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壳寡糖和钕复合处理诱导黄瓜对枯萎病的抗性 总被引:1,自引:0,他引:1
以"津研四号"黄瓜为试材,研究了壳寡糖和钕Nd3+对黄瓜幼苗的诱导抗病性及对枯萎病的防治效果。结果表明,50 mg/L壳寡糖和10 mg/L Nd3+复合处理的相对防效达74.7%,比50 mg/L壳寡糖和10 mg/L Nd3+的单独处理分别提高22.0%和43.8%。分析比较壳寡糖和Nd3+单独和复合处理黄瓜幼苗后,黄瓜根部防御反应相关酶系苯丙氨酸解氨酶(PAL)、过氧化物酶(POD)、多酚氧化酶(PPO)、β-1,3-葡聚糖酶(GLU)比活性的变化趋势,发现壳寡糖和Nd3+复合处理黄瓜植株根部PAL、POD、PPO和GLU等防御酶活性呈上升趋势。研究表明,壳寡糖和Nd3+复合处理能诱导黄瓜幼苗对枯萎病的抗性,且诱导黄瓜抗病性的产生与激活黄瓜相关防御酶的活性有关。 相似文献
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植物诱导防御是当前国际生物防治学的热点内容,研究发现寡糖类物质是一类有效的诱导子,对于植物具有免疫调节作用,可以增强植物应对病虫害的能力。利用其进行植物病虫害防治是植物保护的新途径。本文将对目前应用较为广泛的寡糖诱导子来源和实际应用情况,以及寡糖诱抗机理研究中寡糖识别机制的研究进展进行综述。 相似文献
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微生物代谢产物农药(microbial metabolite pesticide,简称MMP)是以微生物发酵产生的代谢产物为活性成分,用于防治病虫草鼠等有害生物或促进植物生长发育的生物农药。MMP主要包括农用抗生素、微生物源植物免疫诱抗剂和微生物源植物生长调节剂,是我国应用面积最广的生物农药。部分微生物代谢产物农药兼具预防与治疗效果,是未来绿色农药研发的一个重要方向。本文总结了我国研发和应用的主要代谢产物农药种类、特点和最新研究进展,分析了我国代谢产物农药研发过程中存在的问题和挑战,为新型代谢产物农药的研发与应用提供参考。 相似文献
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壳寡糖诱导对烟草体内TMV-CP基因表达的抑制作用 总被引:1,自引:0,他引:1
采用实时荧光定量PCR方法, 研究了壳寡糖诱导对烟草体内TMV-CP基因表达量的影响。结果表明, 壳寡糖诱导后烟草表达了对TMV侵染的系统获得抗病性, 植株显症推迟4~7 d, 症状减轻, 平均严重度比对照降低了82.9%。同时烟草叶片中CP基因的表达量显著降低。壳寡糖诱导处理的植株在接种病毒时(0 h), CP基因的表达量(拷贝数/2μL)为0.918, 接种后168 h增加到167.730。而在不诱导对照植株内, CP基因的表达量在0 h为1.218, 接种后168 h猛增到648.623。换言之, 不处理对照的表达量在此期间增长了532.53倍, 而壳寡糖诱导处理植株中仅增长了182.71倍。试验证明壳寡糖诱导的系统获得抗病性强烈抑制了烟草体内TMV-CP基因的表达。 相似文献
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丛枝菌根(arbuscular mycorrhizal,AM)真菌能与植物根系建立共生体提高植物抗病性。植物激素茉莉酸(jasmonic acid,JA)参与AM的形成,介导AM真菌诱导的植物抗病性。目前,关于AM真菌诱导的植物抗病性内容较为丰富,但是关于JA介导的AM真菌诱导的植物抗病性却有待进一步研究。本文首先总结了JA对AM形成和AM对植物内源JA积累的影响;其次介绍了AM真菌对植物抗病性影响及诱导机制;最后从诱导形成防御结构、提高酶活性及合成防御蛋白、诱导次生代谢物质合成、诱导调控信号分子、JA与其他激素相互作用五个方面探讨了JA在AM真菌诱导抗病性中的作用,并对本领域的研究方向进行展望,以期为植物病害防治和菌根研究提供可借鉴的思路。 相似文献
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植物病害对全球粮食安全造成严重威胁,而病原物对杀菌剂日益严重的抗药性问题和杀菌剂施用导致的环境暴露风险极大限制了传统杀菌剂的开发。植物释放大量挥发性有机化合物 (volatile organic compounds, VOCs) 到大气中作为植物与周围环境交流互动的信号分子。植物VOCs可以保护自身免受食草动物的侵害,或吸引传粉者和种子传播者,它们还能够直接抑制病原菌的生长或者激活植物的防御系统。本文综述了植物VOCs在生物合成、收集分析、诱导释放、对病原微生物的活性和诱导植物免疫反应等方面的研究进展;总结了典型绿叶挥发物反-2-己烯醛的抑菌和抗性诱导机理;归纳和展望了植物VOCs在田间应用的局限性和今后的研究方向,可为该类化合物在可持续病害防控中的应用提供帮助。 相似文献
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The mechanism involved in systemic acquired resistance (SAR) can be non-specifically induced in susceptible plants. In response to pathogens, plants' natural defence mechanisms include the production of lignin and phytoalexins and the induction of plant enzymes. The aim of this research was to study the induction of SAR mediated by the chemical activator DL-3-aminobutyric acid (BABA) and the fungicide fosetyl-aluminium in potato cultivars with different levels of resistance against Phytophthora infestans (Mont) de Bary. To study the chemical induction of the resistance, the foliage of several potato cultivars was sprayed with BABA, fosetyl-aluminium or water (as a control treatment). After 3 days the foliage was inoculated with P. infestans. Seven days after inoculation, development of disease symptoms in the foliage was assessed. In postharvest tuber samples, evidence for enhancement of the defence response was evaluated by measuring the protein content of several hydrolytic enzymes as well as the phenol and phytoalexin content. The highest level of protection against late blight was observed when the chemicals were applied at early stages of crop development. An increase in resistance to late blight was also detected in tubers after harvest. There was also an increase in the protein level of beta-1,3-glucanase and aspartic protease as well as in the phenol and phytoalexin content of potato tuber discs obtained from postharvest tubers of treated plants. Thus the protective effect seemed to persist throughout the whole crop cycle. This treatment may offer the possibility of controlling both foliage and tuber blight and could have a major impact in reducing over-winter survival of P. infestans in tubers. 相似文献
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《Physiological and Molecular Plant Pathology》1999,54(3-4):115-130
Plant-mediated interactions (i.e., induced resistance) between plant pathogens and insect herbivores were investigated using several pests of the cultivated tomato,Lycopersicon esculentum. Single leaflets of tomato leaves were injured by allowing a third-instarHelicoverpa zealarva to feed on the leaflets or by inoculating the leaflets withPseudomonas syringaepv.tomato(the causal agent of bacterial speck in tomato;Pst) or withPhytophthora infestans(the causal agent of late blight). Leaflets on separate plants were sprayed with benzothiadiazole, a chemical inducer of resistance toPst. The effects of these treatments on the resistance of uninoculated or undamaged leaflets to bothPstandH. zeawere then assessed after appropriate periods of time. The levels or activities of several defense-related proteins were determined in parallel. Infection of leaflets byPstdecreased the suitability of uninoculated leaflets of the same leaf for bothH. zeaand forPst. Similarly, feeding byH. zeacaused leaf-systemic increases in resistance to bothH. zeaandPst. Infection of leaflets byP. infestans, in contrast, had no effect on resistance of leaflets toH. zea. Treatment of leaves with benzothiadiazole induced resistance toPstbut improved suitability of leaflets forH. zea. Feeding byH. zeacaused the systemic accumulation of proteinase inhibitor mRNA and the systemic induction of polyphenol oxidase activity; in contrast, treatment with benzothiadiazole and inoculation withP. infestanscaused the systemic accumulation of pathogenesis-related protein mRNA and the systemic induction of peroxidase activity. Inoculation of leaflets withPstcaused the leaf-systemic accumulation of both pathogenesis-related protein and proteinase inhibitor mRNA and the systemic induction of both peroxidase and polyphenol oxidase activity. These results provide clear evidence for reciprocal induced resistance involving certain pathogens and arthropod herbivores of tomato. In addition, these results provide several insights into the integration and coordination of the induced defenses of tomato against multiple pests and suggest that the expression of resistance against some pests may compromise resistance to others. 相似文献
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Induced systemic resistance in Trichoderma harzianum T39 biocontrol of Botrytis cinerea 总被引:11,自引:0,他引:11
Geert De Meyer Joseph Bigirimana Yigal Elad Monica Höfte 《European journal of plant pathology / European Foundation for Plant Pathology》1998,104(3):279-286
Biocontrol of Botrytis cinerea with Trichoderma spp. is generally believed to result from direct interaction of the biocontrol agent with the pathogen or from a Trichoderma-induced change in environmental conditions that affects B. cinerea development. In this work we provide arguments for the participation of induced plant defence in T. harzianum T39 control of B. cinerea. In tomato, lettuce, pepper, bean and tobacco, T. harzianum T39 application at sites spatially separated from the B. cinerea inoculation resulted in a 25–100%percnt; reduction of grey mould symptoms, caused by a delay or suppression of spreading lesion formation. Given the spatial separation of both micro-organisms, this effect was attributed to the induction of systemic resistance by T. harzianum T39. The observation that in bean the effect of T. harzianum T39 was similar to that of the rhizobacterium Pseudomonas aeruginosa KMPCH, a reference strain for the induction of systemic resistance, confirmed this hypothesis. Since B. cinerea control on tobacco leaves sprayed with T. harzianum T39 was similar to the control on leaves from T. harzianum T39 soil-treated plants, induction of plant defence might also participate in biocontrol on treated leaves. 相似文献
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Arabidopsis thaliana resistance to insects, mediated by an earthworm-produced organic soil amendment
Cardoza YJ 《Pest management science》2011,67(2):233-238
BACKGROUND: Vermicompost is an organic soil amendment produced by earthworm digestion of organic waste. Studies show that plants grown in soil amended with vermicompost grow faster, are more productive and are less susceptible to a number of arthropod pests. In light of these studies, the present study was designed to determine the type of insect resistance (antixenosis or antibiosis) present in plants grown in vermicompost‐amended potting soil. Additionally, the potential role of microarthropods, entomopathogenic organisms and non‐pathogenic microbial flora found in vermicompost on insect resistance induction was investigated. RESULTS: Findings show that vermicompost from two different sources (Raleigh, North Carolina, and Portland, Oregon) were both effective in causing Arabidopsis plants to be resistant to the generalist herbivore Helicoverpa zea (Boddie). However, while the Raleigh (Ral) vermicompost plant resistance was expressed as both non‐preference (antixenosis) and milder (lower weight and slower development) toxic effect (antibiosis) resistance, Oregon (OSC) vermicompost plant resistance was expressed as acute antibiosis, resulting in lower weights and higher mortality rates. CONCLUSION: Vermicompost causes plants to have non‐preference (antixenosis) and toxic (antibiosis) effects on insects. This resistance affects insect development and survival on plants grown in vermicompost‐amended soil. Microarthropods and entomopathogens do not appear to have a role in the resistance, but it is likely that resistance is due to interactions between the microbial communities in vermicompost with plant roots, as is evident from vermicompost sterilization assays conducted in this study. Copyright © 2010 Society of Chemical Industry 相似文献
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Takahashi H Ishihara T Hase S Chiba A Nakaho K Arie T Teraoka T Iwata M Tugane T Shibata D Takenaka S 《Phytopathology》2006,96(8):908-916
ABSTRACT The biocontrol agent Pythium oligandrum produces glycoprotein elicitor in the cell wall fraction, designated CWP, and induces resistance to a broad range of pathogens. To understand the mechanism of CWP-induced resistance to pathogens, gene expression at the early stage of CWP treatment in tomato roots was analyzed using a cDNA array. At 4 h after CWP treatment, 144 genes were up-regulated and 99 genes were down-regulated. In the 144 up-regulated genes, nine genes exhibited about eightfold increased expression. Analysis of the response of these nine genes to three commercial plant activators indicated that a high level of one gene, beta-cyanoalanine synthase gene (LeCAS) encoding hydrogen cyanide (HCN) detoxification enzyme, was stably induced in tomato roots by such treatment. However, expression of LeCAS was not significantly induced in tomato roots at 4 h by abiotic stresses, whereas only a very low level of induction of such expression by cold stress was observed. This LeCAS expression was also induced after exogenous treatment with a low level of 1-amino-cyclopropane-1-carboxylate as the precursor of ethylene, but not with either salicylic acid or methyl jas-monate. The induction of LeCAS expression in CWP-treated and plant activator-treated roots is likely to be caused by the detoxification of HCN during ethylene production. Transient activation of LeCAS expression caused by ethylene production in tomato roots may be a general phenomenon in fungal elicitor-induced and synthetic plant activator-induced resistance. LeCAS seems to be useful for screening possible novel plant activators for plant protection against pathogens. 相似文献
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This paper is an overview of a non-specific local early induced resistance (EIR) mechanism, distinct from the incompatible-specific hypersensitive reaction (HR). We have shown that the local induced resistance (LIR) described earlier is not a single and uniform response to pathogen infection, because an early (EIR) and a late form can be distinguished. EIR operates from 3-6 h post-inoculation (hpi) until about 20 hpi, and is inhibited by a short heat-shock or the eukaryotic protein synthesis inhibitor, cycloheximide. In contrast, LIR, which corresponds to the induced resistance forms discovered earlier, requires more time (about 24 h) and intensive illumination to develop, and is effective for a longer period. EIR develops parallel with HR and is sometimes able to prevent it when the induction time of HR is longer than the time required for the development of EIR. It seems that EIR inhibits the metabolism of bacteria and the activity of hrp genes which otherwise are required for the induction of HR. In a compatible host-pathogen relationship the effect of EIR fails to take place. The rapid development of EIR is greatly influenced by temperature and the physiological state of the plant. EIR activates the accumulation of hydrogen peroxide at the bacterial attachment, expressing new peroxidase isoenzymes in the initiated plant tissue. It seems that this is a native general local defence mechanism which can localise foreign organisms even at the penetration site. 相似文献
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Laith Ibrahim Moushib Johanna Witzell Marit Lenman Erland Liljeroth Erik Andreasson 《European journal of plant pathology / European Foundation for Plant Pathology》2013,136(2):261-271
The aim of this study was to find a natural and cheap agent that could induce defence responses in potato plants to combat Phytophthora infestans, which causes late blight disease that is one of the most devastating plant pathogens in agriculture. We tested whether a sugar beet extract (SBE), derived through a simple extraction procedure from a large-scale plant waste product, induced resistance under green-house conditions. In three potato genotypes differing in their level of resistance to P. infestans (two susceptible genotypes: Desiree and Bintje and one partially resistant: Ovatio), treatment with SBE resulted in significant reduction of the size of the infection lesions in a pattern similar to that seen with application of a known defence-inducing compound, β-aminobutyric acid (BABA). Lower sporangial production was also observed on SBE-treated leaves, but the reduction in sporangial production was more pronounced after BABA treatment. SBE had no apparent toxic effect on the hyphal growth of the pathogen or on the germination of sporangia. Instead, SBE triggered pathogenesis-related protein (PR-1 and PR-2) induction which suggests that the protection conferred by SBE could be via induced resistance. An array of phenolic metabolites was found in the SBE that may contribute to the defence response. 相似文献