苏芸金芽孢杆菌与蜡状芽孢杆菌

苏芙金芽抱杆菌（ffecilliusthuringiensis简称B．t．）与蜡状芽抱杆菌（Bacilluscereus简称Bc,）这一对高度近缘细菌既有重要的经济意义又与人类的健康密切相关。B．l．在其芳抱形成期可产生杀虫晶体蛋白,已成为全球性应用最广泛的细菌杀虫剂［‘］二能产生多种有害毒素,诸如肠毒素、呕吐毒素、溶血素等,可引起人类非肠道感染及食物中毒,是人类的条件致病菌口。尽管B．t．杀虫剂有较好的完全性记录。但新近的文献表明,昆虫病原菌Bt．与人类的条件致病菌五C,的基因型及表现型非常相似,B．t．菌株也可产生对非靶标生物及人富有毒…     

暹罗芽孢杆菌研究进展

暹罗芽孢杆菌Bacillus siamensis是芽孢杆菌属近十年发表的新种,具有广谱抗菌性及其他生物活性,具备开发潜力。本文综述暹罗芽孢杆菌生物活性及应用研究进展,并就未来研究方向提出建议。     

芽孢杆菌植酸酶分子生物学研究进展

来源于芽孢杆菌的中性植酸酶具有良好的热稳定性,适合作为消化道呈中性鲤科鱼类的饲料添加剂。该植酸酶晶体具有独特的螺旋桨样空间结构,钙离子在其稳定性和催化活性的结构功能关系中具有重要作用,并表现出特有的催化机理。该基因与已知植酸酶基因的结构有所不同,是一种新的植酸酶。目前主要采用多种原核表达系统对其进行表达。比较表明,芽孢杆菌表达系统和酵母表达系统是实现芽孢杆菌植酸酶规模化生产的有效途径。     

苏云金芽孢杆菌几丁质酶的研究进展

苏云金芽孢杆菌制剂作为无公害农药已经得到社会的认可,如果再开发其几丁质酶抑制真菌和杀虫增效功能,不仅可充分利用这一农业微生物菌种资源,也将给予传统生物农药以新的生命力。综述了苏云金芽孢杆菌几丁质酶方面研究的国内外最新进展。     

拮抗细菌与其他生防因子复配防治植物病害研究进展

目前,利用单一微生物防治植物病害的研究比较多,但在实际应用中受到各种因素的影响,防治效果不理想.将多种拮抗细菌复配,通过各菌株间的优势互补能够增强对环境的适应能力,从而提高防治效果.本文综述了拮抗细菌与其他生防菌以及植物提取物复配防治植物病害的研究进展,并讨论了植物病害生物防治的研究方向.     

需氧芽孢杆菌分类学研究进展

随着细菌多相分类学技术的发展,需氧芽孢杆菌在分类及命名方面发生了很大的变化。本文总结了现有芽孢杆菌各属的确立依据及其模式种的特征。     

炭疽芽孢杆菌检测鉴定技术研究进展

炭疽芽孢杆菌的感染,无论是自然感染,还是作为生物恐怖和生物战的手段。快速检验和鉴定疽芽孢杆菌是最为关键的,只有正确识别生物战剂的种类,才能为正确实施防治措施指明方向。本文讨论了炭疽芽孢杆菌的检验鉴定技术,包括常规的分析培养,免疫学技术,核酸分析技术,生物传感器,基因芯片技术的应用和新诊断分子,如肽核酸与适配子的应用。     

解淀粉芽孢杆菌研究进展

解淀粉芽孢杆菌具有广泛的抗菌能力,在环保、种植业、水产养殖业具有广泛的应用前景。本文对近年来关于解淀粉芽孢杆菌的研究与探索,从分离、筛选、鉴定、优化培养、分子生物学鉴别、代谢产物分析及应用研究方面进行了总结。     

叶面分离苏云金芽孢杆菌的研究进展

苏云金芽孢杆菌是一种在芽孢形成的同时能形成杀虫晶体蛋白的细菌,广泛存在于土壤、昆虫、贮藏物、仓库尘埃、植被等昆虫接触物上.植物叶片作为Bt分离的重要来源,目前对这方面的研究相对较少,国内刚刚起步.本文就叶面分离Bt的研究成果、叶片采样及分离方法进行阐述.     

地衣芽胞杆菌在植物病害生物防治中的应用

随着对地衣芽胞杆菌研究的不断深入和其杀虫、抗菌、生物降解等多种生物学活性的发现,地衣芽胞杆菌被认为是芽胞杆菌属中最具有生物防治应用价值的菌种之一。本文论述了地衣芽胞杆菌的生物学特性及其防治植物病害的四种主要作用机制,包括竞争、分泌抗菌物质、诱导植物系统抗性和促进植物生长;介绍了地衣芽胞杆菌在水稻、棉花、番茄、芒果、辣椒等多种大田作物和经济果蔬上的应用现状和生物防治效果;并讨论了其在生防应用过程中存在的主要问题,为今后地衣芽胞杆菌在生物防治方面的研究提供理论依据和应用参考。     

地衣芽胞杆菌在植物病害生物防治中的应用

随着对地衣芽胞杆菌研究的不断深入和其杀虫、抗菌、生物降解等多种生物学活性的发现,地衣芽胞杆菌被认为是芽胞杆菌属中最具有生物防治应用价值的菌种之一。本文论述了地衣芽胞杆菌的生物学特性及其防治植物病害的四种主要作用机制,包括竞争、分泌抗菌物质、诱导植物系统抗性和促进植物生长;介绍了地衣芽胞杆菌在水稻、棉花、番茄、芒果、辣椒等多种大田作物和经济果蔬上的应用现状和生物防治效果;并讨论了其在生防应用过程中存在的主要问题,为今后地衣芽胞杆菌在生物防治方面的研究提供理论依据和应用参考。     

Bacillus species in soil as a natural resource for plant health and nutrition

The genus Bacillus is one of the predominant bacterial genera found in soil, and several species of this genus have been reported from diverse ecological niches. Endowed with tremendous genetic and metabolic diversity, Bacillus spp. serve multiple ecological functions in soil ecosystem from nutrient cycling to conferring stress tolerance to plants. Members of the genus Bacillus are known to have multiple beneficial traits which help the plants directly or indirectly through acquisition of nutrients, overall improvement in growth by production of phytohormones, protection from pathogens and other abiotic stressors. This functionally versatile genus is one of the most commercially exploited bacteria in the agro-biotechnology industry. Still its potential has not been realized sufficiently and requires an emphasis towards translating the relevant technologies from laboratory to land for the benefit of mankind.     

Evaluation of fungicides and biocontrol products for the control of Phytophthora root rot of hydrangeas

Abstract

Phytophthora root rot is one of the most important diseases in almost all hydrangeas of nursery production. In this study, the efficacy of fungicides and biocontrol products against Phytophthora root rot of hydrangea was assessed in greenhouse and field experiments. Treatments used in field or greenhouse experiments were RootShield PLUS⁺, MBI110, IT-5103, Grotab, OxiPhos, TerraClean 5.0?+?TerraGrow program, Segovis, Pageant Intrinsic, Empress Intrinsic and Subdue Maxx. Pots/plots were inoculated with Phytophthora nicotianae grown on rice grains, sterilised rice grains were used for negative controls. After the trials, plant growth data (total plant weight, root weight, plant height, plant width) were recorded, and roots were assessed for disease severity using a scale of 0–100%. The treatments most effective in reducing Phytophthora root rot severity were Segovis, Empress Intrinsic, Subdue Maxx, TerraClean 5.0?+?TerraGrow program in both greenhouse and field experiments. This study will help nursery producers make proper management decisions by using recommended fungicides and biocontrol products of this study in a rotation or alone to manage Phytophthora root rot of hydrangea.     

内生枯草芽孢杆菌JL4在葡萄叶上的定殖及其对葡萄霜霉病的防治

为了明确枯草芽孢杆菌JL4在葡萄叶表面和内部的定殖情况,研究定殖与防治效果的关系,采用电击转化的方法将含有GFP基因的质粒pGFP78导入枯草芽孢杆菌JL4中,并得到成功表达GFP 的生防菌JL4-gfp,测试了标记菌株的稳定性及其对葡萄霜霉病菌的抑制作用.采用叶片喷雾法接种,用抗生素平板稀释分离回收,检测生防菌JL4-gfp在葡萄叶片的定殖情况,并将采回的叶片在室内接种葡萄霜霉菌孢子囊悬浮液进行生防测定.结果表明: 标记菌株在经过10次传代培养后,仍具有良好的发光表型,能稳定表达GFP蛋白,并且标记菌株JL4-gfp对葡萄霜霉菌保持了原有的抑菌作用;用抗生素平板稀释分离回收,检测到JL4-gfp菌株在葡萄叶片表面的定殖量在接种后的0、3和7 d分别为3.6×10⁵、2.7×10⁵和3.1×10³ CFU·g^-1;叶片内部的定殖在接种3 d后达到最大(9.6×10⁴ CFU·g^-1),然后下降,14 d后已经检测不到接种菌株;室内生防测定结果显示,喷雾后3 d对葡萄霜霉病的防治效果达88.0%以上,但7 d后则无明显防效.JL4-gfp的定殖量与其防治葡萄霜霉病的效果呈正相关,其有效定殖量临界值为10⁵ CFU·g^-1.     

Effect of fungicides on growth,germination and cuticle-degrading enzyme production by Lecanicillium muscarium

Lecanicillium muscarium Zare and Gams (previously known as Verticillium lecanii) is a well-known pathogen of arthropods. The influence of six fungicides on growth, sporulation, conidial germination and cuticle-degrading enzyme production by L. muscarium was investigated under laboratory conditions. The maximum reduction in vegetative growth, sporulation and conidial germination in relation to the control treatment was observed for propiconazole, whereas mancozeb and chlorothalonil caused the lowest reduction in these parameters. Propiconazole and pyraclostrobin caused higher reduction in enzyme activities (chitinase, Pr1, Pr2 and lipase) at all three concentrations (10, 100 and 1000 µg/ml), whereas low reduction in enzyme activities was caused by chlorothalonil and mancozeb when used at 10 µg/ml. The data presented can be used for future recommendations of these fungicides in Integrated Pest Management (IPM) programmes where L. muscarium is an important control agent.     

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     

Mechanisms of biocontrol and plant growth-promoting activity in soil bacterial species of Bacillus and Pseudomonas: a review

Plant pathogens are responsible for many crop plant diseases, resulting in economic losses. The use of bacterial agents is an excellent option to fight against plant pathogens and an excellent alternative to the use of chemicals, which are offensive to the environment and to human health. Two of the most common biocontrol agents are members of the Bacillus and Pseudomonas genera. Both bacterial genera have important traits such as plant growth-promoting (PGP) properties. This review analyzes pioneering and recent works and the mechanisms used by Bacillus and Pseudomonas in their behaviour as biocontrol and PGP agents, discussing their mode of action by comparing the two genera. Undoubtedly, future integrated research strategies for biocontrol and PGP will require the help of known and novel species of both genera.     

Isolation and characterization of Bacillus subtilis KS1 for the biocontrol of grapevine fungal diseases

Bacillus subtilis KS1 was isolated from grape berry skin as a biological control agent against grapevine fungal diseases. KS1 was identified as a new strain of B. subtilis according to morphological, biochemical, and genetic analyses. In vitro bioassay demonstrated that KS1 suppressed the growth of Botrytis cinerea (the casual agent of grape grey mold) and Colletotrichum gloeosporioides (the casual agent of grape ripe rot). The biocontrol activity of KS1 against grapevine fungal diseases in vineyards was evaluated over a 3-year span (from 2007 to 2009). Downy mildew, caused by Plasmopara viticola, was reduced on berry skins and leaves by treatment with KS1. The KS1 genome possesses ituD and lpa-14 genes, both of which play a role in iturin A production followed by iturin A production in the culture. In contrast, mutants lacking both genes lost the antagonistic activity against B. cinerea and C. gloeosporioides and the activity in iturin A production, suggesting that the antagonistic activity of KS1 against grapevine fungal pathogens may depend on iturin A production. As KS1 showed tolerance to various chemical pesticides, chemical pesticides could be applied before and/or after KS1 treatment in vineyards. Due to its potential as a biological control agent against grape downy mildew, KS1 is expected to contribute to the further improvement of integrated pest management systems and to potentially reduce the amount of chemical fungicides applied in vineyards.