果蔬采后诱导抗病性

诱导抗病性是生物防治的途径之一,本文综述了诱导抗病性在果蔬采后病害防治中的研究进展,包括多种物理性、化学性和生物性激发子对许多采后果蔬抗病性的诱导以及诱导抗病性产生的机制,并分析它在果蔬防腐保鲜上的应用前景。     

诱导抗性在果蔬采后病害防治中的应用

就果蔬采后诱导抗性因子——生物型和非生物型因子（如微生物、物理因子、化学物质、天然物质等）在果蔬采后病害防治中的应用及可能的诱导机制作了介绍。     

果蔬采后病害的生物防治(综述)

采用生物防治措施控制采后病害是当前果蔬采后保鲜的重要研究方向。概述了生物防治果蔬采后病害的方法,包括利用拮抗菌、诱导抗病性、天然植物产物以及抗病基因工程技术在果蔬病害防治上的研究与应用。     

水杨酸诱导果实采后抗病性机制研究进展

水杨酸(Salicylic acid, SA)是一种重要的内源信号分子,具有激活果实抗性防卫反应的能力。本文综述SA对多种果实采后病害的抑制效果及其诱导果实采后抗病性机制(如诱导果实抗氧化反应、诱导果实防御反应、调控果实呼吸代谢、诱导果实抗病基因表达和抗性相关蛋白表达),并展望该领域SA未来研究趋势与方向,对推动果实采后抗病理论的发展和指导生产实践具有重要意义。     

植物诱导抗病基因工程

概述了植物诱导抗病性的诱导因子和诱导方法,植物诱导抗病性的简要机制,以及植物抗病基因工程的理论构思和应用前景。     

牛蒡低聚果糖生理活性的研究进展

牛蒡低聚果糖是由本实验室从菊科植物牛蒡中提取并鉴定的低聚果糖.研究表明,牛蒡低聚果糖具有广泛的生理活性.可提高动物的免疫活性,提高若干免疫因子的含量,促进动物生长效应,抗疲劳效果明显.此外,BFO处理可以诱导植物产生系统性抗性,增强植物的抗病性,可用于植物病害防治或果蔬保鲜.     

丁香精油对冷藏冬枣果实腐烂及诱导抗病相关酶活性的影响

对不同浓度丁香精油处理冬枣果实在0℃贮藏期间(60d)及藏后25℃货架期(5d)的果实腐烂率、诱导抗病相关酶活性和总酚含量的变化特征进行分析,以探索丁香精油抑制冬枣果实腐烂与抗病性诱导的关系。结果表明:丁香精油处理能有效抑制冬枣贮藏期果实腐烂的发生,提高其苯丙氨酸解氨酶、多酚氧化酶和过氧化物酶活性,诱导总酚含量的增加。经丁香精油处理冬枣果实在贮藏60d后25℃货架期5d时的腐烂指数得到明显下降,同时保持了较高的苯丙氨酸解氨酶、多酚氧化酶、过氧化物酶活性和总酚含量,并以0.50%丁香精油处理的效果最显著,其贮藏后货架期的果实腐烂指数较对照下降了45.5%。可见,丁香精油抑制贮藏冬枣果实的腐烂与抗病相关酶活性的升高密切相关,抗病性诱导是丁香精油处理抑制冬枣采后果实腐烂的重要原因之一。     

新疆甜瓜经疫霉菌毒素诱导后酶活性的变化（简报）

抗病性不同的新疆甜瓜品种经疫霉菌毒素诱导后,PAL活性在总体上呈上升趋势,且与品种的抗感病程度的顺序一致;POD活性初期下降,8h后开始上升,24h达最大值,随后下降;几丁内切酶与几丁外切酶的第一活性峰均出现在诱导后16h,而第二活性峰出现的时间团品种抗病性差异而不同;β-1,3-葡聚糖酶的活性变化与几丁质酶基本一致。     

植物诱导抗病性

本文概述植物诱导抗病性的概念、研究概况、特性和机理。     

超大气高氧与果蔬采后生理

概述了超大气高氧 (2 1%～ 10 0 % )条件下果蔬采后生理生化、化学成分和品质变化 ,病原微生物生长和果蔬腐烂的关系 ,以及高氧处理在新鲜果蔬采后贮运中的应用前景     

控制果蔬采后病害的生物学技术

化学农药对环境和农产品的污染直接影响人类的健康,已成为当今公众所关注的主要问题之一。为了保证农产品的卫生和安全,世界各国都在探索能代替化学农药的防病新技术。生物防治是近年来被证明很有成效的新途径,它主要是利用微生物之间的拮抗作用,选择对农产品不造成危害的微生物来抑制引起采后腐烂的病原真菌的生长。生物防治的研究主要包括主要包括以下三方面：（１）选用有拮抗作用的微生物;（２）利用植物和动物产生的自然抗     

控制果蔬采后病害的生物学技术

化学农药对环境和农产品的污染直接影响人类的健康,已成为当今公众所关注的主要问题之一。为了保证农产品的卫生和安全,世界各国都在探索能代替化学农药的防病新技术。生物防治是近年来被证明很有成效的新途径,它主要是利用微生物之间的拮抗作用,选择对农产品不造成危害的微生物来抑制引起采后腐烂的病原真菌的生长。生物防治的研究主要包括以下三方面：（1）选用有拮抗作用的微生物;（2）利用植物和动物产生的自然抗病物质;（3）抗性的诱导。本文主要论述近年来生物防治领域的研究结果与进展,拟在为进一步开拓和发展控制采后病害的安全有效的技术提供新的思路。     

Salicylic acid induced resistance in fruits to combat against postharvest pathogens: a review

Salicylic acid (SA), the plant hormone, is extensively involved in signalling pathway, primarily in defence to induced local and systemic resistances in fruits against postharvest pathogens. Exogenous application of SA on fruits at optimum or non-toxic concentration provided efficient control of decay caused by postharvest pathogens. SA has direct fungitoxic effect on pathogen growth. This review scrutinises the control of various postharvest diseases by the application of SA on different fruits. Furthermore, physiological mechanism involved in inducing resistance is also discussed. These findings are necessary for understanding the proper function of SA in harvested fruits. In future, there is a need to correlate the efficacy of SA with environmental conditions and should emphasise on molecular paths involved in signalling of induce resistance.     

采后果蔬对乙烯受体抑制剂的响应及贮运保鲜技术的研究

近几年来 ,随着重氮环戊二烯和环丙烯类等乙烯受体抑制剂的发现 ,为控制乙烯敏感型的果蔬采后成熟、衰老提供新的技术手段。从乙烯受体抑制剂的特性、作用特点以及可能作用机理等方面概述了采后果蔬对乙烯受体抑制剂的响应和应用乙烯受体抑制剂延长采后果蔬贮运保鲜的技术。     

Benzo-thiadiazole-7-carbothioic Acid S-methyl Ester does not protect Melon Fruits against Fusarium pallidoroseum Infection but Induces Defence Responses in Melon Seedlings

The present study investigated the potential of benzo-thiadiazole-7-carbothioic acid S -methyl ester (BTH) to protect postharvest melons var. 'Orange Flesh' from the fruit rot caused by Fusarium pallidoroseum . It was noticed that melon fruits immersed in BTH and postinoculated with the fungus presented the same pattern of disease incidence/severity and activity of the defence-related enzymes superoxide dismutase, ascorbate peroxidase, guaiacol peroxidase, phenylalanine ammonia-lyase, and β-1,3-glucanase of controls, indicating that BTH was ineffective in protecting melons from the fruit rot disease. However, the preflowering application of BTH in melon seedlings induced stunted growth, probably related to enhanced lignification which is related to the plant cell wall reinforcement and increase of resistance against invading pathogens, and alterations of the activity of the studied defence-related enzymes in comparison with controls, suggesting that this strategy could probably be effective for the control of the postharvest rot of melon fruits through activation of systemic resistance.     

Heat-induced oxidative injury contributes to inhibition of Botrytis cinerea spore germination and growth

The inhibitory effect of heat treatment (HT) on Botrytis cinerea, a major postharvest fungal pathogen, and the possible mode of action were investigated. Spore germination and germ tube elongation of B. cinerea were both increasingly and significantly inhibited by HT (43 °C) for 10, 20 or 30 min. HT-induced gene expression of NADPH oxidase A, resulted in the intracellular accumulation of reactive oxygen species. HT-treated B. cinerea spores exhibited higher levels of oxidative damage to proteins and lipids, compared to the non-HT control. These findings indicate that HT resulted in oxidative damage which then played an important role in the inhibitory effect on B. cinerea. In the current study, HT was effective in controlling gray mold, caused by B. cinerea, in pear fruits. Understanding the mode of action by which HT inhibits fungal pathogens will help in the application of HT for management of postharvest fungal diseases of fruits and vegetables.