抗苯并咪唑的小麦赤霉病菌β-tubulin基因序列分析与特性研究

 本研究用真菌U-微管蛋白基因的通用寡聚核苷酸引物B1和B3,扩增并克隆了一段821 bp的小麦赤霉病菌Fusarium graminearum的U-微管蛋白基因片段,并进行了序列测定。根据该序列设计了F.graminearum U-微管蛋白基因的特异性测序引物,测定了赤霉病菌对多菌灵不同抗感菌株的U-微管蛋白基因核苷酸序列,结果表明不同F.graminearum菌株的U-微管蛋白的165,198,200和257位氨基酸未发生突变,在克隆的片段内也未发现核苷酸突变引起的氨基酸改变。表明该菌对多菌灵产生抗性的分子机制与目前已知的其它真菌有所不同,有待进一步研究。     

Metabolism of fungicidal cyanooximes, cymoxanil and analogues in various strains of Botrytis cinerea

BACKGROUND: The metabolism of cymoxanil [1‐(2‐cyano‐2‐methoxyiminoacetyl)‐3‐ethylurea] and fungicidal cyanooxime analogues was monitored on three phenotypes of Botrytis cinerea Pers. ex Fr. differing in their sensitivity towards cymoxanil. For this purpose, labelled [2‐¹⁴C]cymoxanil was added either to the culture medium of these strains or to its cell‐free extract. RESULTS: In the culture medium of the most sensitive strain, four main metabolites were detected. Three were isolated and identified. Cymoxanil was quickly metabolised by at least three concurrent enzymatic pathways: (i) cyclisation leading, after hydrolysis, to ethylparabanic acid, (ii) reduction giving demethoxylated cymoxanil, (iii) hydrolysis followed by reduction and then acetylation leading to N‐acetylcyanoglycine. In the cell‐free extract of the same strain, only the first and the second of these enzymatic reactions occurred. By comparing the metabolic profile of the most sensitive strain with that of the less sensitive ones, it was shown that the decrease in sensitivity to cymoxanil correlates with a reduced acetylcyanoglycine formation. Among all metabolites, only N‐acetylcyanoglycine is active against the most sensitive strain. Moreover, in a culture of this strain, two other fungicidal cyanooximes were also metabolised into this metabolite. CONCLUSION: The formation of N‐acetylcyanoglycine may play an important role in the fungitoxicity of cymoxanil and cyanooxime derivatives. Copyright © 2008 Society of Chemical Industry     

天水市脱毒马铃薯繁育基地晚疫病防治试验

为降低马铃薯晚疫病在生产过程中带来的损失,采用正交设计考察药剂品种、施用剂量、防治时期、施药次数对马铃薯晚疫病防治效果的影响。结果表明:各药剂处理对马铃薯晚疫病都有防治效果,其中50%烯酰吗啉(150 g/667m2)的防治效果最好,为87.64%;其次是75%代森锰锌(150 g/667m2),防效为84.85%。     

Toxicity of fenpropimorph to fenarimol-resistant isolates of Penicillium italicum

Fenarimol-resistant isolates ofPenicillium italicum with cross-resistance to imidazole and triazole fungicides which inhibit ergosterol biosynthesis were tested for their sensitivity to fenpropimorph. Radial growth tests on PDA showed that the isolates (n=6) lacked cross-resistance to fenpropimorph or displayed enhanced sensitivity to the fungicide (negatively correlated cross-resistance). Control of blue mold decay of oranges incited by the wild-type isolate could be achieved by dipping fruits in suspensions of fenpropimorph at a concentration of 100 mg ml^–1. Decay of oranges incited by the fenarimol-resistant isolates was controlled at the same or at a lower concentration (30 mg ml^–1), thus showing that the normal or increased sensitivity to fenpropimorph is also expressed under in vivo conditions.Samenvatting Fenarimol-resistente isolaten vanPenicillium italicum met kruisresistentie tegen imidazool-en triazoolfungiciden die de ergosterolbiosynthese remmen, werden getoetst op hun gevoeligheid voor fenpropimorf. Radiale groeiproeven op PDA toonden aan dat de isolaten (n=6) geen kruisresistentie bezaten met fenpropimorf of een verhoogde gevoeligheid voor het middel vertoonden (negatief gecorreleerde kruisresistentie). Op sinaasappels konPenicillium-rot, veroorzaakt door het wild-type bestreden worden door middel van een dompelbehandeling met fenpropimorf bij een dosering van 100 g ml^–1). Bestrijding van rot veroorzaakt door fenarimil-resistente isolaten werd verkregen bij dezelfde of een lagere dosering (30 g ml^–1); aldus werd aangetoond dat de normale of verhoogde gevoeligheid voor fenpropimorf ook in vivo tot uiting komt.     

蒙古黄芪根腐病病原鉴定及防治药剂室内筛选

为鉴定青海省民和地区蒙古黄芪(Astragalus membranaceus var.mongholicus)根腐病病原菌及筛选防治该病害的有效杀菌剂,本研究基于形态学特征、rDNA-ITS,TEF-1α和RPB2序列分析对蒙古黄芪根腐病病原进行鉴定,并利用菌丝生长速率法测定8种杀菌剂对病原菌的抑制作用。结果发现,引起黄芪根腐病的病原菌为腐皮镰刀菌(Fusarium soani)、逗号镰刀菌(F.virguliforme)、木贼镰刀菌(F.equiseti)和锐顶镰刀菌(F.acuminatum)。室内药剂试验表明硅唑·咪鲜胺对4种镰刀菌的抑制作用最好,EC₅₀在0.195～0.588 mg·L^-1之间;多菌灵对腐皮镰刀菌、木贼镰刀菌和锐顶镰刀菌的抑制作用较强,EC₅₀在0.113～0.869 mg·L^-1之间;咯菌腈对逗号镰刀菌、木贼镰刀菌和锐顶镰刀菌的抑制作用较强,EC₅₀在0.153～0.390 mg·L^-1之间;甲基硫菌灵、噁霉灵、溴菌腈和石硫合剂...     

几种杀菌剂对小麦纹枯病的防治效果

田间试验结果表明,12.5%烯唑醇可湿性粉剂有效成分110g/hm2、12.5%腈菌唑乳油110g/hm2、10%氯啶菌酯乳油45g/hm2、25%丙环唑乳油180g/hm2对小麦纹枯病有很好的防治效果,防效分别为79.5%、76.3%、65.8%和63.9%,显著优于常用药剂20%井冈霉素水溶性粉剂180g/hm2的防效52.9%,可在生产上大面积推广应用。     

新型杀菌化合物靶标识别及其靶向候选药剂设计概述

新型杀菌剂的创制在农业可持续发展和克服抗药性中具有重要作用。由于杀菌剂作用机制或靶标是新杀菌剂分子设计合成和创制开发的重要基础,因此作用机制或靶标研究的滞后会阻碍新先导化合物的发现或新品种的创制。鉴于此,本文对目前杀菌剂作用靶标的识别及靶向杀菌剂的分子设计进行了概述。首先阐述了基于转录组学、蛋白质组学的研究和药物亲和层析技术在靶标识别中的应用;其次概述了多学科交叉的方法在分子靶标验证中的应用;最后以strobilurin A为先导的Qo位点抑制剂、以肉桂酸为先导的卵菌抑制剂、以萎锈灵为先导的琥珀酸脱氢酶和植物免疫激活剂等不同类型的靶向杀菌剂为例进行了举例说明。     

芹菜叶斑病病原菌细极链格孢药剂筛选

【目的】研究筛选对芹菜叶斑病(病菌为:细极链格孢Alternaria tenuissima)具有良好防治作用的药剂。【方法】采用菌丝生长速率法和琼脂片法分别用14种杀菌剂对细极链格孢(A.tenuissima)菌丝和孢子萌发做室内毒力测定并进行田间药效试验。【结果】14种杀菌剂中对病原菌菌丝抑制效果最好的分别为3%甲霜恶霉灵、5%香芹酚、10%苯醚甲环唑、其EC₅₀分别为10.8、19.9、26.2 μg/mL;对孢子萌发抑制效果最好的分别为3%甲霜恶霉灵、25%嘧菌酯、43%戊唑醇,其EC₅₀分别为15.7、29.5、38.7 μg/mL。只有3%甲霜恶霉灵具有最佳的防治效果。防效最好的药剂为3%甲霜恶霉灵和5%香芹酚,其防效分别为96.3%和83.9%。【结论】3%甲霜恶霉灵最适用于田间芹菜叶斑病的防治。     

Induced resistance: a tool for fungicide resistance management

Induced resistance to the apple scab fungus Venturia inaequalis was demonstrated in greenhouse tests with 12-day-old seedlings of the apple cultivar Golden Delicious treated with methyl 2,6-dichloro-isonicotinate or 3,5-dichlorosalicylic acid prior to inoculation with the causal fungus. Studies of the dose-response of flusilazole on induced resistant plants revealed synergistic effects between both crop protection principles. Therefore, the use of such resistance-inducing compounds in the field might allow a reduction in the number of fungicide applications, and possibly a reduction in dose, thus resulting in improved efficacy of fungicides. There was also evidence that induced resistance could prove to be a valid strategy for the treatment of pathogen populations with reduced sensitivity to a given fungicide. © 1998 SCI