiwan

Pear decline (PD) is an important phytoplasmal disease that occurs mainly in Europe and North America. In 1994, pear trees exhibiting symptoms typical of PD disease were observed in orchards of central Taiwan. The sequence of 16S rDNA and 16S–23S rDNA intergenic spacer region (ISR) of the causative agent of pear decline in Taiwan (PDTW) were amplified with polymerase chain reaction (PCR) using a DNA template prepared from the diseased leaves. Sequence analysis of 16S rDNA revealed that the PDTW agent was closely related to the phytoplasmas of the apple proliferation group that cause diseases in stone fruits, pear and apple. Consistent with the result of 16S rDNA sequence analysis, sequence analysis of the 16S–23S rDNA ISR and putative restriction site analyses of 16S rDNA and 16S–23S rDNA ISR sequences provided further support for the view that the PDTW phytoplasma causing pear decline in Taiwan may represent a new subgroup of the apple proliferation group. According to the rDNA sequence of PDTW phytoplasma, two specific PCR primer pairs, APf2/L1n and fPD1/rPDS1, were designed in this study for the detection of the etiological agent in pear trees and insect vectors. Based on the sequence analyses of the PCR-amplified fragments, two species of pear psyllas, Cacopsylla qianli and Cacopsylla chinensis, were found to carry PDTW phytoplasma.     

Chromosomal and Plasmid Diversity of Agrobacterium Strains Isolated from Ficus benjamina Tumors

Agrobacteria were previously isolated from tumors developing on branches and aerial and hypogeous roots of weeping fig plants in Italy and in The Netherlands. A representative group of 48 strains was analyzed by PCR–RFLP of 16S and 16S + IGS ribosomal regions, PCR–RFLP of six Ti plasmid (pTi) regions and characterized for plasmid content. Two groups of agrobacteria were separated by cluster analysis of PCR–RFLP profiles of rrs gene: seventeen strains were similar to the new species Agrobacterium larrymoorei, while the remaining strains were included within the agrobacterium biovar 1 group. Sixteen different plasmid profiles from one to five plasmids were observed. In addition, 21 ribotypes and 20 pTi structures were arranged in many different combinations, showing that fig agrobacteria were characterized by a wide heterogeneity. A general lack of correlation between strain ribotypes and plasmid content was observed.     

An Efficient Microtiter System to Determine Agrobacterium Biovar

A microtiter system for biovar characterization of Agrobacterium strains which simplifies the analysis of a large number of isolates is described. This method is based on incubation of bacterial strains in microplate wells previously amended with media specifically used by the different Agrobacterium biovars. More than 150 purified Agrobacterium strains isolated from the most common host plants were analysed by the microtiter system. It proved to be an excellent tool using less reagents, time and space for incubation in comparison with the traditional method.     

Host specificity and genetic diversity of race 4 strains of Ralstonia solanacearum

Ralstonia solanacearum race 4 isolates were obtained from Zingiberaceae plants in India during bacterial wilt outbreaks. Polyphasic phenotypic and genotypic analysis revealed intraracial diversity and dominance of biovar 3 over biovar 4. Biovar 3 strains were isolated from very severely wilted Zingiberaceae plants in the field and found to be present across diverse geographical, host and seasonal boundaries. It was hypothesized that these isolates belong to a single, ‘fast wilting’, lineage. Using one ‘fast wilting’ isolate in controlled inoculations, rapid wilt was observed in ginger within 5–7 days. Wilting was also observed in several other closely and distantly related hosts such as turmeric (Curcuma longa), aromatic turmeric (Curcuma aromatica), black turmeric (Curcuma caesia), sand ginger (Kaempferia galanga), white turmeric (Curcuma zeodaria), awapuhi (Zingiber zerumbet), greater galangal (Alpinia galanga), globba (Globba sp.), small cardamom (Elettaria cardamomum) and large cardamom (Ammomum subulatum) of the Zingiberaceae family, and in tomato (Solanum lycopersicum). Molecular analysis, including multiplex PCR‐based phylotyping, sequence analysis of 16S rDNA, 16–23S intergenic spacer and the recN gene, and multilocus sequence typing, revealed minimal differences between fast wilting isolates, confirming that almost all belong to the same lineage. Biovar 4 was isolated from plants showing slow wilt progression and self‐limiting wilting in restricted geographical locations instead, and was identified to be genetically distinct from the fast wilting biovar 3 isolates. To the authors' knowledge, this is the first report of host range and genetic analysis of R. solanacearum race 4 in India.     

Specific Detection of Biovars of Ralstonia solanacearum in Plant Tissues by Nested-PCR-RFLP

A sensitive and specific assay, based on a Nested-PCR-RFLP protocol, was developed for the detection of biovars of Ralstonia solanacearum, the causal agent of bacterial wilt. Oligonucleotide primer pairs were selected within the hrp gene region. Specific amplification of the hrp fragments was obtained for all R. solanacearum strains and also for two closely related species, Pseudomonas syzygii and the blood disease bacterium. No amplification was observed for a wide range of other bacterial species, including R. pickettii and Burkholderia cepacia. Digestion with HindII provided four distinct restriction profiles specific to biovars or groups of biovars of R. solanacearum: one for biovar 1 strains originating from the Southern part of Africa, one for American biovar 1 and biovars 2 and N2 strains, one for biovars 3 and 4 strains, and one for biovar 5 strains. When applied to either pure culture or infected plant tissues, Nested-PCR allowed detection as low as 10³cfu ml^–1, which corresponds to 1cfu per reaction. Amplification was partially or completely inhibited by compounds contained in plant extracts (potato plant and potato tuber, tomato, tobacco, eggplant, pepper and Pelargonium asperum). A combined PVPP/BSA treatment prior to amplification permitted reliable Nested-PCR detection of R. solanacearum strains in plant samples. Nested-PCR-RFLP, assessed with isolates from Reunion Island but also applicable to any R. solanacearum strain, provides a wide range of possible uses for identification, detection and epidemiological investigations.     

Identification and Detection of Rosellinia Necatrix by Conventional and Real-time Scorpion-PCR

Several polymerase chain reaction (PCR) primers were designed from the internal transcribed spacer (ITS) regions of the rDNA genes of Rosellinia necatrix to develop a PCR-based identification method. Screening the primers against two isolates of R. necatrix and six other Rosellinia species resulted in the amplification of a single specific product from R. necatrix for most of the primer pairs. Two primer pairs (R2-R8 and R10-R7) confirmed their specificity when tested against 72 isolates of R. necatrix and 93 other fungi from different hosts and geographic areas. The R10 primer was modified to obtain a Scorpion primer for detecting a specific 112bp amplicon by fluorescence emitted from a fluorophore in a self-probing PCR assay. This assay specifically recognised the target sequence of R. necatrix over a large number of other fungal species. In conventional PCR, with primer pairs R2-R8 and R10-R7, 10-fold dilutions of R. necatrix DNA indicated a detection limit of 10pgul^-1 using a single set of primers and 10fgl^-1 in nested-PCR. For Scorpion-PCR, the detection limit was 1pgl^-1 and 1fgl^-1 in nested Scorpion-PCR, i.e. 10 times more sensitive than conventional PCR. A simple and rapid procedure for DNA extraction directly from soil was modified and developed to yield DNA of purity and quality suitable for PCR assays. Combining this protocol with the nested Scorpion-PCR procedure it has been possible to specifically detect R. necatrix from artificially inoculated soils in approximately 6h.