Horizontal transfer of the plant virulence gene, nec1, and flanking sequences among genetically distinct Streptomyces strains in the Diastatochromogenes cluster

Evidence for the horizontal transfer of a pathogenicity island (PAI) carrying the virulence gene nec1 and flanking sequences among Streptomyces strains in the Diastatochromogenes cluster is presented. Plant-pathogenic, thaxtomin-producing Streptomyces strains, previously classified as S. scabiei based on the conventionally used phenotypic characteristics, were found to be genetically distinct from the type strain of S. scabiei based on DNA relatedness and 16S rDNA sequence analysis. Pairwise DNA-DNA hybridizations between some of these strains and the S. scabiei type strain were as low as 36%, a value much below what is conventionally accepted for species identity (70%). The sequence of the nec1 gene, however, was identical in all the S. scabiei and S. scabiei-like strains tested, irrespective of their DNA relatedness to the type strain of S. scabiei, their geographic origin, or the isolation host. Furthermore, a 26-kb DNA fragment including and flanking nec1 was also conserved among these strains based on restriction and Southern analyses. These data indicate that the etiology of potato scab is more complex than previously recognized; this result has important implications for potato scab management strategies. Previous research has suggested that horizontal transfer of a PAI was the mechanism for evolution of pathogenicity in S. acidiscabies and S. turgidiscabies, species that lie outside of the Diastatochromogenes cluster. Data presented here support this model and indicate that PAI transfer also has occurred frequently in species closely related to S. scabiei.     

Development of a genotyping method for potato scab pathogens based on multiplex PCR

Scab disease significantly damages potato and other root crops. Streptomyces scabiei, S. acidiscabiei, and S. turgidiscabiei are the best-known causal agents of this disease. We have developed a novel genotyping method for these potato scab pathogens using multiplex PCR, whose benefits include rapid and easy detection of multiple species. We designed a species-specific primer set (6 primers, 3 pairs) for the 16S rRNA genes and 16S-23S ITS regions of these potato scab pathogens. The specificity of the primer set was confirmed by testing 18 strains containing potato scab pathogens, other Streptomyces species, and strains of other genera. The application of the developed method to potato field soil and potato tissue samples resulted in the clear detection and identification of pathogens. Since this method is applicable to a large number of environmental samples, it is expected to be useful for a high-throughput analysis of soil and plant tissues of scab disease.     

A large, mobile pathogenicity island confers plant pathogenicity on Streptomyces species

Potato scab is a globally important disease caused by polyphyletic plant pathogenic Streptomyces species. Streptomyces acidiscabies, Streptomyces scabies and Streptomyces turgidiscabies possess a conserved biosynthetic pathway for the nitrated dipeptide phytotoxin thaxtomin. These pathogens also possess the nec1 gene which encodes a necrogenic protein that is an independent virulence factor. In this article we describe a large (325-660 kb) pathogenicity island (PAI) conserved among these three plant pathogenic Streptomyces species. A partial DNA sequence of this PAI revealed the thaxtomin biosynthetic pathway, nec1, a putative tomatinase gene, and many mobile genetic elements. In addition, the PAI from S. turgidiscabies contains a plant fasciation (fas) operon homologous to and colinear with the fas operon in the plant pathogen Rhodococcus fascians. The PAI was mobilized during mating from S. turgidiscabies to the non-pathogens Streptomyces coelicolor and Streptomyces diastatochromogenes on a 660 kb DNA element and integrated site-specifically into a putative integral membrane lipid kinase. Acquisition of the PAI conferred a pathogenic phenotype on S. diastatochromogenes but not on S. coelicolor. This PAI is the first to be described in a Gram-positive plant pathogenic bacterium and is responsible for the emergence of new plant pathogenic Streptomyces species in agricultural systems.     

Evaluation of the specificity of Salmonella PCR primers using various intestinal bacterial species

AIMS: Nine sets of PCR primers targeting Salmonella were evaluated for their specificity with pure cultures of intestinal-associated bacteria prior to their application to Salmonella detection in faecal samples. METHODS AND RESULTS: Gene targets of PCR primers included: 16S rDNA, a Salmonella pathogenicity island I virulence gene, Salmonella enterotoxin gene (stn), invA gene, Fur-regulated gene, histidine transport operon, junction between SipB and SipC virulence genes, Salmonella-specific repetitive DNA fragment, and multiplex targeting invA gene and spvC gene of the virulence plasmid. Fifty-two Salmonella strains were used to determine sensitivity; five strains from related genera and 45 intestinal bacteria were used to evaluate specificity. All primers amplified DNA from Salmonella strains, although two primer sets failed to amplify Salmonella DNA from either Salmonella bongori (hilA) or subgroups VI or VII (16S rDNA). There was no detected amplification of DNA from related bacterial genera with any of nine PCR assays. Six of the PCR assays amplified DNA for some intestinal bacteria. CONCLUSIONS: Only three primer pairs were determined to be suitable for application of PCR amplification of Salmonella in faecal samples - 16S rDNA, stn and histidine transport operon. We are currently evaluating their sensitivity of detection of Salmonella in faecal samples. SIGNIFICANCE AND IMPACT OF THE STUDY: This study demonstrated the importance of internal lab validation of PCR primers prior to application to the type of samples of interest. Information from this evaluation can be applied in other labs to facilitate choosing Salmonella PCR primers.     

A novel teichoic acid from the cell wall of Streptomyces sp. VKM Ac-2275

The cell wall of a pathogenic strain Streptomyces sp. VKM Ac-2275 isolated from potato tubers infected by scab contains a teichoic acid related to poly(glycosylpolyol phosphate) with a repeating unit established by chemical and NMR spectroscopic methods. About 60% of l-rhamnose residues bear an O-acetyl group at O-2 and 20% of the internal glucose residues contain an additional phosphate at C-4. The polymer is built of 5-6 units. This structure is found in bacteria for the first time. The strain is phylogenetically closest to the scab-causing species Streptomyces scabiei and Streptomyces europaeiscabiei, but differs from both these species in morphological and physiological characters and does not produce thaxtomin A, the main phytotoxin produced by S. scabiei.     

PCR-based procedures for detection and quantification of Staphylococcus aureus and their application in food

AIMS: To evaluate the specificity of nuc targeted primers for PCR detection of Staphylococcus aureus in different food matrices and to establish a RTQ-PCR procedure suitable for the routine detection and quantification of this pathogen in food. METHODS AND RESULTS: Specificity of nuc targeted primers (Pri1-Pri2 and the newly designed RTQ-PCR primers) was tested on a total of 157 strains of genetically confirmed identity, including reference and food isolates. PCR detection on artificially inoculated beef samples by DNA extraction using a DNeasy Tissue Kit (Qiagen GmhH, Hilden, Germany) showed a sensitivity value around 10(3) CFU g(-1). The two RTQ-PCR systems, incorporating SYBR-Green I and TaqMan, respectively, applied in the present work improved the sensitivity of conventional PCR by lowering the detection level to 10 and 100 cells, respectively. Out of 164 naturally contaminated foods tested for the presence of Staph. aureus, 74 were positive by conventional PCR and 69 by the traditional culture method with a high degree of result agreement between both methodologies (93.3%). CONCLUSIONS: PCR approaches, using nuc targeted primers, have proved specific and combined with growth techniques may improve detection of Staph. aureus in different types of food. SIGNIFICANCE AND IMPACT OF THE STUDY: The SYBR-Green I real-time PCR approach established allows the sensitive, automated and quantitative detection of Staph. aureus for routine analysis at a reasonable cost.     

Development of an extensive set of 16S rDNA-targeted primers for quantification of pathogenic and indigenous bacteria in faecal samples by real-time PCR

AIMS: The microbiota of the human intestinal tract constitutes a complex ecosystem. We report the design and optimization of an extensive set of 16S rDNA-targeted species- and group-specific primers for more accurate quantification of bacteria from faecal samples with real-time PCR. METHODS AND RESULTS: A linear range of quantification between 0.1-10 pg and 10 ng of specific target genome was obtained, which corresponds to detection of ca 30-4500 to 1.9 x 10(6)-6.0 x 10(6) target bacterial genomes. Functionality of the assays was confirmed by quantification of target bacterial DNA from faecal DNA preparations of healthy volunteers and irritable bowel syndrome (IBS) patients. Additionally, spiking of faecal preparations with Helicobacter pylori, Clostridium difficile or Campylobacter jejuni was used to confirm the accurate and sensitive quantification. CONCLUSIONS: Real-time PCR is a very sensitive and precise technique for an extensive quantitative evaluation of gut microbiota and is feasible for detection of human pathogens from faecal samples. SIGNIFICANCE AND IMPACT OF THE STUDY: To design and optimize an extensive set of real-time PCR assays targeting a large group of predominant and pathogenic GI microbial species for further use in updating the current knowledge of the putative role of gut microbiota in health and disease.     

Biological control agent of common scab disease by antagonistic strain Bacillus sp. sunhua

AIMS: To identify an antagonistic strain against Streptomyces scabiei and to characterize the antibiotic agent. The efficacy of the isolated strain in controlling common scab disease was also evaluated. METHODS AND RESULTS: A bacterial strain antagonistic against S. scabiei was isolated from the soil of a potato-cultivating area. This bacterium was identified as a Bacillus species by 16S rRNA gene sequence analysis and was designated Bacillus sp. sunhua. Antibiotics produced by this strain were proven to be stable within a broad pH range and at high temperatures. The culture broth was extracted with ethyl acetate, and then the crude extract was applied to HPLC. Two compounds were isolated and identified as iturin A and macrolactin A by 1H-NMR, 13C-NMR, HMBC, HMQC and mass spectrometer. The culture broth of Bacillus sp. sunhua had a suppressive effect on common scab disease in a pot assay, decreasing the infection rate from 75 to 35%. This strain also suppressed Fusarium oxysporum, the pathogen of potato dry rot disease. CONCLUSIONS: Bacillus sp. sunhua was shown to inhibit S. scabiei effectively. SIGNIFICANCE AND IMPACT OF THE STUDY: This is the first report demonstrating that macrolactin A and iturin A inhibit S. scabiei. This study demonstrated the possibility of controlling potato scab disease using Bacillus sp. sunhua.     

Diagnosis of Xanthomonas axonopodis pv. citri, causal agent of citrus canker, in commercial fruits by isolation and PCR-based methods

AIMS: To show the results of the detection of an EU quarantine organism, Xanthomonas axonopodis pv. citri (Xac), in citrus fruits imported from countries where this bacterium is present, using an integrated approach that includes isolation, pathogenicity assays and molecular techniques. METHODS AND RESULTS: Citrus fruits with canker-like symptoms, exported to Spain from South American countries were analysed by several methods. Bacterial isolation, three conventional polymerase chain reaction (PCR) protocols, and real-time PCR with SYBR Green or a TaqMan probe, were compared. Canker-like lesions were disrupted in PBS buffer, and the extract used for bacterial isolation and DNA extraction followed by PCR amplification. Canker lesions, identified by PCR, showed viable bacteria in eleven of fifteen fruit samples. In 16 out of 130 lesions analysed from these samples, Xac was isolated, and pathogenicity on grapefruit leaves confirmed. By real-time PCR, using SYBR green or a Taqman probe, Xac was detected in 58 and 80 lesions respectively. By conventional PCR the bacterium was detected in 39-52 lesions depending on the protocol employed. CONCLUSIONS: An integrated approach for reliable detection of Xac in lesions of fruit samples, employing several techniques and with real-time PCR using a TaqMan probe as the fastest and most sensitive screening method, has been established and validated and is proposed as a useful tool for the analysis of Xac on fresh fruits. SIGNIFICANCE AND IMPACT OF THE STUDY: This work faces up to the real threat of the importation of citrus fruits that can harbour quarantine bacteria and will be useful in diagnostic laboratories for the analysis of commercial fresh fruits from countries where citrus canker is present.     

Genetic diversity of Streptomyces spp. causing common scab of potato in eastern Canada

Common scab is an important disease of potato caused by Streptomyces scabies and other closely related species. In this study, the genetic diversity of Streptomyces spp. causing common scab of potato in eastern Canada was for the first time investigated. Forty-one Streptomyces spp. isolates were retrieved from necrotic lesions of potato tubers harvested from different regions of the Canadian provinces New-Brunswick, Nova Scotia and Prince-Edward-Island. Most isolates were closely related to known pathogenic S. scabies strains on the basis of partial 16S ribosomal (r) RNA and rpoB gene sequence analyses. Two isolates were identified as pathogenic species of Streptomyces acidiscabies. To our knowledge, this species has never been previously isolated in these areas. Genome fingerprinting studies using repetitive elements (rep) polymerase chain reactions (PCR) revealed 10 distinct genetic groups in eastern Canada. The geographical distribution of the genetic groups was region-dependant. Pathogenicity- and virulence-related genes (txtA, txtC, and tomA) were PCR-amplified from each isolate, and nucleotide sequence analysis of partial gene fragments revealed slight polymorphisms in both txtA and txtC genes. No genetic variation was noted in the partial tomA gene sequences.     

Species-specific PCR primers for Pythium developed from ribosomal ITS1 region

AIMS: To develop a specific method for distinguishing and detecting Pythium species. METHODS AND RESULTS: Twenty PCR primers were designed from the sequences of the rDNA internal transcribed spacer 1 (ITS1) region from 34 Pythium species. The specificity of these forward primers paired with ITS2 or ITS4 and reverse universal primers was tested. Five species-specific primers were obtained, other primers showed different specificity to Pythium species. The specific amplifications enabled nine Pythium species to be differentiated. Specific detection of Pythium aphanidermatum from infested plants and P. dimorphum from soil was demonstrated. CONCLUSIONS: A method for identifying nine Pythium species using specific PCR amplification was achieved. SIGNIFICANCE AND IMPACT OF THE STUDY: Because of its rapidness and ease, the results of PCR amplified with different primers can be a powerful method for identifying Pythium species and detecting or monitoring the target fungus directly from plant material, soil and water samples.     

Multiplex real-time PCR (TaqMan) assay for the simultaneous detection and discrimination of potato powdery and common scab diseases and pathogens

Aims: To develop a multiplex real‐time PCR assay using TaqMan probes for the simultaneous detection and discrimination of potato powdery scab and common scab, two potato tuber diseases with similar symptoms, and the causal pathogens Spongospora subterranea and plant pathogenic Streptomyces spp. Methods and Results: Real‐time PCR primers and a probe for S. subterranea were designed based on the DNA sequence of the ribosomal RNA ITS2 region. Primers and a probe for pathogenic Streptomyces were designed based on the DNA sequence of the txtAB genes. The two sets of primer pairs and probes were used in a single real‐time PCR assay. The multiplex real‐time PCR assay was confirmed to be specific for S. subterranea and pathogenic Streptomyces. The assay detected DNA quantities of 100 fg for each of the two pathogens and linear responses and high correlation coefficients between the amount of DNA and C_t values for each pathogen were achieved. The presence of two sets of primer pairs and probes and of plant extracts did not alter the sensitivity and efficiency of multiplex PCR amplification. Using the PCR assay, we could discriminate between powdery scab and common scab tubers with similar symptoms. Common scab and powdery scab were detected in some tubers with no visible symptoms. Mixed infections of common scab and powdery scab on single tubers were also revealed. Conclusions: This multiplex real‐time PCR assay is a rapid, cost efficient, specific and sensitive tool for the simultaneous detection and discrimination of the two pathogens on infected potato tubers when visual symptoms are inconclusive or not present. Significance and Impact of the Study: Accurate and quick identification and discrimination of the cause of scab diseases on potatoes will provide critical information to potato growers and researchers for disease management. This is important because management strategies for common and powdery scab diseases are very different.     

Rapid detection of Oenococcus oeni in wine by real-time quantitative PCR

AIMS: To develop a real-time polymerase chain reaction (PCR) method for rapid detection and quantification of Oenococcus oeni in wine samples for monitoring malolactic fermentation. METHODS AND RESULTS: Specific primers and fluorogenic probe targeted to the gene encoding the malolactic enzyme of O. oeni were developed and used in real-time PCR assays in order to quantify genomic DNA either from bacterial pure cultures or wine samples. Conventional CFU countings were also performed. The PCR assay confirmed to be specific for O. oeni species and significantly correlated to the conventional plating method both in pure cultures and wine samples (r = 0.902 and 0.96, respectively). CONCLUSIONS: The DNA extraction from wine and the real-time PCR quantification assay, being performed in ca 6 h and allowing several samples to be concurrently processed, provide useful tools for the rapid and direct detection of O. oeni in wine without the necessity for sample plating. SIGNIFICANCE AND IMPACT OF THE STUDY: Rapid quantification of O. oeni by a real-time PCR assay can improve the control of malolactic fermentation in wines allowing prompt corrective measures to regulate the bacterial growth.     

Characterization of the brewery spoilage bacterium Obesumbacterium proteus by automated ribotyping and development of PCR methods for its biotype 1

AIMS: To study the ability of automated ribotyping to characterize Obesumbacterium proteus and Hafnia alvei, to design primers and to evaluate standard end-point and real-time PCR for the detection of O. proteus biotype 1 in beer and in brewers's yeast-containing samples. METHODS AND RESULTS: Automated ribotyping was carried out using the standard method with EcoRI and PvuII. The digestions with both enzymes clearly differentiated O. proteus biotypes 1 and 2 and H. alvei. PCR primers were designed according to the 16S rRNA gene sequence of the O. proteus type strain. Two primer sets (Obs137-Obs558 and Obs137-Obs617) detected O. proteus biotype 1 and H. alvei but not O. proteus biotype 2 or other tested beer spoilage bacteria (40 species) in the end-point and real-time PCR, indicating their high specificity. The detection limit for O. proteus was 160-1600 CFU 100 ml(-1) beer in the end-point PCR reactions and < or =160 CFU 100 ml(-1) beer in the real-time PCR reactions. More cells (from 16 to 3200) were needed for detection in the presence of brewer's yeast cells. CONCLUSIONS: Automated ribotyping is a useful tool to characterize and identify O. proteus and H. alvei isolates. The designed primers are suitable for the rapid detection of O. proteus biotype 1 and H. alvei in brewery samples by PCR. Significance and IMPACT OF THE STUDY: Automated ribotyping and PCR could improve microbiological quality control in breweries by facilitating the detection, identification and tracing of spoilage bacteria.     

Development and Validation of Conventional and Quantitative Polymerase Chain Reaction Assays for the Detection of Storage Rot Potato Pathogens, Phytophthora erythroseptica, Pythium ultimum and Phoma foveata

The diseases pink rot, watery wound rot and gangrene are important storage rot diseases of potato associated predominantly with Phytophthora erythroseptica (P.), Pythium ultimum (Py.) and Phoma exigua (Phoma) var. foveata respectively. Reliable molecular‐based diagnostic tests are required that will not only allow unequivocal identification of symptoms but will further advance epidemiological studies of these potato diseases to increase our understanding and contribute to more effective management and control strategies to the potato industry. Primers and probes were designed in specific regions of the internal transcribed spacer (ITS) regions to develop conventional and real‐time quantitative polymerase chain reaction (PCR) assays able to detect all possible fungal and oomycete pathogens causing pink rot, watery wound rot and gangrene. The specificity of each diagnostic assay was rigorously tested with over 500 fungal/oomycete plant pathogen isolates from potato and reference culture collections, and both conventional and real‐time PCR methods produced similar results. In terms of sensitivity, the detection limits for real‐time PCR went below ag DNA levels compared with pg DNA levels with conventional PCR. The real‐time PCR assays developed to detect Phoma foveata and Py. ultimum on tubers were suitable for the comparative C_t method (ΔΔCt) of quantification using the cytochrome oxidase gene of potato as a normalizer assay; an advantage as the need for a standard curve is eliminated. Each assay detected Phoma species (var. foveata or exigua) from naturally infected tubers showing symptoms of gangrene, and P. erythroseptica or Py. ultimum were also detected following inoculation of Russet Burbank tubers. Each diagnostic assay developed could reliably detect and distinguish between the pink rot, watery wound rot and gangrene‐causing potato pathogens.     

Detection and quantification of Escherichia coli O157:H7 in environmental samples by real-time PCR

AIMS: To apply the real-time Polymerase chain reaction (PCR) method to detect and quantify Escherichia coli O157:H7 in soil, manure, faeces and dairy waste washwater. METHODS AND RESULTS: Soil samples were spiked with E. coli O157:H7 and subjected to a single enrichment step prior to multiplex PCR. Other environmental samples suspected of harbouring E.coli O157:H7 were also analysed. The sensitivity of the primers was confirmed with DNA from E.coli O157:H7 strain 3081 spiked into soil by multiplex PCR assay. A linear relationship was measured between the fluorescence threshold cycle (C T ) value and colony counts (CFU ml(-1)) in spiked soil and other environmental samples. The detection limit for E.coli O157:H7 in the real-time PCR assay was 3.5 x 10(3) CFU ml(-1) in pure culture and 2.6 x 10(4) CFU g(-1) in the environmental samples. Use of a 16-h enrichment step for spiked samples enabled detection of <10 CFU g(-1) soil. E. coli colony counts as determined by the real-time PCR assay, were in the range of 2.0 x 10(2) to 6.0 x 10(5) CFU PCR (-1) in manure, faeces and waste washwater. CONCLUSIONS: The real-time PCR-based assay enabled sensitive and rapid quantification of E. coli O157:H7 in soil and other environmental samples. SIGNIFICANCE AND IMPACT OF THE STUDY: The ability to quantitatively determine cell counts of E.coli O157:H7 in large numbers of environmental samples, represents considerable advancement in the area of pathogen quantification for risk assessment and transport studies.     

马铃薯立枯丝核菌拮抗菌QHZ11的实时荧光定量PCR快速检测与应用

【背景】植物根际促生菌(plant growth-promoting rhizobacteria,PGPR)在根际的定殖是其发挥作用的基础,直观有效的跟踪技术和定量方法是研究PGPR在根际原位分布规律的重要工具。【目的】建立一种马铃薯黑痣病病原菌——立枯丝核菌拮抗菌QHZ11的实时荧光定量PCR快速检测体系,并检测拮抗菌QHZ11在马铃薯根际的动态变化。【方法】根据GenBank中登录的类芽孢杆菌及近源菌株gyrB基因序列差异筛选特异性引物,优化反应条件;通过盆栽试验对马铃薯根际拮抗菌进行快速检测。盆栽试验设3个处理,T1：对照(无菌水,CK);T2：QHZ11菌悬液灌土(QHZ11);T3：将功能菌在有机肥中进行二次固体发酵制成生物有机肥(BOF11)。【结果】筛选出拮抗菌QHZ11的专用引物为gyrB-F/gyrB-R;建立的拮抗菌QHZ11实时荧光定量PCR检测方法特异性好、灵敏度高且重复性较好,线性相关系数为0.999 8,检测组内变异系数均在1%以内,扩增效率为0.9,可检测出1×103?1×1010 copies/g-soil的拮抗菌,具有检出限低和扩增效率高的特点。盆栽试验结果发现,T3处理马铃薯根际拮抗菌QHZ11的数量从接种的第10天即高出T2处理一个数量级,并于马铃薯盛花期(接种后第60天)达到峰值,说明二次固体发酵增加了拮抗菌在根际土壤中的存活和繁殖。【结论】建立的实时荧光定量PCR快速检测体系灵敏、高效,可为研究拮抗菌在马铃薯根际原位分布以及与病原菌的互作方面提供便捷有效的方法。     

Development of a Genotyping Method for Potato Scab Pathogens Based on Multiplex PCR

Scab disease significantly damages potato and other root crops. Streptomyces scabiei, S. acidiscabiei, and S. turgidiscabiei are the best-known causal agents of this disease. We have developed a novel genotyping method for these potato scab pathogens using multiplex PCR, whose benefits include rapid and easy detection of multiple species. We designed a species-specific primer set (6 primers, 3 pairs) for the 16S rRNA genes and 16S–23S ITS regions of these potato scab pathogens. The specificity of the primer set was confirmed by testing 18 strains containing potato scab pathogens, other Streptomyces species, and strains of other genera. The application of the developed method to potato field soil and potato tissue samples resulted in the clear detection and identification of pathogens. Since this method is applicable to a large number of environmental samples, it is expected to be useful for a high-throughput analysis of soil and plant tissues of scab disease.