水果采后生物防治拮抗机理的研究进展

近20年来,人们在水果采后生物防治领域里取得了显著的成绩。目前巳经分离获得了数百种对水果采后主要病害有明显拮抗效果的生物拮抗菌。很多拮抗菌经过生产中试,有的巳制成了生物药剂用于水果采后的商业化处理。有关拮抗菌的抑病机理研究也一直贯穿于采后生物防治的整个发展历程。本文在探讨了水果采后拮抗菌剂病机理的基础上,回顾了该领域的研究进展,并从拮抗菌与病原菌发生拮抗作用的4条主要途径入手,对该领域的研究成果及研究方法作一简要总结。     

三种拮抗酵母菌对苹果采后青霉病的抑制效果

从苹果果实上分离获得的50余种酵母菌中筛选出了能够有效地抑制苹果青霉病(Penicilium expansum Link)的丝孢酵母(Trichosporon pullulans (Lindner.) Diddens and Lodder)、罗伦隐球酵母(Cryptococcus laurentii (Kuffer.) Skinner)和粘红酵母(Rhodotorula glutinis (Fresen.) F. C. Harrison).其中,抑病效果最好的T. pullulans 是一种用于采后果实生物防治的新型拮抗菌.研究了这三种拮抗菌不同浓度处理和外加营养物质以及与钙配合使用对苹果青霉病的抑病效果.实验结果表明:酵母菌浓度越高,抑病作用越强;外源营养物质的加入削弱了酵母菌的拮抗效果;在C. laurentii的细胞悬浮液中加入0.18 mol/L 的CaCl2能显著提高其抑病能力,但增加CaCl2 对T. pullulans 和R. glutinis 的抑病效果却没有明显作用.     

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。     

三种拮抗酵母菌对苹果采后青霉病的抑制效果

从苹果果实上分离获得的50余种酵母菌中筛选出了能够有效地抑制苹果青霉病（Peniclium expansum Link)的丝孢酵母（Trichosporon pullulans(Lindner.)Diddens and Lodder)。罗伦隐球酵母（Cryptococcus laurentii(Kuffer.)skin-ner)和粘红酵母（Rhodotorula glutinis(Fresen.)F.C.Harrison)。其中,抑病效果最好的T.pullulans是一种用于采后果实生物防治的新型拮抗菌,研究了这三种拮抗菌不同浓度处理和外加营养物质以及与钙配合使用对苹果青霉病的抑病效果。实验结果表明;酵母菌浓度越高,抑病作用越强;外源营养物质的加入削弱了酵母菌的拮抗效果;在C.laurentii的细胞悬浮液中加入0.18mol/L的CaCl2能显著提高其抑病能力。但增加CaCl2对T.pullulans和R.glutinis的抑病效果却没有明显作用。     

芒果、香蕉采后病害生物防治的研究进展

芒果、香蕉采后主要病害为炭疽病、蒂腐病、冠腐病、黑腐病、黑星病.生物防治是当前芒果、香蕉采后病害控制的重要研究方向.概述了生物防治芒果、香蕉采后病害的方法,包括诱抗剂、植物提取物、拮抗微生物在芒果、香蕉采后病害防治上的研究与应用.     

库尔勒香梨黑头病拮抗菌的筛选和鉴定

【背景】库尔勒香梨黑头病是近年来发现的一种由芸薹生链格孢菌(Alternaria brassicicola)XL2引起的采后病症,由于其高侵染率和高腐烂率造成了极大的经济损失,目前已成为库尔勒香梨采后储运的主要防治病症之一。【目的】发掘高效的库尔勒香梨黑头病拮抗菌,探索拮抗菌株的抑菌作用,为其生物防治提供潜在资源菌。【方法】从采后健康果蔬表面分离不同微生物,采用平板对峙法,以A.brassicicola XL2为靶标菌筛选具有拮抗作用的菌株,结合形态学观察、生理生化检测和16S rRNA基因序列分析鉴定拮抗菌株分类地位;检测拮抗菌无菌滤液对A. brassicicola XL2的抑制效应,显微观察拮抗菌对A.brassicicola XL2菌丝生长的影响;验证拮抗菌发酵液在库尔勒香梨果实上的抑菌活性。【结果】从新疆油桃表面分离获得90株菌,其中菌株Y2对A. brassicicola XL2有较强拮抗作用,经鉴定其为枯草芽孢杆菌(Bacillus subtilis)。菌株Y2的无菌滤液对A. brassicicola XL2菌落生长具有明显抑制作用,2%的无菌滤液抑菌率达到70.96%;Y2无菌滤液造成A.brassicicola XL2菌丝扭曲变形、分枝增加、尖端出现致密结构等异常现象;Y2发酵液和无菌滤液明显抑制A.brassicicola XL2的孢子萌发;Y2发酵液在库尔勒香梨果实上具有较高抑菌活性,对库尔勒香梨病斑直径抑制率达到37.66%,深度抑制率达到42.74%。【结论】枯草芽孢杆菌(B.subtilis)Y2能有效抑制A. brassicicola XL2的生长,对库尔勒香梨黑头病具有显著的生物防治效果。     

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。     

田间应用拮抗酵母菌对甜樱桃果实采后病害的防治效果

研究了应用拮抗酵母菌丝孢酵母(Trichosporon pullulans(Lindner.)Diddens et Lodder)、罗伦隐球酵母(Cryptococcus laurentii(Kuffer.)Skinner)和粘红酵母(Rhodotorula glutinis(Fresenius)Harrison)后拮抗菌在果实表面的繁殖能力以及对不同贮藏条件下甜樱桃(Pranus avivum L.cv.Hongdeng)果实采后病害的防治效果。酵母菌的使用浓度为1×10~8CFU/mL。结果表明,田间3种拮抗菌都能够在果实表面增值,但是只有C.laurentii和R.glutinis能够持续稳定地生长。C.laurentii的抑病效果最好,它对田间环境和采后低温低氧及高CO_2都具有很强的适应能力。     

田间应用拮抗酵母菌对甜樱桃果实采后病害的防治效果

研究了应用拮抗酵母菌丝孢酵母(Trichosporon pullulans(Lindner.)Diddens et Lodder)、罗伦隐球酵母(Cryptococcus laurentii(Kuffer.)Skinner)和粘红酵母(Rhodotorula glutinis(Fresenius)Harrison)后拮抗菌在果实表面的繁殖能力以及对不同贮藏条件下甜樱桃(Pranus avivum L.cv.Hongdeng)果实采后病害的防治效果.酵母菌的使用浓度为1×108CFU/mL.结果表明,田间3种拮抗菌都能够在果实表面增值,但是只有C.laurentii和R.glutinis能够持续稳定地生长.C.laurentii的抑病效果最好,它对田间环境和采后低温低氧及高CO2都具有很强的适应能力.     

丝孢酵母与钙和杀菌剂配合对苹果采后病害的抑制效果(英文)

研究一种从桃果实上分离获得的拮抗菌———丝孢酵母 (Trichosporonsp .)对苹果 (MalusdomesticaBorkh .)采后病害的防治效果 ,包括接种不同浓度的拮抗菌与不同病菌之间的拮抗作用 ,以及拮抗菌与钙或与杀菌剂配合对苹果灰霉病和青霉病的抑制效果。结果表明 ,拮抗菌和病菌孢子的浓度都明显地影响其抑菌效果。拮抗菌的使用浓度越大 ,病菌孢子的接种浓度越低 ,其抑病效果越好。当丝孢酵母菌的使用浓度达到 10 8colony_formingunits(CFU) /mL时 ,可完全抑制接种在苹果上的灰霉菌 (BotrytiscinereaPers.)和青霉菌 (Penicilliumexpansum (Link)Thom)(<10 6spores/mL)的致病力。用 10 6～ 10 7CFU/mL的丝孢酵母与 5 0 μL/L的扑海因配合对苹果采后灰霉病和青霉病的抑制效果明显地好于单独使用相同剂量的拮抗菌或杀菌剂。在丝孢酵母的悬浮液中加入 1%～ 2 ?Cl2 可显著地提高拮抗菌对灰霉病和青霉病的抑制效果。     

Influence of antagonist, host fruit and pathogen on the biological control of postharvest fungal diseases by yeasts

The yeasts Rhodotorula glutinis (LS-11), Cryptococcus laurentii (LS-28), Candida famata (21-D) and Pichia guilliermondii (29-A) and the yeast-like fungus Aureobasidium pullulans (LS-30), previously selected and characterized for mechanisms of action and antagonistic activity against postharvest pathogens in small and large-scale experiments, were used in this study in order to assess interrelationships among the main factors (antagonist, host fruit and fungal pathogen) involved in biological control of postharvest diseases. The antagonists were evaluated for their inhibitory activity (IA) against six common postharvest fungal pathogens on six different host fruits. Artificially wounded fruits were first inoculated with the antagonist and 2 h later with the pathogen; subsequently they were kept at 20°C for 4–6 days. The IA of each antagonist was evaluated and data were submitted to factorial analysis of variance. The populations of antagonists were also monitored on wounded and unwounded fruits kept at 20°C for 7 days. Each factor examined (antagonist, host fruit and fungal pathogen) as well as their interactions significantly affected the IA. However, among the antagonists, isolates LS-28 and LS-30 were only slightly affected by both host and pathogen, showing a wide range of activity, whereas isolate LS-11 had a variable IA. All the antagonists rapidly colonized the wounds, while their population remained substantially unchanged on unwounded fruits. These results suggest that in order to select yeasts with a broad spectrum of action, more suitable for commercial development, it would be advantageous to perform preliminary assays against several pathogens and in particular on different fruit species. Received 23 February 1999/ Accepted in revised form 09 July 1999     

Biocontrol of Postharvest Grey Mould on Tomato by Yeasts

The fungal pathogen Botrytis cinerea causes severe rots on tomato fruit during storage and shelf life. Biological control of postharvest diseases of fruit may be an effective alternative to chemical control. Yeasts are particularly suitable for postharvest use, proving to be highly effective in reducing the incidence of fungal pathogens. Yeast fungi isolated from the surface of solanaceous plants were evaluated for their activity in reducing the postharvest decay of tomato caused by B. cinerea. Of 300 isolates, 14 strains of Rhodotorula rubra and Candida pelliculosa were found to be strongly antagonistic to the pathogen in vitro and were selected for further storage experiment. The antagonists were evaluated for their effect on the biological control of postharvest grey mould. Artificially wounded fruits were treated by means of a novel technique: small sterile discs of filter paper imbibed separately in suspensions of each yeast and the pathogen were superposed onto each wound. After 1‐week, 11 isolates were significantly effective in reducing the diameter of lesions by more than 60% compared to the control treated with B. cinerea alone. Total protection was obtained with the strain 231 of R. rubra on fruits challenged with pathogen spores. To our knowledge, R. rubra and C. pelliculosa have not been described as biocontrol agents against grey mould caused by B. cinerea. Our data demonstrate that the application of antagonistic yeasts represents a promising and environmentally friendly alternative to fungicide treatments to control postharvest grey mould of tomato.     

Potential of yeasts as biocontrol agents of soil-borne fungal plant pathogens and as plant growth promoters

Among soil microorganisms, yeasts have received little attention as biocontrol agents of soil-borne fungal plant pathogens in comparison to bacterial, actinomycetes, and filamentous fungal antagonists. The mechanisms of action of potential antagonism by yeasts in relation to soil-borne fungal plant pathogens are expected to be similar to those involved with pathogens of aerial parts of the plant, including leaves and fruits. Several taxa of yeasts have been recorded as endophytes in plants, with a small proportion recorded to promote plant growth. The ability of certain taxa of yeasts to multiply rapidly, to produce antibiotics and cell wall-degrading enzymes, to induce resistance of host tissues, and to produce plant growth regulators indicates the potential to exploit them as biocontrol agents and plant growth promoters. More than ten genera of yeasts have been used to control postharvest diseases, especially of fruits. Suppression of classes of fungal pathogens of fruits and foliage that are similar to those associated with soil-borne fungal root pathogens, strongly suggests that yeasts also have potential for the biological control of diseases caused by soil-borne fungal plant pathogens, as is evident in reports of certain yeasts in suppressing some soil-borne fungal plant pathogens. This review explores the potential of soil yeasts to suppress a wider range of soil-borne fungal plant pathogens and to promote plant growth.     

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。     

Biologically-based alternatives to synthetic fungicides for the control of postharvest diseases

Recently, biological control has been advanced as an alternative to synthetic fungicides and considerable success in laboratory and pilot scale tests has been realized utilizing antagonistic microorganisms to control postharvest diseases. Several antagonistic yeasts and bacteria have been isolated and shown to have a broad spectrum of activity against a number of postharvest pathogens on a variety of fruit. However, for biological control methods to emerge as an economically viable option, their consistency and efficacy in controlling postharvest decay needs to be enhanced to a level comparable to that of synthetic fungicides. This could be possible through an integrated strategy that exploits the additive and synergistic effects of different biological approaches. Received 06 February 1997/ Accepted in revised form 29 May 1997     

Increase in antioxidant enzyme activity,stress tolerance and biocontrol efficacy of Pichia kudriavzevii with the transition from a yeast-like to biofilm morphology

Morphological change, such as from yeast-like to biofilm, has been recently considered to be involved in the mode of action of some antagonistic yeasts used as postharvest biocontrol agents. In the present study, the biocontrol yeast, Pichia kudriavzevii, reversibly shifted from a yeast-like morphology on yeast peptone dextrose (YPD) medium with 2% agar to a biofilm morphology on YPD with 0.3% agar. The tolerance of P. kudriavzevii to heat and oxidative stresses, as well as the biocontrol efficacy against postharvest diseases on pear fruit, increased significantly from the yeast-like form to the biofilm form. The activity of antioxidant enzymes, including catalase and superoxidase dismutase, in the biofilm form was also significantly higher. The elevated activity of antioxidant enzymes was associated with less protein and lipid oxidation in the biofilm form, compared to the yeast-like form, under heat and oxidative stresses. These results suggest that activation of antioxidant system with the morphology shift contributes to the enhancement of abiotic stress tolerance and biocontrol performance of P. kudriavzevii. These findings provide new information on the biology of yeast antagonists that is essential for their potential application and development.     

History and future of growth hormone research

The understanding of the mechanisms of growth hormone (GH) action has seen great accomplishments over the last two decades. These achievements include the cloning of a variety of GH and GH receptor (GHR) genes and cDNAs; solving of the three-dimensional structure of GH and the GH/GHR complex, and the discovery of GH antagonists. These GH antagonists have resulted in a new class of drugs with important clinical implications. Animal models in which the GH/insulin-like growth factor (IGF)-I axis has been perturbed also have resulted in many novel findings. We have now entered the era of genomics and proteomics. Genes and proteins that are up- or downregulated as a function of GH action (or lack thereof) will add to the repertoire of knowledge that will lead to a better understanding of the molecular basis of GH action.     

Proteomic analysis of differentially accumulated proteins during ripening and in response to 1-MCP in papaya fruit

Papaya (Carica papaya L.) is a climacteric fruit susceptible to postharvest losses due to the ethylene-induced ripening. The inhibitor of ethylene action, 1-methylcyclopropene (1-MCP), has been used worldwide as a safe postharvest non-toxic agent, but the physiological and biochemical modifications induced by 1-MCP are not well understood. Using the 2-DE analysis, we report the changes in the protein profiles after 6 and 18 days of postharvest and the effect of the effect of 1-MCP treatment on fruits. Twenty seven protein spots showing differences in abundance during ripening were successfully identified by nano-LC-ESI/MS/MS. Some spots corresponded to the cell wall degrading enzymes related to fruit ripening; others were involved in oxidative damage protection, protein folding, and cell growth and survival that were induced by 1-MCP. This is the first proteomic report analyzing the effect of 1-MCP in papaya ripening. The present data will help to shed light on papaya fruit ripening process.