植物──病原物互作中的基因类型和功能

植物──病原物互作中的基因类型和功能何晨阳,王金生（南京农业大学植保系南京２１００１４）１植物－病原物互作中的基因对基因关系植物－病原物相互关系有亲和性互作和不亲和性互作二种类型。在亲和性互作中,病原物致病,植物感病;在不亲和互作中,病原物不致病（无...     

松树萎蔫的成因与控制策略

已报道的松树萎蔫枯死类型有多种,它们之间存在内在的联系,其发生及严重与否涉及多种生态因子,是立地环境、感病松树、媒介昆虫、病原线虫、病原微生物综合作用的结果,基于生态学的可持续有害生物管理应是防治松树萎蔫的有效途径。     

Toll样受体对临床常见侵袭性真菌识别作用的研究进展

近年来,由于免疫受损患者的增加,真菌病的发病率日益增高,一些严重的侵袭性真菌病如不及时诊治可迅速致死,如念珠菌病、烟曲霉病、马内菲青霉病、隐球菌病等。固有免疫是机体抗感染的第一道防线,机体抵抗入侵病原真菌的第一步就是通过病原识别受体（Pathogen Recognition Receptors,PRR）对其进行识别以启动固有免疫。TLRs（Toll-like receptors）是抗感染免疫中最重要的PRR之一。目前固有免疫在侵袭性真菌发病过程中的重要作用日益受到重视,TLRs作为固有免疫阶段的主要受体,了解其对侵袭性真菌的识别作用将有助于深入理解固有免疫在抗真菌感染免疫中的作用,对认识临床真菌病的发病机制具有重要意义。现将近几年研究情况综述如下。     

用毛样杆菌作为观测粘附和侵袭的体外模型

<正>Trzzer氏病是一种涉及许多家庭饲养的、实验室的以及野生动物种属的致死性肠肝疾病。有证据表明,这种疾病在人类亦可发生。该病的病原是毛样杆菌(Bacillus piliformis),这是一种唯一未被分类的大杆状有动力的细菌。毛样杆菌在常规培养基上还不能生长,但在胚卵或某些建立起来     

一种簇孢霉的初步研究

自陕西省安康县采到的栎尺蠖感病虫尸上分离到一株病原真菌,经室内生物学测定为簇孢霉属一新种——安康簇孢霉,其致死中量LD_(50)为3.1776×10~9孢子/mg虫体,用3亿孢子/ml悬液与5000倍敌百虫混合防治栎尺蠖,死亡率达83.1%。     

我国关于昆虫病原线虫分类的研究进展

我国关于昆虫病原线虫分类的研究进展图立红（首都师范大学生物学系１０００３７）昆虫病原线虫是目前国内外发展较快的一类生物杀虫剂,随着昆虫病原线虫学科的发展,对其资源的调查、开发和利用越来越受到重视。昆虫病原线虫,寄主范围广,寄生杀虫效果好,致死速度快,...     

受白粉菌诱导大麦抗感等基因系蛋白质变化的双向电泳分析

分别对接种与否的大麦抗—感白粉病等基因系—叶期幼苗取材进行蛋白质双向电泳分析。结果表明,病原的侵入使抗—感两系在30Kd以下的低分子量区域的蛋白质发生了明显变化。接种48小时之后,抗病系在pH5.5、6.0、6.8及8.8附近出现了对照中所没有的蛋白质,而在pH6.0和8.8附近的蛋白质则较对照有减小的趋势;感病系在pH6.0附近蛋白质明显增多,在pH8.8处不仅在量上有大幅度提高,而且种类也有增加。结果还表明,抗—感系间在未接种的情况下双向电泳图谱也有差异,接种之后由于感病系在pH8.8处蛋白质的特异性合成,使抗—感两系间的差异缩小。     

医药上的应用

疫苗 900745 用弱化的鳗弧菌株保护虹鳟免受弧菌病和疖病[英】/Norqvist, A. …∥ Environ. Microbiol. -1989,55(6).-1400～1405[译自DBA,1989,8(15),89-08914] 鱼的病原鳗弧菌(Vibrio anguillarum)可引起虹鳟(Salmo gairneri)的致死性感染。经对200个分离株的筛选,分离出3     

水稻普通矮缩病研究进展

水稻普通矮缩病（又称普矮病）,是由叶蝉传播的一类病毒性病害,近年来有扩散的趋势。该病在水稻上的发病症状表现为感病植株矮小、无效分蘖增多、根系发育不良、叶片僵直、不能抽穗,造成水稻减产和绝收,给粮食生产安全带来巨大威胁。主要就病原及其介体、病毒检测方法、基因工程及RNA干扰技术培育抗病性种质及品种筛选等方面对近年来水稻普通矮缩病相关研究进展进行阐述,为该病的深入研究特别是基因工程育种提供参考。     

植物病原微生物的电镜学研究及关键技术

正化学工业出版社出版本书是一部囊括电镜方法学、病原物形态结构、细胞病理学三位一体的研究技术专著,内容源自作者35年的研究工作成果。共分两部分:一为病原微生物的电镜观察,分析了感病细胞的结构及病理变化;二为阐述电镜制样技术的关键因素分析及策略,结合电镜方法学进行详细描述和解读。收     

松树蜂与其共生真菌的互利共生关系

松树蜂Sirex noctilio Fabricius是一种重要的国际林业检疫性害虫,主要危害针叶树,原产欧亚大陆和北非。近100多年来,先后入侵大洋洲(新西兰和澳大利亚)、南美洲(乌拉圭、阿根廷、巴西和智利)、北美洲(加拿大和美国),以及南非。2013年8月,在中国黑龙江省内首次发现松树蜂,目前发现其主要危害樟子松。松树蜂能与一种淀粉韧革菌属Amylostereum的真菌Amylostereum areolatum(Fr.)Boidin形成严格的互利共生关系,该虫除直接钻蛀树木外,还能通过产卵行为将自身毒素腺体分泌的毒素和体内共生真菌随同虫卵一起注入寄主树木体内,形成"虫-毒-菌"3个致害因子相互协作的特殊危害方式,加速树势的衰弱并造成寄主树木死亡。本文就国内外松树蜂与其共生菌互利共生关系的研究进行了综述,分别从结构与功能的层次上对其互利共生关系进行了梳理和总结,重点阐释了松树蜂与共生菌的营养共生关系,松树蜂携带传播共生菌的机制,共生菌的种群遗传学以及松树蜂毒素和共生菌在危害寄主树木时的协同关系等。以期为开展关于松树蜂的专项研究提供一些合理的建议,同时为积极有效地防控该害虫提供科学依据。     

粉棒束孢Isaria farinosa的研发进展

粉棒束孢Isaria farinosa是一种常见的昆虫病原真菌,已被用作一种生物因子防治温带农林害虫、植物病原和线虫。同时,粉棒束孢作为冬虫夏草中的定殖真菌,严重危害冬虫夏草菌Ophiocordyceps sinensis寄主蝙蝠蛾幼虫的饲养,引起了资源昆虫研究者的高度重视和控制。作为生防真菌,粉棒束孢资源的分布和筛选、分子鉴定和遗传多样性、培养、活性成分和药效、分子生物学、害虫生物防治、病害控制、安全性等是学术界的研究重点;作为冬虫夏草寄主昆虫病原菌,学界和产业界一直研究其感染特征、侵染机理和防霉剂筛选等,为这一真菌的高效安全控制提供基础。本文将综述粉棒束孢在利用和控制两大方面的研发进展。     

Formulation and application of the entomopathogenic fungus: Zoophthora radicans (Brefeld) Batko (Zygomycetes: Entomophthorales)

Aims: To isolate and formulate a native strain of Zoophthora radicans naturally infecting larvae of diamondback moth, Plutella xylostella, existing in South Australia and to provide evidence that formulation of the fungus is effective against P. xylostella larvae, and therefore, it could be used as a tool in pest management of this insect. Methods and Results: Dose–response bioassays using formulated and unformulated forms of the fungus strain were carried out against third instar larvae of P. xylostella. Results obtained have indicated a significant increase in the larval mortality when higher concentrations of a formulated form of the fungus strain were applied compared to the treatments with the unformulated form (85·0 vs 57·5% of larval mortality, respectively, at the top concentration of 10⁷ conidia/ml). The median lethal concentration (LC50) for a formulated form was 100 times less than that of the unformulated form when they were applied against the third instar larvae of P. xylostella. In addition, the formulation used in the present bioassays has preserved the viability of introduced fungus conidia for longer time in comparison with the unformulated conidia. Conclusions: The effective application of a formulated fungus strain against P. xylostella larvae constitutes the first step towards its use in pest management of this insect. Significance and Impact of the Study: The formulated fungus in inverted emulsion could be used as an alternative tool to insecticides in pest management of P. xylostella larvae because of the development of resistance to insecticides in the treated larvae.     

Recombinant immunosuppressive protein from Pimpla hypochondrica venom (rVPr1) increases the susceptibility of Mamestra brassicae larvae to the fungal biological control agent, Beauveria bassiana

Although fungi are used to control a variety of insect pests, it is accepted that their usage could be increased if their efficacy was greater. The outcome of the interaction of a fungus and a pest insect may be influenced by a number of criteria, including the ability of the insect to mount effective immune responses against the pathogen. In view of this, we aimed to determine if a recombinant immunosuppressive wasp venom protein (rVPr1) can increase the susceptibility of larvae of the lepidopteran pest, Mamestra brassicae, to the fungal biological control agent, Beauveria bassiana. Bioassays indicated that when larvae were injected with 3.5 μl of rVPr1 and 100 B. bassiana conidia (combined injection assays), a significant reduction in survival of larvae occurred compared with each treatment on its own (P=0.006). Similar results were obtained when larvae were dipped in a solution containing 3 × 10(6) B. bassiana conidia per ml and then injected with 3.5 μl of rVPr1 2 days later (topical application assays), (P<0.001). These results indicate that rVPr1 can increase the efficacy of B. bassiana toward a lepidopteran pest, and are discussed within the context of insect immune responses and integrated pest management.     

OBSERVATIONS ON THE LIFE CYCLE OF XYLEBORUS FORNICATUS EICHOFF IN ARTIFICIAL CULTURE

The scolytid beetle, Xyleborus fornicatus Eichoff, which is an important pest of the tea bush in Ceylon, has been reared from egg to adult for the first time in artificial culture with its ambrosial fungus Monacrosporium ambrosium. Deaths in culture were numerous, yet sufficient data on the periods occupied in the different stages were collected to afford an opportunity for testing conclusions derived by the use of less direct methods. Results indicate that temperature materially affects the length of the life cycle and mainly controls the altitudinal distribution of the pest in Ceylon.     

Honey bees can disseminate a microbial control agent to more than one inflorescence pest of oilseed rape

Pollen beetles (Meligethes aeneus) and cabbage seed weevils (Ceutorhynchus assimilis) are major pests of oilseed rape (Brassica napus) throughout Europe. In field cage experiments in both winter and spring rape, honey bees (Apis mellifera) effectively transported the entomopathogenic fungus Metarhizium anisopliae to the flowers, causing infection and mortality of both adult and larval pollen beetles, as well as of adult seed weevils. External conidiation was observed on many of the dead pest insects. Although some external conidiation also occurred on dead honey bees, reduction in honey bee colony size during the experiments appeared unrelated to the fungus. The potential of this technique for integration into pest management strategies for the crop, particularly in association with a trap crop, is discussed.     

Cotton pests and their natural enemies in Madagascar

An update on the cotton pest complex and its associated natural enemies in Madagascar is provided. Since the end of the 1970s, when the previous reports had been published, the population dynamics of the principal pests in Malagasy cotton have undergone considerable changes. The American bollworm Helicoverpa armigera Hübner (Lep., Noctuidae) is still a limiting factor for production and can be considered the key pest, whereas the Egyptian leaf worm Spodoptera littoralis Boisduval (Lep., Noctuidae) and the cotton aphid Aphis gossypii Glover (Hom., Aphididae) have become significant pests as a result of indiscriminate use of synthetic pyrethroids in the 1980s. New records of beneficials, in particular the discovery of the aphidopathogenic fungus Neozygites fresenii (Nowakowski) (Entomophthorales) in cotton aphid populations, are reported. Strategies to preserve predator populations in view of reducing disruptive insecticide treatments are discussed.     

Distribution of the entomopathogenic fungus Entomophaga maimaiga (Entomophthorales: Entomophthoraceae) at the northern edge of its range in Europe

The gypsy moth Lymantria dispar is a serious economic pest in European broadleaf forests. However, the entomopathogenic fungus Entomophaga maimaiga, which has a great potential to regulate gypsy moth numbers, has recently spread in the Central and Eastern European area of the moth's range. In the current study, 39 plots in oak forests in the Slovak Republic and the Czech Republic were monitored for E. maimaiga from 2014 to 2016. These plots were located along the northern edge of the E. maimaiga range where gypsy moth outbreaks have occurred in the past. The fungus was detected in 16 of the 39 plots. The results thus confirm that E. maimaiga is quite widespread along the northern edge of its range in Europe and can be considered to be established in that area.     

灌浆固堤时怎样寻找黑翅土白蚁的巢位

黑翅土白蚁Odontotermes formosanus(Shirki)是我国南方诸省土质水利工程的严重害虫,它的巢系结构破坏堤坝,常常酿成灾难.本研究说明巢位真菌指示物的生长条件,利用巢位指示物进行灌浆加固堤坝,取得非常理想的效果.     

Impact of natural epizootics of the fungal pathogen Neozygites floridana (Zygomycetes: Entomophthorales) on population dynamics of Tetranychus evansi (Acari: Tetranychidae) in tomato and nightshade

The tomato red spider mite, Tetranychus evansi (Acari: Tetranychidae) was recently introduced in Africa and Europe, where there is an increasing interest in using natural enemies to control this pest on solanaceous crops. Two promising candidates for the control of T. evansi were identified in South America, the fungal pathogen, Neozygites floridana and the predatory mite Phytoseiulus longipes. In this study, population dynamics of T. evansi and its natural enemies together with the influence of environmental conditions on these organisms were evaluated during four crop cycles in the field and in a protected environment on nightshade and tomato plants with and without application of chemical pesticides. N. floridana was the only natural enemy found associated with T. evansi in the four crop cycles under protected environment but only in the last crop cycle in the field. In the treatments where the fungus appeared, reduction of mite populations was drastic. N. floridana appeared in tomato plants even when the population density of T. evansi was relatively low (less than 10 mites/3.14 cm² of leaf area) and even at this low population density, the fungus maintained infection rates greater than 50%. The application of pesticides directly affected the fungus by delaying epizootic initiation and contributing to lower infection rates than unsprayed treatments. Rainfalls did not have an apparent impact on mite populations. These results indicate that the pathogenic fungus, N. floridana can play a significant role in the population dynamics of T. evansi, especially under protected environment, and has the potential to control this pest in classical biological control programs.