Monilinia species identified on peach and nectarine in Croatia,with the first record of Monilinia fructicola

During 2012, an official survey was conducted for Monilinia species present on peach and nectarine in Croatia. In total, 169 Monilinia spp. isolates were collected from 24 commercial orchards and identified according to morphology in culture and PCR. Eighty of the isolates were identified as Monilinia laxa, 70 as M. fructigena and 19 as M. fructicola. M. fructicola was found only at one location in the Mediterranean part of the country, and this is the first record of this quarantine fungus in Croatia. PCR diagnostic tests using M. fructicola‐specific primer pair MO368‐5/MO368‐10R repeatedly gave false negatives for some isolates. PCR tests using primer pair ITS1‐Mfc1/ITS4‐Mfc1 amplified M. fructicola‐specific product in all isolates and was therefore shown to be more suitable for diagnostic purposes.     

Rusted Root of Ginseng (Panax quinquefolius) Is Caused by a Species of Rhexocercosporidium

ABSTRACT Rusted root (also known as rusty root) of ginseng (Panax quinquefolius) was first described over 70 years ago, but the causal agent has not been clearly established. The disease is characterized by slightly raised reddish-brown to black root lesions of varying size. The lesions, regardless of size, remain superficial; however, peridermal tissue is ruptured and sloughed off, giving the root a scabbed appearance. Culture-independent techniques were used to demonstrate that a fungal internal transcribed spacer (ITS) region DNA fragment was strongly associated with diseased but not healthy root tissue. The fragment ( approximately 650 bp in length) was cloned. Restriction enzyme digests of cloned DNA indicated that the 650-bp fragment represented a single taxon. BLAST analysis following sequencing of the fragment found that the nearest matches in GenBank were anamorphic genera associated with discomycetes, in particular Rhexocercosporidium spp. This putative identification was supported further by isolating fungi from diseased tissue using a semiselective agar medium. With this procedure, a Rhexocercosporidium-like fungus was isolated; DNA extracted from fungal cultures and amplified using ITS oligonucleotide primers was found to be identical to similarly amplified DNA from the 650-bp bands. However, the isolates were distinct, with respect to growth rate on agar media and ITS sequence, from Rhexocercosporidium carotae, the only described species in this genus. The ability to reproduce symptoms on ginseng roots was confirmed in pathogenicity tests. Oligonucleotide primers based on ITS sequences were designed to amplify DNA of Rhexocercosporidium spp. Polymerase chain reaction assays on DNA extracted from naturally infected root tissue showed that the fungus was present in nearly all symptomatic roots but was infrequent in healthy-appearing roots. The most probable cause of rusted root of ginseng is a previously undescribed species of Rhexocercosporidium.     

A nested‐PCR method for rapid detection of Sclerotinia sclerotiorum on petals of oilseed rape (Brassica napus)

This study established a quick and accurate method to detect petal infection of oilseed rape (Brassica napus) by Sclerotinia sclerotiorum using a nested‐PCR technique. DNA samples were extracted from each petal using a microwave method, followed by two rounds of PCR amplification. The first‐round PCR amplification was performed using the universal fungal primer pair ITS4/ITS5, and the second‐round amplification with a specific primer pair XJJ21/XJJ222, which was designed using the single‐nucleotide polymorphisms among nuclear rDNA ITS sequences of Sclerotinia spp., Botrytis spp. and other selected fungi. The established technique is rapid and inexpensive, and has a high degree of specificity and sensitivity. This assay can distinguish Sclerotinia spp. from other fungi, including Botrytis cinerea, a closely related and frequent cohabitant on oilseed rape petals, and can detect 50 fg genomic DNA, five ascospores of S. sclerotiorumin vitro or 50 ascospores of S. sclerotiorum on one petal in approximately 6 h, even in the presence of a high background of oilseed rape DNA. This technique was successfully applied in detecting natural petal infections.     

Polymerase Chain Reaction Detection of Ustilago hordei in Leaves of Susceptible and Resistant Barley Varieties

ABSTRACT Although Ustilago hordei infects barley seedlings, symptoms of the disease covered smut are not visible until heading. Natural or artificial inoculation usually results in inconsistent infection, even in highly susceptible lines. Thus, breeding for resistance to covered smut is time consuming and difficult. The ribosomal DNA internal transcribed spacer (ITS) regions of U. hordei were sequenced and a primer pair was developed for polymerase chain reaction (PCR). These primers amplified a 574-bp fragment from DNA of Ustilago spp., but did not amplify DNA from barley or other common barley pathogens. DNA extracted from as few as four U. hordei sporidia was detected by this method. U. hordei DNA was amplified from leaf tissue of inoculated susceptible and resistant plants at different stages of plant development in differential varieties. Growth of the fungus in different leaves of an individual plant was variable. Several highly resistant varieties were shown to contain U. hordei DNA in the first three to four leaves, but not in later leaves. Thus, although the fungus can infect many resistant plants, the plants remain symptomless. Detection of U. hordei prior to heading should assist efforts for breeding for resistance and provide clues concerning the mechanisms of resistance employed by different resistance genes.     

双重PCR检测马铃薯晚疫病菌和青枯病菌方法的建立及应用

 利用真菌通用引物ITS1和ITS4扩增马铃薯晚疫病菌转录间隔区并进行序列测定,通过序列比较,设计了1对马铃薯晚疫病菌的特异引物INF1/INF2,并对15种不同真菌、细菌和7种疫霉属和腐霉属卵菌基因组DNA进行PCR扩增,结果只有不同来源的马铃薯晚疫病菌株可获得324 bp的特异带。将引物INF1/INF2与卵菌通用引物进行巢式PCR扩增后,其检测灵敏度在DNA水平上可达30 fg。运用设计的引物与马铃薯青枯病菌特异引物结合建立了双重PCR体系,能从马铃薯晚疫病菌和马铃薯青枯病菌总基因组DNA以及人工接种和自然发病的马铃薯植株中分别或同时扩增到324 bp和281 bp的特异片段。实现了同时对马铃薯晚疫病菌和马铃薯青枯病菌的快速可靠检测。     

PCR-based differentiation of Fusarium oxysporum ff. sp. lycopersici and radicis-lycopersici and races of F. oxysporum f. sp. lycopersici

The pathogenic type (form and race) of Fusarium oxysporum, which generates wilt symptoms on tomato, was rapidly identified with a polymerase chain reaction (PCR)-based technique. We compared the partial nucleotide sequences of endo polygalacturonase (pg1) and exo polygalacturonase (pgx4) genes from isolates of F. oxysporum ff. sp. lycopersici (FOL) and radicis-lycopersici (FORL) from Japan and designed specific primer sets (uni, sp13, sp23, and sprl) based on the nucleotide differences that appeared among the pathogenic types. PCR with the uni primer set amplified a 670∼672-bp fragment from all isolates of FOL and FORL. With the sp13 primer set, an amplicon of 445 bp was obtained only from isolates of FOL race 1 and 3. With the sp23 primer set, a 518-bp fragment was obtained from isolates of FOL race 2 and 3. The sprl primer set yielded a 947-bp fragment from isolates of FORL, but not from FOL. A combination of amplifications with these primer sets effectively differentiated the pathogenic types of F. oxysporum in tomato.     

A Phytophthora conserved transposon‐like DNA element as a potential target for soyabean root rot disease diagnosis

A transposon‐like element, A3aPro, with multiple copies in the Phytophthora sojae genome, was identified as a suitable detection target for this devastating soyabean root rot pathogen. The PCR primers TrapF1/TrapR1 were designed based on unique sequences derived from the transposon‐like sequence. A 267‐bp DNA fragment was amplified using this primer pair, the specificity of which was evaluated against 118 isolates of P. sojae, 72 isolates of 25 other Phytophthora spp., isolates of Pythium spp. and isolates of true fungi. In tests with P. sojae genomic DNA, detection sensitivities of 10 pg and 10 fg DNA were achieved in standard PCR (TrapF1/TrapR1) and nested PCR (TrapF1/TrapR1 and TrapF2/TrapR2), respectively. Meanwhile, PCR with TrapF1/TrapR1 primers detected the pathogen at the level of a single oospore, and even one zoospore. These primers also proved to be efficient in detecting pathogens from diseased soyabean tissues, residues and soils. In addition, real‐time quantitative PCR (qPCR) assays coupled with the TrapF1/TrapR1 primers were developed to detect and quantify the pathogen. The results demonstrated that the TrapF1/TrapR1 and TrapF2/TrapR2 primer‐based PCR assay provides a rapid and sensitive tool for the detection of P. sojae in plants and in production fields.     

Exploring host-pathogen combinations for compatible and incompatible reactions in grapevine downy mildew

Rhizoctonia leguminicola, the traditional name for the causal agent of blackpatch of red clover (Trifolium pratense) and other legumes, produces alkaloids, one of which causes livestock to salivate excessively. Fungal presence is generally confirmed by microscopy, disappearance of symptoms in livestock after removal of suspect forage, and chromatography of the alkaloid slaframine, in legume tissue. Use of the polymerase chain reaction (PCR) to amplify a pathogen-specific DNA fragment would complement the other methods of pathogen identification. Primers were designed to the R. leguminicola ITS region, sequence provided by another laboratory. Two separate primer pairs each amplified a different fragment–one ~250 bp long (expected length 249 bp), and the other 300 to 400 bp long (expected length 368 bp)–in DNA extracted from cultures of R. leguminicola. Under the experimental conditions, the primers to the larger fragment amplified a stronger band, and a minimum of 0.1 ng DNA per reaction was needed to produce a detectable band. With the primers to the 368-bp fragment, a band 300 to 400 bp long was also amplified in DNA extracted from red clover (cultivar Kenland) inoculated with R. leguminicola and harvested 70 h post inoculation. No amplification with this primer set occurred in DNA extracted from mock-inoculated red clover plants, supporting the likelihood that the primers amplified R. leguminicola DNA extracted from inoculated red clover. This primer set did not amplify DNA extracted from a red clover isolate of the legume pathogen Stemphylium sarcinaeforme, or DNA extracted from two isolates of the legume pathogen Colletotrichum trifolii, indicating specificity for R. leguminicola DNA. Lack of amplification of alfalfa DNA indicated that the R. leguminicola primers will be useful for testing for the presence of blackpatch in alfalfa.     

Specific Detection of Tomato Pathotype of Verticillium dahliae by PCR Assays

Verticillium dahliae Klebahn is the causal agent of tomato wilt disease. Isolates of V. dahliae can be classified based on pathogenicity to tomato, but the pathotypes are indistinguishable in morphology. We designed PCR primers for specific detection of isolates pathogenic to tomato (tomato pathotype) from the sequences of a pathotype-specific gene, vdt1. With the primer pair Tg5/Tc3, a PCR product (approximately 3.2 kb) specific to tomato pathotype was amplified from the genomic DNA of isolates. Using the primer pair, a tomato pathotype isolate was specifically detected from hypocotyls of inoculated tomato and eggplant. On the other hand, no amplification was observed from non-tomato pathotype isolates of V. dahliae, some other wilt pathogens of tomato and a healthy host plant. Therefore, the primer pair can be useful for pathotype-specific detection of V. dahliae as well as for diagnosis of wilt disease of tomato plant. Received 7 September 2001/ Accepted in revised form 3 December 2001     

Genotyping Cephalosporium gramineum and development of a marker for molecular diagnosis

This study investigated the genetic variation of 40 isolates of Cephalosporium gramineum, the causal agent of cephalosporium stripe disease of wheat, based on variations in internal transcribed spacers (ITS) and intergenic spacers (IGS) of rDNA. Of the isolates, 29 were from Japan and the rest from the USA and Europe. The ITS region was about 600 bp and almost identical among these isolates. In the IGS region (～5 kbp), restriction fragment length polymorphism analysis detected four genotypes among the 40 isolates. One representative isolate was selected from each of the four genotypes, and the IGS region was sequenced. Attempts to design a genotype‐specific marker based on the size of PCR products amplified with selected primers failed to differentiate among the four genotypes. Alternatively, a species‐specific primer set (CGIGS1 and CGIGS2) was developed that annealed within the conserved region, producing a DNA fragment of about 1·8 kbp. Tests of this primer set on a wide range of other fungi from 11 genera confirmed that it was specific to C. gramineum. This primer set could serve as an effective tool in the molecular diagnosis of C. gramineum and has the potential to assist in a better understanding of the host–pathogen interaction.     

Development of PCR Primers for a New Fusarium oxysporum Pathogenic on Paris Daisy (Argyranthemum frutescens L.)

The inverse PCR technique was applied to clone genomic DNA flanking insertion sites of sequences homologous to the transposable element Fot1 in the genome of a new pathogenic isolate of Fusarium oxysporum obtained from wilted Argyranthemum frutescens (Paris daisy). Based on the genomic flanking regions, a primer was designed which when paired to a second primer matching the Fot1 sequence allowed detection of this pathogen by PCR. The primer pair Mg5/Mg6 could specifically identify nine tested isolates of F. oxysporum from A. frutescens, when fungal genomic DNA was used as template. Moreover, the primer pair Mg5/Mg6 allowed successful detection of the pathogen in stem and root tissue from asymptomatic plants that were artificially inoculated with a representative isolate of F. oxysporum from A. frutescens.     

Identification, occurrence and pathogenicity of Rhizopycnis vagum on muskmelon in Spain

Rhizopycnis vagum is a recently described coelomycetous fungus that contributes to vine decline of muskmelons in Honduras, Guatemala, Texas and California. This fungus has been associated with roots of muskmelon plants affected by vine decline in most Spanish muskmelon production areas. Isolates were collected from 1996 to 2000 and identified from their cultural and morphological characteristics and by sequencing the ITS region of the ribosomal coding nuclear DNA (rDNA) and phylogenetic analysis. A few isolates from muskmelon with growth characteristics similar to R. vagum were identified as Phoma terrestris . Watermelon, Cucurbita hybrids used as rootstocks for watermelon production, Amaranthus sp. and grapevine were also hosts for R. vagum . Based on disease reaction in muskmelon roots, the pathogenicity of 10 isolates of R. vagum from different hosts and geographical origins was verified. The fungus caused root discoloration, corky lesions, and eventually the presence of pink coloration on the roots. Rhizopycnis vagum appears to be a minor pathogen that contributes to muskmelon vine decline complex in Spain through infection of roots.     

A nested-polymerase chain reaction protocol for the detection of Mycosphaerella nawae in persimmon

Mycosphaerella nawae is the causal agent of circular leaf spot of persimmon. A polymerase chain reaction (PCR) based protocol was developed for M. nawae-specific identification from pure culture, or infected symptomatic and asymptomatic persimmon tissues. Variation among the internal transcribed spacer regions (ITS) of the ribosomal DNA (rDNA) sequences of potentially related fungal species in persimmon orchards was analyzed for a primer pair design. Specificity was confirmed using multiple isolates of these species, other fungal pathogens that cause foliar diseases in persimmon and contaminants commonly obtained in the isolation process. The detection threshold for M. nawae DNA was lowered from 50 pg to 500 fg when nested-PCR was evaluated instead of single PCR. The nested-PCR protocol developed in this study showed its suitability to be applied for the specific detection of M. nawae from three types of naturally infected persimmon tissues: from lesions in fresh leaves, from pseudothecia present in lesions in leaf litter, and from infected asymptomatic leaves. The protocol can be useful for routine diagnosis, disease monitoring programs and for epidemiological research.     

Conventional PCR and Real-time Quantitative PCR Detection of Helminthosporium Solani in Soil and on Potato Tubers

Silver scurf is an economically important blemish disease of potato caused by the fungus Helminthosporium solani. Two sets of PCR primers, Hs1F1/Hs2R1 (outer) and Hs1NF1/Hs2NR1 (nested) were designed to unique sequences of the nuclear ribosomal internal transcribed spacer (ITS1 and ITS2) regions of H. solani. Nested PCR was used to increase the specificity and sensitivity of single round PCR. Each primer set amplified a single product of 447 bp and 371 bp respectively, with DNA from 71 European and North American isolates of H. solani, and the specificity of primers was confirmed by the absence of amplified product with DNA from other fungal and bacterial plant pathogens. A simple and rapid procedure for direct extraction of DNA from soils and potato tubers was modified and developed to yield DNA of a purity and quality suitable for PCR within 3 h. The sensitivity of PCR for the specific detection of H. solani in seeded soils was determined to be 1.5 spores g^–1 of soil. H. solani was also detected by PCR in naturally infested soil and from peel and peel extract from infected and apparently healthy tubers. Specific primers and a TaqMan fluorogenic probe were designed using the original primer sequences to perform real-time quantitative (TaqMan) PCR. The same levels of sensitivity for specific detection of H. solani in soil and tubers were obtained during first round mboxTaqMan-based PCR as with conventional nested PCR and gel electrophoresis. This rapid and quantitative PCR assay allows an accurate estimation of tuber and soil contamination by H. solani, thus providing a tool to study the ecology of the organism and to serve as a crucial component for disease risk assessments.     

Detection of Phytophthora nicotianae and P. citrophthora in Citrus Roots and Soils by Nested PCR

The polymerase chain reaction (PCR) was used for the specific detection of Phytophthora nicotianae and P. citrophthora in citrus roots and soils. Primers were based on the nucleotide sequences of the internal transcribed space regions (ITS1 and ITS2) of 16 different species of Phytophthora. Two primer pairs, Pn5B–Pn6 and Pc2B–Pc7, were designed specifically to amplify DNA from P. nicotianae and P. citrophthora, respectively. Another primer pair (Ph2–ITS4) was designed to amplify DNA from many Phytophthora species. All primer pairs were assessed for specificity and absence of cross-reactivity, using DNA from 118 isolates of Phytophthora and 82 of other common soil fungi. In conventional PCR, with a 10-fold dilution series of template DNA, the limit of detection was of 1pgl^–1 DNA for all the primer pairs (Ph2–ITS4, Pn5B–Pn6, and Pc2B–Pc7). In nested PCR, with primers Ph2–ITS4 in the first round, the detection limit was of 1fgl^–1 for both the primer sets (Pn5B–Pn6 and Pc2B–Pc7). Simple, inexpensive and rapid procedures for direct extraction of DNA from soil and roots were developed. The method yielded DNA of a purity and quality suitable for PCR within 2–3h. DNA extracted from soil and roots was amplified by nested PCR utilizing primers Ph2–ITS4 in the first round. In the second round the primer pairs Pn5B–Pn6 and Pc2B–Pc7 were utilized to detect P. nicotianae and P. citrophthora, respectively. Comparison between the molecular method and pathogen isolation by means of a selective medium did not show any significant differences in sensitivity.     

A real‐time (TaqMan) PCR assay to differentiate Monilinia fructicola from other brown rot fungi of fruit crops

To prevent the entry and spread of the brown rot fungus Monilinia fructicola in Europe, a fast and reliable method for detection of this organism is essential. In this study, an automated DNA extraction method combined with a multiplex real‐time PCR based on TaqMan chemistry was developed for fast, convenient and reliable detection of both the EU quarantine organism Monilinia fructicola and the three other brown rot fungi M. fructigena, M. laxa and Monilia polystroma. Using the internal transcribed spacer (ITS) region of the nuclear ribosomal RNA gene repeat, a Monilinia genus‐specific primer pair and two differently labelled fluorogenic probes specific for M. fructicola and the group M. fructigena/M. laxa/Monilia polystroma were developed. The analytical specificity of the assay was assessed by testing 33 isolates of the four brown rot fungi and 13 isolates of related fungal species or other fungal species that can be present on stone and pome fruit. No cross‐reactions were observed. The assay was found to have a detection limit of 0·6 pg of DNA, corresponding to 27 haploid genomes or four conidia. Comparison of a manual DNA isolation followed by a conventional PCR with an automated DNA isolation combined with the presently developed real‐time PCR showed that the latter method gave improved results when tested with 72 naturally infected stone fruit samples. The detection rate increased from 65 to 97%.     

香蕉黑腐病菌(Botryodiplodia theobromae)的PCR检测

 根据香蕉黑腐病菌可可球二孢菌(Botryodiplodia theobromae)与其它香蕉病原真菌核糖体基因转录间隔区(rDNA-ITS)ITS1和ITS2间序列差异,设计了特异引物Bth-S(5'-TCTCCCACCCTTTGTGAAC-3')和Bth-A(5'-AAAAGT-TCAGAAGGTTCGTC-3'),利用此引物对包括可可球二孢菌在内的21个菌株基因组DNA进行PCR扩增,结果只有4个可可球二孢菌菌株扩增到422bp特异带,其它17个菌株无扩增产物。灵敏度测试结果表明此特异引物能对1pg的可可球二孢菌基因组DNA进行扩增。对自然感染黑腐病的香蕉果实组织和接种可可球二孢菌或多种香蕉病原真菌混合接种的果实组织进行检测,Bth-S和Bth-A引物对不仅能够在自然感染黑腐病果实组织中特异检测到可可球二孢菌,而且能在未显症和发病的接菌香蕉果实组织中特异检测得到可可球二孢菌。这为香蕉可可球二孢菌潜伏侵染检测提供了技术支持。     

Differentiation of two powdery mildews of sunflower (<Emphasis Type="Italic">Helianthus annuus</Emphasis>) by a PCR-mediated method based on ITS sequences

Powdery mildew can be found in most sunflower fields during the winter season in Taiwan and causes severe yellowing on the blade, petiole, stem, and calyx, as well as serious defoliation. Two types of powdery mildew fungi isolated from sunflower leaves showed variable status for fibrosin bodies. But only the cleistothecium of Podosphaera xanthii, one of the pathogens causing this disease, was observed on samples from Chungpu County at the beginning of 2005. With a species-specific primer pair, PN23/PN34, no specific PCR product was amplified from the pathogen’s genomic DNA. Based upon the ITS sequence of rDNA, three PCR primer sets (S1/S2, G1/G2, and L1/L2) specific to P. xanthii, Golovinomyces cichoracearum and Leveillula taurica, respectively, were designed to detect and differentiate pathogens causing powdery mildews on sunflower. Only the primer pairs S1/S2 and G1/G2 could amplify PCR products, with product sizes of 454 and 391 bp, respectively. Four samples of fungal DNA were subjected to a multiplex PCR amplification with primer pairs S1/S2 and G1/G2; P. xanthii and G. cichoracearum were successfully detected. These results suggest that the multiplex PCR method is a rapid, simple, and effective technique to detect and differentiate powdery mildews, for example P. xanthii and G. cichoracearum, found on sunflower. With morphologic characteristics, ITS sequence analysis and pathogenicity testing, P. xanthii and G. cichoracearum, the first case, are two powdery mildews on sunflower in Taiwan.     

A quantitative real‐time PCR assay for detection of Colletotrichum lindemuthianum in navy bean seeds

Bean anthracnose is a seedborne disease of common bean (Phaseolus vulgaris) caused by the fungal pathogen Colletotrichum lindemuthianum. Using seed that did not test positive for the pathogen has been proven to be an effective strategy for bean anthracnose control. To quantify the extent of anthracnose seed infection, a real‐time PCR‐based diagnostic assay was developed for detecting C. lindemuthianum in seeds of the commercial bean class navy bean. The ribosomal DNA (rDNA) region consisting of part of the18S rDNA, 5^.8S rDNA, internal transcribed spacers (ITS) 1, 2 and part of the 28S rDNA of seven races of C. lindemuthianum, 21 isolates of Colletotrichum species and nine other bean pathogens were sequenced with the universal primer set ITS5/ITS4. Based on the aligned sequence matrix, one primer set and a probe were designed for a SYBR Green dye assay and a TaqMan MGB (minor groove binder) assay. The primer set was demonstrated to be specific for C. lindemuthianum and showed a high sensitivity for the target pathogen. The detection limit of both assays was 5 fg of C. lindemuthianum genomic DNA. To explore the correlation between the lesion area and the DNA amount of C. lindemuthianum in bean seed, seeds of the navy bean cultivar Navigator with lesions of different sizes, as well as symptomless seeds, were used in both real‐time PCR assays.