日本梨黑星病菌与欧洲梨黑星病菌多聚半乳糖醛酸酶研究

为判断日本梨黑星病菌与欧洲梨黑星病菌多聚半乳糖醛酸酶蛋白分子量是否相同,本研究对2种梨黑星病菌多聚半乳糖醛酸酶进行基因扩增、测序与比对,相似度为96%。为进一步判断两者多聚半乳糖醛酸酶的蛋白在后续加工过程中是否有所差异,进一步利用延伸法获得多聚半乳糖醛酸酶部分cDNA序列,并利用质粒pET-24a(+)对获得的cDNA序列表达、Ni-NTA柱纯化重组蛋白、用蛋白免疫小鼠等方法获得梨黑星病菌多聚半乳糖醛酸酶抗体,通过Western blotting方法进行了日本梨黑星病菌与欧洲梨黑星病菌多聚半乳糖醛酸酶分子量比对,结果证明2种梨黑星病菌的多聚半乳糖醛酸酶分子量没有区别。     

Further studies in increased sensitivity to N-phenylanilines in benzimidazole-resistant strains of Botrytis cinerea and Venturia nashicola

The ring-substituted N-phenylanilines, N-(3-chlorophenyl)aniline (MC-1) and N-(3,5-dichlorophenyl)aniline (MC-2) were tested for their antifungal activity against Botrytis cinerea Pers. ex Fr. and Venturia nashicola Tanaka et Yamamoto. In both fungi, increased sensitivity to MC-1 and MC-2 was clearly observed in ‘highly carbendazim-resistant, diethofencarb-sensitive’ (HR, S) phenotypes. Sensitivity was low in ‘carbendazim-sensitive, diethofencarb-resistant’ (S, R) and ‘intermediately carbendazim-resistant, diethofencarb-resistant’ (IR, R) strains. On cucumber cotyledons, other strains of B. cinerea, possessing the phenotype ‘highly carbendazim-resistant, diethofencarb-resistant’ (HR, R) were not controlled by either MC-1 or MC-2. Response to MC-2 was also examined using random ascospore progenies from V. nashicola crosses. In these progenies, high-level carbendazim resistance and MC-2 sensitivity always segregated together. Sensitivity to MC-2 is controlled by a single gene which is either identical to or very closely linked to one conferring high-level resistance to carbendazim.     

Reduced sensitivity to fenarimol in Japanese field strains of Venturia nashicola

Monoconidial strains of Venturia nashicola Tanaka et Yamamoto were isolated from Japanese or Chinese white pear trees which had never been treated with sterol demethylation inhibitors (DMIs) and their baseline sensitivities to fenarimol were determined by mycelial growth tests on fungicide-amended culture media. Strains were also obtained from Japanese pear orchards, which had been intensively treated with DMIs for several years and monitored for the shifts of fenarimol sensitivity in comparison with the baseline sensitivity. Results suggested slight shifts to lower fenarimol sensitivity in strains isolated from DMI-treated Japanese pear orchards. However, in inoculation tests on pear seedlings, fenarimol still provided adequate control of V. nashicola strains with reduced sensitivity to fenarimol in vitro, suggesting that the performance of this fungicide will still be maintained in the field. © 1998 Society of Chemical Industry     

Incidence-density relationship of pear scab (Venturia nashicola) on fruits and leaves

Lesion-count data on fruits/leaves from two regions of China and on leaves from controlled-environment studies were used to investigate incidence-density [incidence of leaves/fruits with lesion(s) and average number of lesions per leaf/fruit] and incidence-incidence [incidences of leaves and shoots with lesion(s)] relationships. Few of the datasets for the number of lesions per fruit/leaf could be fitted satisfactorily by a Poisson distribution. Three two-parameter distributions (negative binominal, Neyman type A and Polya-Aeppli) provided significantly better fit than the Poisson distribution, indicating a degree of aggregation in the number of lesions on a single leaf/fruit. However, many datasets could still not satisfactorily be fitted by these distributions. The dynamics of aggregation of lesions on leaves/fruits was well described by Taylor's power-law model. Regression models provided accurate predictions of the average number of lesions per leaf/fruit from the incidence of leaves or fruits with lesion(s). Nevertheless, the incidence-density relationship varied considerably between regions and between leaf and fruit scab. Field data also indicated that the number of scabbed leaves per shoot showed some degree of aggregation. The incidence of leaves with scab could be predicted accurately from the incidence of shoots with scab. The incidence-density relationships developed in this study could be used in making practical disease-management decisions when incidence of leaves with scab is less than 35%.     

Control efficacy of the systemic acquired resistance (SAR) inducer acibenzolar-S-methyl against Venturia nashicola in Japanese pear orchards

Journal of General Plant Pathology - Scab caused by Venturia nashicola is one of the most serious diseases of Asian pears, and conventional fungicides used to control scab can lose their efficacy...     

Effects of temperature and continuous and interrupted wetness on the infection of pear leaves by conidia of Venturia nashicola

Experiments were conducted to determine: (i) the effects of temperature and duration of continuous wet periods on the infection of pear seedlings by conidia of Venturia nashicola , the causal agent of pear scab; and (ii) the effects of the length and temperature of dry interrupting periods on the mortality of infecting conidia. Average number of scab lesions per leaf increased with increasing duration of wetness. Logistic models adequately described the change in the average number of scab lesions per leaf at 5, 10, 15, 20 and 25°C over the wetness duration. At 30°C, only a few lesions developed. Simple polynomial models satisfactorily described the relationship of the three logistic model parameters (maximum number of lesions, rate of appearance and the time to 50% of the maximum number of lesions) with temperature. The optimum temperature for infection was found to be approximately 20°C. The relationship between mortality and the length of a dry period interrupting an infection process can be satisfactorily described by an exponential model. The rate of mortality at 10, 16 and 22°C did not differ significantly, but was significantly less than that at 28°C.     

Differential binding of a N-phenylformamidoxime compound in cell-free extracts of benzimidazole-resistant and-sensitive isolates of Venturia nashicola,Botrytis cinerea and Gibberella fujikuroi

Venturia nashicola isolates with a high level of resistance to carbendazim showed either increased sensitivity or were resistant to theN-phenylformamidoxime compoundN-(3,5-dichloro-4-propynyloyphenyl)-N′-methoxyformamidine (DCPF). Isolates with an intermediate or low level of carbendazim resistance were resistant to DCPF. Increased sensitivity to DCPF was also associated with a high level of carbendazim resistance inBotrytis cinerea but not with a moderate resistance level. Increased sensitivity to DCPF was not observed in carbendazim resistant isolates ofGibberella fujikuroi.Binding of [¹⁴C]DCPF in cell-free mycelial extracts of the highly carbendazim-resistant and DCPF-sensitive isolate ofV. nashicola was higher than in those of DCPF-resistant isolates that were either highly-resistant, intermediately resistant, or weakly resistant to carbendazim or were sensitive to carbendazim. [¹⁴C]carbendazim binding in extracts of highly carbendazim-resistant isolates ofB. cinerea was lower than that in extracts of sensitive isolates, whereas [¹⁴C]DCFP binding was higher. A decreased [¹⁴C]carbendazim binding was also observed in extracts of carbendazim-resistant isolates ofG. fujikuroi, binding of [¹⁴C]DCPF, however, was similar in extracts of both carbendazim-resistant and sensitive isolates.     

Negative cross-resistance to N-phenylanilines in benzimidazole- resistant strains of Botrytis cinerea,Venturia nashicola and Venturia inaequalis

A new series of compounds with high contra-selective activity against benomyl-resistant fungal strains was found among ring-substituted N-phenyl-anilines. Hydrophobic substitution in one of the benzene rings, together with the secondary amine character of the molecule, are important factors for high fungitoxicity. The sensitivities of benomyl-resistant isolates to some representatives of the N-phenylanilines equal or even surpass their sensitivity to diethofencarb or MDPC. The negative cross-resistance with benzimdazole fungicides is valid for strains of Botrytis cinerea, Venturia nashicola and Venturia inaequalis. The strains of B. cinerea with double insensitivity to benzimidazoles and phenyl-carbamates are insensitive also to N-phenylanilines. However, the similarly double-insensitive strain of V. nashicola was found to be just as sensitive to the N-phenylanilines tested as the strain resistant only to benzimidazoles. The latter result revealed an important bonus compared with diethofencarb. Preventive application of one of the most active representatives of the N-phenylanilines to young cucumber plants was effective against infection with benomyl-resistant isolates of B. cinerea. Moderate apical translocation after root-dipping was also observed.     

Infection Behavior of Venturia nashicola, the Cause of Scab on Asian Pears

ABSTRACT The infection of Japanese pear by Venturia nashicola, the cause of scab on Asian pears (Japanese pear, Pyrus pylifolia var. culta; Chinese pear, P. ussuriensis), was examined using light and electron microscopy to determine the mechanism of resistance in pears. Early stages of infection were similar on the susceptible cv. Kosui, the resistant cv. Kinchaku, and the nonhost European pear (P. communis) cv. Flemish Beauty. V. nashicola penetrated only the cuticle layer on pear leaves and formed subcuticular hyphae on all three cultivars. Hyphae were localized in the pectin layer of pear leaves and never penetrated into the cytoplasm of epidermal cells. This restriction of fungal growth suggested that pectinases released by infection hyphae or subcuticular hyphae may be important in infection. Subcuticular hyphae were modified ultrastructurally in the pectin layer of resistant pear cultivars accompanied by fungal cell death. In contrast, fungal cells appeared intact in susceptible pear cultivars, suggesting the existence of resistance mechanisms.     

Resistance of Venturia nashicola to thiophanate-methyl and benomyl: build-up and decline of resistance in the field

Changes in the proportion of benzimidazole-resistant strains in populations of Venturia nashicola were monitored in pear orchards. Successive applications of thiophanate-methyl increased the level of resistance in the populations. When the application of benzimidazoles was stopped and other fungicides were applied, the proportion of highly resistant strains gradually decreased and the proportion of intermediately resistant, weakly resistant and sensitive strains increased. It is suggested that this phenomenon is an example of genetic homeostasis within microbial populations.     

Effects of environmental factors on discharge and germination of ascospores of Venturia nashicola

Experiments were conducted under controlled environmental conditions to study the effects of temperature, duration of wetness, relative humidity (RH) and light on the discharge and germination of ascospores of Venturia nashicola , the causal agent of pear scab in China. Discharge of ascospores from pseudothecia required free water or 100% RH. A period of soaking in water as short as 10 s was sufficient to initiate the discharge of ascospores. Temperatures from 10 to 30°C did not significantly affect the temporal trend of ascospore discharge. A greater proportion of ascospores was discharged under light than in the dark. However, a period of light as short as 10 min, either during the initial wetting of pseudothecia or interrupting the darkness, was sufficient to reduce the inhibitory effect of darkness on ascospore discharge. Ascospores were discharged within 10 min after pseudothecia were wetted and most ascospores ( c. 80%) were discharged within the first hour. The temporal pattern of ascospore discharge could be well described by a logistic model, which estimated that 50% of ascospores were discharged within half an hour of wetting. Ascospores germinated over a wide range of temperatures from 5 to 30°C, with an optimum at c . 20°C. Temporal dynamics of ascospore germination at six temperatures (5, 10, 15, 20, 25 and 30°C) were satisfactorily described by logistic models.     

Effects of temperature, relative humidity and duration of wetness period on germination and infection by conidia of the pear scab pathogen (Venturia nashicola)

Experiments were conducted to determine the effects of temperature, relative humidity (RH) and duration of wetness period on in vitro germination of conidia and infection of detached pear leaves by Venturia nashicola , the causal agent of pear scab. Conidia germinated only in near-saturation humidity (RH > 97%). The final percentage germination (24 h after inoculation) at 100% RH without free water was less than half that in free water. Conidia germinated over the range of temperatures tested (5–30°C); the optimum temperature for germination was ≈21°C. Changes in percentage germination of conidia over time were fitted by logistic models at each individual temperature. Polynomial models satisfactorily described the relationships between two (rate and time to 50% of maximum germination) of the three logistic model parameters and temperature. The minimum length of the wetness period for successful infection of detached pear leaves by conidia was observed at several temperatures. The shortest length of wetness period required for infection was 7 h at 22°C. Two polynomial models fitted well the relationship between the minimum wetness duration required for infection, and temperature.     

梨黑星病菌被哈茨木霉感染后抗氧化系统的变化

测定被哈茨木霉感染后梨黑星病菌抗氧化系统变化的结果表明,被哈茨木霉感染后梨黑星病菌过氧化氢酶、过氧化物酶和超氧化物歧化酶的活性逐渐下降;丙二醛含量和超氧阴离子产生速率上升;还原型谷胱甘肽和抗坏血酸含量降低。初步明确,梨黑星病菌被哈茨木霉感染后,活性氧清除系统等被破坏,膜脂过氧化作用加强,是最终导致菌体受害的原因之一。     

Emergence and frequency of highly benzimidazole-resistant Colletotrichum gloeosporioides, pathogen of Japanese pear anthracnose, after discontinued use of benzimidazole

From July to October 1999, two Japanese pear varieties, Housui and Niitaka, were unexpectedly infected with Colletotrichum gloeosporioides causing anthracnose in Saga Prefecture of Japan. More than 90?% of the anthracnose fungus strains collected in 1999 were highly benzimidazole-resistant and distributed at high frequencies across pear-producing areas. The control of anthracnose by benzimidazole fungicides could not be confirmed in orchards where the isolation frequency of resistant strains was high. The frequency of resistant strains did not significantly decline, even 2?C5?years after the last use of benzimidazole fungicides.     

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.     

Further studies of the inheritance of benomyl resistance in Venturia pirina isolated from pear orchards in Israel

Fourteen single-spore cultures of benomyl-resistant Venturia pirina were isolated from pear scab lesions at four sites in Israel. According to the ability of the isolates to germinate and grow at varying benomyl concentrations, four levels of resistance were determined in vitro : three isolates with low resistance (LR) grew at 0.5 but not at 5 μg/ml benomyl: five moderately resistant (MR) isolates grew at 5 but not at 50 μg/ml benomyl: five highly resistant (HR) isolates grew at 50 μg/ml but their hyphae were curled: and one isolate with very high resistance (VHR) grew unaffected at 50 μg/ml benomyl. The difference between the HR and the VHR phenotypes was clearly shown on medium amended with N -(3.5-dichlorophenyl) carbamate (MDPC): only the VHR isolate showed negative cross-resistance to 1 μ g/ml MDPC. whereas HR isolates grew unaffected. Crosses between resistant isolates and sensitive wild types, as well as between different resistant isolates, showed that the various levels of resistance are conferred by four allelic mutations that constitute a polymorphic series at a single locus.     

Molecular cloning and expression analysis of genes related to phosphatidic acid synthesis in Japanese pear leaves inoculated with <Emphasis Type="Italic">Venturia nashicola</Emphasis>

Phosphatidic acid, which can be generated by the action of phospholipase D (PLD) and by the combined action of phospholipase C (PLC) and diacylglycerol kinase (DGK), is a plant defense signal. To identify the role of the PLD, PLC, and DGK genes encoding these enzymes in pear resistance to the scab fungus Venturia nashicola, we report the cloning of these genes and analysis of their expression in inoculated pear leaves. The results showed that PLD mRNA increased in the leaves of the susceptible pear cv. Kousui 1 day after inoculation (dai), then decreased to the basal level. In resistant pear cv. Kinchaku, PLD mRNA did not change significantly except for a small increase at 2 and 3 dai. However, the level of PLD mRNA in Kinchaku was higher than in Kousui 2 dai. The level of PLC mRNA significantly increased in cvs. Kousui and Kinchaku by 1 dai, peaked at day 2, then decreased to the basal level. Thus, the gene expression pattern did not differ between the two cultivars. PLC gene expression was also induced by environmental stress. The DGK gene seemed to be constitutively expressed and was not induced by inoculation in either the susceptible or resistant cultivars. Together, this data showed that both PLD and PLC are possibly involved in a defense response to V. nashicola in Japanese pear leaves, and the PLD gene seems to play a more important role than does the PLC gene.     

Sensitivity to strobilurin fungicides of Italian Venturia inaequalis populations with different origin and scab control

BACKGROUND: Venturia inaequalis (Cooke) Winter with reduced sensitivity to strobilurins has been reported in several countries, including Italy. This study aimed to characterise the sensitivity to strobilurins of three different types of V. inaequalis population: (a) wild types; (b) from commercial orchards satisfactorily managed with strobilurins; (c) from an experimental orchard with control failures by trifloxystrobin and kresoxim‐methyl. In vitro sensitivity tests included antigerminative activity on population conidia and mycelial growth inhibition on monoconidial isolates. Cleaved amplified polymorphic sequence (CAPS) analysis was used for the detection of G143A substitution. RESULTS: Wild‐type populations showed EC₅₀ values lower than 0.031 mg L^?1, while those of orchards with good performance by strobilurins presented EC₅₀ values never higher than 0.063 mg L^?1. Samples with scab control failures showed a strongly reduced population sensitivity. Similar differences were confirmed in monoconidial isolates. The G143A substitution was always detected in low‐sensitivity populations, only sometimes in well‐controlled populations and generally not in wild types. CONCLUSIONS: In vitro sensitivity assays were able to discriminate the three population types with different scab management, while the qualitative PCR analysis (CAPS) was only partially reliable. High sensitivity differences among V. inaequalis populations with good and poor field control by strobilurins were observed. Copyright © 2011 Society of Chemical Industry     

几种杀菌剂对梨黑斑病菌抑制作用研究

经室内研究表明,噻菌灵、咪鲜胺、克菌丹、抑霉唑4种杀菌剂对:梨黑斑病菌(Alternaria alternata)均有很好的抑菌效果,其中有效浓度为5×10-8的抑霉唑和6×10-8的咪鲜胺浸泡处理10min能完全杀灭梨黑斑病菌,是极具潜力的浸果处理杀菌药剂。