Specific Polymerase Chain Reaction Identification of Venturia nashicola Using Internally Transcribed Spacer Region in the Ribosomal DNA

ABSTRACT A technique based on the polymerase chain reaction (PCR) was developed for the identification of Venturia nashicola using nucleotide sequence information of the ribosomal DNA region. The complete internal transcribed spacer (ITS) region of V. nashicola strains and phylo-genetically related species was amplified with the two universal ITS1 and ITS4 primers, sequenced, and digested with five restriction enzymes. The alignment of nucleotide sequences and analyses of digestion patterns indicated constant polymorphisms between V. nashicola and related species at nucleotides 126 and 127, which overlapped a TaqI restriction site. An oligonucleotide primer named A126 was designed for identifying this variable region. A primer set (A126 and ITS4) that allowed the amplification of a 391-bp DNA fragment within the ITS region by PCR was specific to V. nashicola when it was checked against fungal genomic DNAs of related fungi. This primer set was a good candidate for a species-specific reagent in a procedure for identification of V. nashicola by PCR.     

A Polymerase Chain Reaction (PCR) Assay for the Detection of Inoculum of Sclerotinia sclerotiorum

The development of a polymerase chain reaction (PCR) assay for the detection of inoculum of the plant pathogenic fungus Sclerotinia sclerotiorum is described. The PCR primers were designed using nuclear ribosomal DNA internal transcribed spacer sequences. Specific detection of DNA from S. sclerotiorum was possible even in the presence of a 40-fold excess of DNA from the closely related fungus Botrytis cinerea. PCR products were obtained from suspensions of untreated S. sclerotiorum ascospores alone, but DNA purification was required for detection in the presence of large numbers of B. cinerea conidiospores. Specific detection of inoculum of S. sclerotiorum was possible in field-based air-samples, using a Burkard spore trap, and from inoculated oilseed rape petals. The assay has potential for incorporation into a risk management system for S. sclerotiorum in oilseed rape crops.     

Specific Polymerase Chain Reaction Primers for the Detection of Plasmodiophora brassicae in Soil and Water

ABSTRACT The development of specific oligonucleotide primers for Plasmodiophora brassicae has led to a nested polymerase chain reaction (PCR) detection method for P. brassicae in soil and water. Initially, the PCR was used to amplify a section of the rDNA repeat. The PCR products were sequenced and the data used to design primers that were directed at the ribosomal RNA genes and internal transcribed spacer regions. Specificity was tested against more than 40 common soil organisms, host plants, and spore suspension contaminants, as well as P. brassicae isolates from around Australia and the world. Sensitivity was determined to be 0.1 fentograms (fg; 10(-15) g) for pure template and as low as 1,000 spores per g of potting mix. In soil, P. brassicae was detected in all soils where the inoculum was sufficient to result in clubroot symptoms. Also outlined is a simple method of DNA extraction from soil.     

A Multiplex Real-Time Polymerase Chain Reaction (TaqMan) Assay for the Simultaneous Detection of Meloidogyne chitwoodi and M. fallax

ABSTRACT This study describes a multiplex real-time polymerase chain reaction (PCR) approach for the simultaneous detection of Meloidogyne chitwoodi and M. fallax in a single assay. The approach uses three fluorogenic minor groove binding (MGB) TaqMan probes: one FAM-labeled to detect M. chitwoodi, one VIC-labeled to detect M. fallax, and one NED-labeled to detect the internal amplification control (IAC) to monitor false negative results. One common primer set is used for the amplification of part of the internal transcribed spacer (ITS) region of M. chitwoodi and M. fallax and one primer set for the amplification of the IAC. The test enabled detection of M. chitwoodi and/or M. fallax in DNA samples extracted from batches of juveniles, from single juveniles, and from infected plant material. Compared with current assays to detect M. chitwoodi and M. fallax, the multiplex real-time PCR offers the following advantages: it is faster because the test can simultaneously detect both quarantine species without the need for post-PCR processing; and it is at least 10 times more sensitive than a comparable regular PCR also targeting the ITS sequence. Inclusion of the IAC facilitates the interpretation of the FAM and VIC cycle threshold (Ct) values and can prevent the scoring of false negative results when FAM, VIC, and NED Ct values are high. The test allows precise quantification when only one of the two species is present in the sample. However, experiments with mixtures of genomic DNA of M. chitwoodi and M. fallax revealed that the ability of the multiplex real-time PCR assay to detect small quantities of DNA of one species is reduced when large quantities of DNA of the other species are present.     

Genotyping Common Bean for the Potyvirus Resistance Alleles I and bc-1(2) with a Multiplex Real-Time Polymerase Chain Reaction Assay

ABSTRACT A multiplex real-time polymerase chain reaction (PCR) assay was developed to simultaneously genotype plants for the I and bc-1(2) alleles, which condition resistance in beans to Bean common mosaic virus and Bean common mosaic necrosis virus. A segregating F(2) population was derived from the cross between pinto bean breeding line P94207-189A (bc-1 bc-1 I I) and Olathe (bc-12 bc-1(2) i i). Real-time PCR assays were developed that were specific for each allele, and a multiplex PCR reaction could unambiguously assign F(2) plants to one of nine genotypes. Remnant F(1) plants were used as a comparative reference sample. PCR results among this sample fit a normal distribution for both real-time PCR assays, and 99% probability distributions were determined for heterozygotes. F(2) plants were genotyped based on results relative to the probability distributions for heterozygotes. F(2) plants also were genotyped for the I and bc-1(2) alleles by performing F(3) family progeny tests for virus resistance. Agreement between the two methods was 100% (198/198) for the bc-1(2) allele, and 92.4% (183/198) for the I allele. Erroneous genotyping was due to recombination between the amplicon and the I allele. Realtime PCR assays provide a robust method for genotyping seedlings and, in some cases, may eliminate the need for progeny testing.     

DNA条形码技术在小花蝽属昆虫分类鉴定中的应用

本研究利用DNA条形码技术对13种小花蝽属Orius Wolff昆虫进行了鉴定,进行了59条COI基因序列碱基组成及种内、种间遗传距离的分析,采用邻接法、最大简约法、贝叶斯推论法构建了系统发育树。结果表明,小花蝽属昆虫COI基因序列碱基组成与典型的昆虫线粒体DNA一致,A+T平均含量(66.4%)明显高于G+C含量,密码子的第3位A+T含量高达90.7%,碱基替换多为同义替换;13种小花蝽种内平均遗传距离为0.008,种间平均遗传距离为0.128,种内、种间遗传距离没有重叠区域。3种方法构建的系统发育树的聚类分析与形态学鉴定结果基本一致,除微小花蝽Orius minutus(Linnaeus)可能存在隐存种现象外,其他同一种群的不同个体单独聚为一支。利用DNA条形码技术对小花蝽属昆虫进行物种快速分子鉴定具有可行性。     

Multiplex Polymerase Chain Reaction Identification of Single Individuals of the Longidorid Nematodes Xiphinema index, X. diversicaudatum, X. vuittenezi, and X. italiae Using Specific Primers from Ribosomal Genes

ABSTRACT The species X. index, X. diversicaudatum, X. vuittenezi, and X. italiae are established (E) or putative (P) vectors of Grapevine fanleaf virus (GFLV) (E), Arabis mosaic virus (E), Grapevine chrome mosaic virus (P), and GFLV (P) nepoviruses of grapevine, respectively. All four species are very closely related taxonomically and their low field densities make them difficult to identify from morphological and morphometrical diagnostic characters when only single or few individuals are detected. To improve diagnostic accuracy, a simple method was developed. The internal transcribed spacer 1 (ITS1) region spanning the 18S and 5.8S ribosomal genes was sequenced in one population of each species using two conserved primers from these genes. The ITS1 fragments were 1,132 bp (X. vuittenezi), 1,153 bp (X. index), 1,175 bp (X. diversicaudatum), and 1,190 bp (X. italiae), i.e., a difference of over 5% between the extremes. The sequence variability made it possible to design species-specific internal sense primers that amplified, in combination with the same antisense ITS1 primer, a single signature fragment (340 bp for X. index, 414 bp for X. italiae, 591 bp for X. vuittenezi, and 813 bp for X. diversicaudatum). Tests with DNA from a single adult or juvenile nematode confirmed the specificity of the primers from diverse isolates or populations. The primers were successfully used in a multiplex test for the reliable detection of two to four mixed species, each represented by a single individual. This multiplex-based diagnostic tool will be particularly useful for successful nematode management practices in vineyards.     

Repetitive Sequence-derived PCR Profiling Using the BOX-A1R Primer for Rapid Identification of the Plant Pathogen Clavibacter Michiganensis Subspecies Sepedonicus

Repetitive sequence-derived PCR using the BOX-A1R primer was used to generate genomic fingerprints of Clavibacter michiganensis subspecies sepedonicus, the causal agent of bacterial ring rot disease of potato. A total of 35 C. michiganensis subsp. sepedonicus strains were selected for study in order to represent the widest possible historical, morphological and geographical diversity of the organism. Comparison was made with genomic fingerprints of C. michiganensis subsp. michiganensis, C. michiganensis subsp. insidiosus, C. michiganensis subsp. tessellarius, C. michiganensis subsp. nebraskensis as well as other related Gram positive plant pathogens. The resultant genomic fingerprints and subsequent cluster analysis show C. michiganensis subsp. sepedonicus to form a remarkably homogeneous group with approximately 84% similarity between all of the strains tested. There was no evidence to suggest that fingerprints varied with historic, morphological or geographic diversity. In addition, C. michiganensis subsp. sepedonicus isolated from asymptomatic sugar beet had the same fingerprint as those which were isolated as potato pathogens. This group was easily distinguished from the clusters formed by the other subspecies of C. michiganensis and Gram positive plant pathogens. The potential for this technique to be used as a relatively rapid method to replace the time consuming and sometimes inconclusive eggplant bioassay test is discussed.     

我国口岸首次截获栎波纹吉丁及其风险

本文介绍了从法国进口原木中首次截获的重要蛀干害虫栎波纹吉丁(Coraebus undatus F.),描述了其形态鉴定特征、寄主、分布、生物学、危害和传播途径,并讨论了其传入风险。     

Development of a Specific Polymerase Chain Reaction-Based Assay for the Identification of Fusarium oxysporum f. sp. ciceris and Its Pathogenic Races 0, 1A, 5, and 6

ABSTRACT Specific primers and polymerase chain reaction (PCR) assays that identify Fusarium oxysporum f. sp. ciceris and each of the F. oxysporum f. sp. ciceris pathogenic races 0, 1A, 5, and 6 were developed. F. oxysporum f. sp. ciceris- and race-specific random amplified polymorphic DNA (RAPD) markers identified in a previous study were cloned and sequenced, and sequence characterized amplified region (SCAR) primers for specific PCR were developed. Each cloned RAPD marker was characterized by Southern hybridization analysis of Eco RI-digested genomic DNA of a subset of F. oxysporum f. sp. ciceris and nonpathogenic F. oxysporum isolates. All except two cloned RAPD markers consisted of DNA sequences that were found highly repetitive in the genome of all F. oxysporum f. sp. ciceris races. F. oxysporum f. sp. ciceris isolates representing eight reported races from a wide geographic range, nonpathogenic F. oxysporum isolates, isolates of F. oxysporum f. spp. lycopersici, melonis, niveum, phaseoli, and pisi, and isolates of 47 different Fusarium spp. were tested using the SCAR markers developed. The specific primer pairs amplified a single 1,503-bp product from all F. oxysporum f. sp. ciceris isolates; and single 900- and 1,000-bp products were selectively amplified from race 0 and race 6 isolates, respectively. The specificity of these amplifications was confirmed by hybridization analysis of the PCR products. A race 5-specific identification assay was developed using a touchdown-PCR procedure. A joint use of race 0- and race 6-specific SCAR primers in a single-PCR reaction together with a PCR assay using the race 6-specific primer pair correctly identified race 1A isolates for which no RAPD marker had been found previously. All the PCR assays described herein detected up to 0.1 ng of fungal genomic DNA. The specific SCAR primers and PCR assays developed in this study clearly identify and differentiate isolates of F. oxysporum f. sp. ciceris and of each of its pathogenic races 0, 1A, 5, and 6.     

Detection of Pseudomonas syringae pv. actinidiae using polymerase chain reaction (PCR) primers based on the 16S–23S rDNA intertranscribed spacer region and comparison with PCR primers based on other gene regions

Several published polymerase chain reaction (PCR) primers to identify Pseudomonas syringae pv. actinidiae, the causal organism of bacterial canker of kiwifruit, were found not to be specific. Two new sets of PCR primers, PsaF1/R2 and PsaF3/R4, were designed to be complementary to a portion of the 16S–23S rDNA intertranscribed spacer (ITS) regions. These primers amplified a DNA fragment from strains of P. syringae pv. actinidiae, but not from 56 strains of bacteria from six genera and 17 species, except for a strain of the tea pathogen, P. syringae pv. theae. When tested against DNA extracted from a further 20 strains from Japan, Korea, Italy and the USA deposited in culture collections as P. syringae pv. actinidiae, all except six cultures produced the expected product of 280 bp with PsaF1/R2 and 175 bp with PsaF3/R4. Results of multilocus sequence analysis using five housekeeping genes (gyrB, acnB, rpoD, pgi and cts) showed that none of these six strains was phylogenetically similar to P. syringae pv. actinidiae. In contrast to the P. syringae pv. actinidiae type strain, these strains were positive in the determinative tests for ice nucleation and syringomycin production. It is suggested that these six strains were incorrectly identified as P. syringae pv. actinidiae. It was not possible to distinguish P. syringae pv. actinidiae from the phylogenetically similar P. syringae pv. theae using the ITS, gyrB, acnB, rpoD, pgi or cts gene regions to design PCR primers. Because P. syringae pv. theae is unlikely to be found on kiwifruit, primers PsaF1/R2 and PsaF3/R4 are recommended for screening bacteria isolated from kiwifruit tissue.     

Resistance Reaction of Conifer Species (European Larch, Norway Spruce, Scots Pine) to Infection by Selected Necrotrophic Damping-off Pathogens

Three conifer species (European larch, Norway spruce, Scots pine) were investigated for their resistance to five damping-off pathogens (Rhizoctonia solani, Fusarium solani, F. oxysporum, F. culmorum, F. avenaceum). Inoculation of the primary roots of seedlings with these pathogens caused host cell death which did not prevent the invasive growth of these fungi; seedlings that had formed secondary and tertiary roots could overcome the infection to a significant degree. Infections with R. solani caused significant mortality to all the conifer species. In contrast, the tree species expressed different levels of resistance when challenged with the Fusarium isolates, with Norway spruce being the most resistant compared to uninoculated controls. Some of the Fusarium isolates were more pathogenic to certain hosts than others; F. oxysporum for European larch, F. avenaceum for Scots pine, F. solani for European larch; only F. culmorum was significantly pathogenic to Norway spruce. No significant differences in disease severity were observed at different soil pH (4.3–7.5). Disease progression was delayed at lower (10–15°C) rather than higher temperatures (20–25°C).     

Specific Oligonucleotide Primers for the Rapid Identification and Detection of the Agent of Tomato Pith Necrosis, Pseudomonas corrugata, by PCR Amplification: Evidence for two Distinct Genomic Groups

Unique DNA bands from strains representative of two groups of Pseudomonas corrugata, as shown by amplification of their genomic DNA by polymerase chain reaction using short random sequence oligonucleotide primers (RAPD-PCR), were isolated, cloned and sequenced. Two pairs of specific primer sequences, based on the ends of the cloned unique DNA bands from strains IPVCT10.3 and IPVCT8.1, were used in multiplex PCR with a range of P. corrugata strains. All strains produced one of the two specific bands, 1100bp (from the IPVCT10.3-based primers) and 600bp (from the IPVCT8.1-based primers), representing groups designated I and II, respectively. The primers were also tested on a wider range of Pseudomonas species, including the closely-related fluorescent Pseudomonas genomospecies FP1, FP2 and FP3: none of these bacteria produced any bands following amplification by PCR with these primers. The primer sets detected P. corrugata in tomato pith necrosis-infected plants providing a useful tool for rapid identification and epidemiological studies.     

Use of Degenerate Primers in a RT-PCR Assay for the Identification and Analysis of Some Filamentous Viruses, with Special Reference to Clostero- and Vitiviruses of the Grapevine

RT-PCR with degenerate primers was used for the screening of the genome of some members of the Closterovirus, Vitivirus and Trichovirus genera. Two sets of primers, targeted to conserved sequences of the heat shock protein 70 homologue of closteroviruses or to the RNA dependent RNA polymerase genes of tricho- and vitiviruses, amplified the expected fragments from total RNA extracts or double-stranded RNAs of infected plants. Amplified cDNAs were cloned, sequenced and phylogenetically analyzed. Results support the allocation of grapevine viruses A, B, D and heracleum latent virus (HLV) in the genus Vitivirus, whereas, the detection of a HSP70 homologue in grapevine leafroll-associated viruses agrees with their assignment in the genus Closterovirus. The use of degenerate primers for the identification of grapevine viruses belonging to Vitivirus and Closterovirus genera is envisaged.     

Assessment of the loose smut fungi (Ustilago nuda and U. tritici) in tissues of barley and wheat by fluorescence microscopy and real-time PCR

Loose smut fungi of barley and wheat (Ustilago nuda and U. tritici, respectively) colonize the plant without causing obvious disease symptoms before heading. The availability of diagnostic methods to detect and follow the growth of these pathogens in the plant would therefore be highly advantageous for both resistance breeding and the development of effective seed treatments. Using seed lots of barley and wheat highly infected with loose smut, we studied the early establishment of the loose smut pathogens in the plant by fluorescence microscopy. In hand-cut sections stained with the fluorochrome Blankophor?, fungal hyphae were observed to invade the shoot apical meristem and leaf primordia during the first days after the onset of germination. At the first node stage the ear and leaf primordia were generally extensively colonized. Hyphae of U. nuda were also regularly observed in high density in the nodes. A protocol was developed for the specific amplification of U. nuda and U. tritici DNA extracted from infected plant tissue. PCR screening of U nuda in seedlings from infected and healthy seed lots was compared to ELISA, microscopy and ultimately head infection of mature plants derived from tillers of the tested seedlings. The results indicated that a prediction of loose smut infection by real-time PCR is possible at the second leaf stage, and that the assay is equally suited for use with spring and winter varieties of barley and wheat.     

草地贪夜蛾迁飞行为与监测技术研究进展

草地贪夜蛾Spodoptera frugiperda原产于美洲的热带和亚热带地区,广泛分布于美洲大陆。2016年入侵到非洲,迅速蔓延到撒哈拉以南的整个区域。2018年入侵到印度。联合国粮农组织(FAO)发出警告,草地贪夜蛾很有可能从印度蔓延到东南亚及中国南部为主的亚洲地区。为掌握草地贪夜蛾在国外的发生与迁飞为害规律,加强我国对草地贪夜蛾的入侵控制和监测预警,本文综述了草地贪夜蛾在美国、加勒比海国家、墨西哥以及非洲国家的迁飞行为规律、性诱剂、灯光诱捕以及迁飞路径的分子鉴定等监测预警技术的研究进展,从而为我国植保人员对该虫的监测提供技术指导。针对草地贪夜蛾在世界范围内的迁飞规律和入侵特点,结合我国农作物种植结构以及气候特点,提出加强对草地贪夜蛾的监测与检疫的建议。     

Host suitability of Vitis rootstocks to root‐knot nematodes (Meloidogyne spp.) and the dagger nematode Xiphinema index,and plant damage caused by infections

The host suitability of commercial Vitis rootstocks commonly used in Spain (161‐49C, 41B, 1103P, 110R, 140Ru and SO4) to root‐knot nematodes (Meloidogyne arenaria, M. incognita, M. javanica) and Xiphinema index, and damage caused by nematode infection were determined under controlled conditions. The three root‐knot nematodes reproduced with a rate higher than one in all rootstocks, indicating that they are suitable hosts for these nematodes. Growth of rootstocks infected with the root‐knot nematodes was less vigorous than that of nematode‐uninfected controls in the majority of the rootstocks studied. Root infection resulted in moderate to severe root galling in all rootstocks. The shoot and main stem diameters appeared to be the most sensitive variables of damage caused by infection by Meloidogyne spp., with reduction rates from 36% and 53% in 161‐49C to 57% and 66% in 140Ru, respectively. The shoot height was not significantly affected by the root‐knot nematodes and the root fresh weight generally increased as a consequence of intensive galling. The nematode X. index caused significant root damage with a reproduction factor higher than one in all rootstocks. However, reproduction factor was significantly influenced by the rootstock and significantly decreased by about 12‐fold (5·7 to 18·1‐fold) with the increase in inoculum density from 100 to 1000 nematodes per plant. The root dry weight was reduced by X. index infections, and was the plant growth variable most affected by the nematode infection in all rootstocks at both inoculum densities. Meloidogyne arenaria, M. incognita, M. javanica and X. index, prevalent in many world vineyards, are all shown to have a damaging effect on the six tested rootstocks.     

Detection and differentiation of grapevine yellows phytoplasmas belonging to the elm yellows group and to the stolbur subgroup by PCR amplification of non-ribosomal DNA

Primer pairs were designed from a cloned DNA probe of a strain of flavescence dorée (FD) phytoplasma and from a cloned DNA probe of a strain of stolbur phytoplasma. Among an array of reference phytoplasma strains maintained in periwinkle, pair FD9f/r amplified a 1.3 kb DNA fragment only with phytoplasma strains of elm yellows (EY) group, i.e. two strains of FD and two strains of EY. Tru9I restriction analysis of the fragment amplified by FD9f/r revealed a diversity among EY-group phytoplasmas. The FD strains differed from the strains isolated from elm. The profile of the phytoplasmas infecting the grapevine samples from Catalonia and most of the samples from Northern Italy were identical to that of a FD strain. Three other profiles were detected in grapevine from Palatinate, in Germany.The two primer pairs derived from a stolbur strain, STOL4f/r and STOL11f2/r1, specifically amplified a 1.7 kb and a 0.9 kb DNA fragment, respectively, with all strains in the stolbur subgroup. However, the pair STOL4f/r did not recognise strain MOL. Both pairs allowed to detect phytoplasmas in diseased grapevines from France, Italy, Spain and Israel. Attempts to differentiate between phytoplasmas in the stolbur subgroup by restriction analyses failed. The pairs FD9f/r and STOL11f2/r1 could be used in the same reaction (multiplex PCR) to detect EY-group phytoplasmas, stolbur-subgroup phytoplasmas or both phytoplasmas simultaneously when template DNAs were mixed.