七种我国昆虫病原线虫共生菌的分离与鉴定

昆虫病原线虫共生菌是一类具有广阔发展前景的生物防治资源, 由于这类菌的分类鉴定工作起步晚, 存在分类混乱和不系统的现象, 在本土资源十分丰富的我国尤为突出。本文对本实验室分离的7个共生菌菌株进行了分类描述, 建立了以生理形态, 生化特征为分类基础, 结合16S rDNA序列分析的有效鉴定方法。     

昆虫病原线虫共生细菌的分子生物学鉴定

对来自全国各地的23个未鉴定的共生菌菌株和本室保存的5个菌株的部分16S rDNA序列进行PCR扩增和测序,与GenBank中已知种的共生菌及4个其它肠杆菌的同源序列比较,利用DNAstar软件绘制系统树,初步确定了这28个共生菌的分类地位。其中品系0396Y与Xenorhabdus bovineii的相似值为100%,可能是该种的一个品系;品系0312-4与X.beddingii的相似值为100%,可能是该种的一个品系。     

昆虫病原线虫共生菌杀虫蛋白的研究进展

昆虫病原线虫共生菌杀虫蛋白对许多农业害虫都有很明显的毒杀作用,作为一种新型的具有开发潜力和应用前景的生物防治资源,已经引起科学家们的关注并成为国内外研究的热点之一.综述了昆虫病原线虫共生菌杀虫蛋白基因的结构和功能及其杀虫机制方面的研究进展.     

昆虫病原线虫共生菌Tc毒素研究进展

来自昆虫病原线虫共生菌的Tc毒素是一类多亚基组成的高分子蛋白复合物,对多种农业害虫具有广谱的胃毒活性,这类毒素与目前已知的其它杀虫蛋白同源性非常低,有可能成为新的杀虫资源。本文对来自昆虫病原线虫共生菌的Tc毒素的特性、作用模式等方面的国内外研究进展进行了综述。     

不同昆虫寄主对昆虫病原线虫共生菌的敏感性比较

用菜青虫、棉铃虫、甜菜夜蛾、玉米螟、粘虫、黄粉虫等 6种昆虫对 1 0株昆虫病原线虫共生菌进行了敏感性测定。结果表明 :供试菌株对 6种昆虫都有胃毒活性 ,不同菌株对同一种昆虫的毒力差别较大 ,同一菌株对不同昆虫差别也很大。 1 0株菌在 1 2 0h对菜青虫的校正死亡率和体重抑制率均最高 ,显然是最敏感的寄主。在 1 0株共生菌中 ,XenorhabdusnematophilaHB3 1 0 5 9菌株的胃毒活性最高。     

昆虫病原线虫共生菌杀虫毒素研究进展

对昆虫病原线虫共生菌杀虫毒素的种类、与口服毒性有关的杀虫毒素以及口服毒性与杀虫毒素基因的关系等研究进展进行了综述,并对未来的研究方向提出了作者的见解。     

昆虫病原线虫资源概况和分类技术进展

昆虫病原线虫是具有重要潜在应用价值的害虫生物防治资源,主要包括斯氏线虫科（Steinernematidae）的斯氏线虫属Steinernema与新斯氏线虫属Neosteinernema线虫和异小杆线虫科（Heterorhabditidae）的异小杆线虫属Heterorhabditis线虫。近10年来,分子生物学方法与传统的形态学方法相结合应用到线虫的鉴定与分类,昆虫病原线虫的分类进入稳定与发展时期,越来越多的新种或品系被发现及应用于生物防治。目前已描述的昆虫病原线虫种类达65种,其中斯氏线虫属52种,新斯氏线虫属1种,异小杆线虫属12种。本文整理列出了迄今报道的昆虫病原线虫种类及其来源,并综述了昆虫病原线虫分类现状以及鉴定与分类方法上的研究进展,重点阐述了分子生物学技术在昆虫病原线虫鉴定与分类的应用状况。     

昆虫病原线虫的共生细菌

昆虫病原线虫与其共生细菌二者互惠共生 :共生细菌需要昆虫病原线虫作为载体以寄生寄主昆虫并做为自己的营养来源 ,而昆虫病原线则需要依靠共生细菌来杀死昆虫。综述了共生细菌的病原作用、抗菌作用与杀虫作用 ,评述了共生细菌的基因工程进展 ,讨论了昆虫共生细菌在昆虫病原线虫致病性的作用。     

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,...     

嗜线虫致病杆菌抑制灰葡萄孢的效应

[背景] 灰葡萄孢（Botrytis cinerea）是引起葡萄采后病害的主要病原菌之一,严重影响葡萄的贮期和品质,给葡萄产业带来极大损失。利用拮抗微生物抑制采后病原菌生长已逐渐成为防治葡萄采后灰霉病的重要手段。[目的] 利用昆虫病原线虫共生细菌广谱高效的抑菌特性,从现有共生细菌资源中筛选对灰葡萄孢具有高拮抗作用的菌株,为葡萄采后灰霉病的抑制提供新的材料和研究方向。[方法] 通过平板对峙培养法和菌丝生长速率法分离筛选拮抗共生细菌,并对优选的高效拮抗共生细菌进行16S rRNA基因序列进化分析,采用扫描电镜观察其对灰葡萄孢菌丝生长的影响,利用损伤接种法对红地球葡萄防治效果进行验证。[结果] 初步分离筛选共获得9株拮抗菌,复筛与复测得到一株抑菌效果显著的共生细菌（命名为ALL）,经进化分析其为嗜线虫致病杆菌（Xenorhabdus nematophila）,其16S rRNA基因序列的Genbank登录号为MW488402,与菌株Xenorhabdus nematophi la NC116聚于同一分支,相似性达99.79%。扫描电镜观察该菌株导致灰葡萄孢菌丝扭曲变形、表面皱缩、失水塌陷,该菌株发酵（36 h）上清液浓度为1%时对灰葡萄孢菌丝抑制率达44.5%。在葡萄常温防效实验中,与对照组比较,ALL菌株发酵上清液对灰霉菌防治效果较好,3 d后防效为63.50%。[结论] 本研究应用昆虫病原线虫共生细菌生物防治葡萄贮期灰霉病,筛选出一株高效拮抗灰葡萄孢的昆虫病原线虫共生细菌,而且其上清液对灰葡萄孢具有良好的抑制效果,为生物防治贮期葡萄灰霉病提供了新的生物材料和相关研究基础。     

昆虫病原线虫与其共生细菌共生关系的研究进展

昆虫病原斯氏和异小杆线虫与共生细菌的共生关系是这类线虫作为害虫生物防治因子的基础。从线虫共生细菌的信息、营养、抗菌和病原作用,以及线虫对共生细菌的保护和媒介作用综述昆虫病原线虫与其共生细菌的共生关系;描述这一共生关系的影响因子;同时,讨论了未来的研究方向和应用前景。     

Foraging Ants as Scavengers on Entomopathogenic Nematode-Killed Insects

Ants were the most apparent invertebrate scavengers observed foraging on entomopathogenic nematode-killed insects (i.e., insect cadavers containing entomopathogenic nematodes and their symbiotic bacteria) in the present study. Workers of the Argentine ant,Linepithema humile(Mayr), scavenged nematode-killed insects on the surface and those buried 2 cm below the soil surface. Ant workers scavenged significantly more steinernematid-killed (60–85%) than heterorhabditid-killed (10–20%) insects. More 4-day-postinfected cadavers (hosts died within 48 h after exposure to nematodes) were scavenged than 10-day-postinfected cadavers. Ten-day-postinfected hosts contained live infective juvenile nematodes therefore ants may serve as phoretic agents. Other ant species, includingVeromessor andrei(Mayr),Pheidole vistanaForel,Formica pacificaFrancoeur, andMonomoriom ergatogynaWheeler, also scavenged nematode-killed insects. These ant species removed or destroyed about 45% of the steinernematid-killed insects. These results suggest that survival of steinernematid nematodes may be more significantly impacted by invertebrate scavengers, especially ants, than that of heterorhabditid nematodes, and placement of steinernematid-killed insects in the field for biological control may be an ineffective release strategy. Because entomopathogenic nematodes kill insects with the help of symbiotic bacteria, we tested the role of these bacterial species in deterring invertebrate scavengers by injecting bacteria (without nematodes) into insects and placing the cadavers in the field. None of the insects killed by the symbiotic bacterium,Photorhabdus luminescens(Thomas and Poinar) fromHeterorhabditis bacteriophoraPoinar, were scavanged, whereas 70% of the insects killed by the symbiotic bacterium,Xenorhabdus nematophilus(Poinar and Thomas) fromSteinernema carpocapsae(Weiser), and 90% of the insects killed byBacillus thuringiensisBerliner were scavenged by the Argentine ant. We conclude thatP. luminescensis responsible for preventing ants from foraging on heterorhabditid-killed hosts.     

The symbiotic bacteria Alcaligenes faecalis of the entomopathogenic nematodes Oscheius spp. exhibit potential biocontrol of plant- and entomopathogenic fungi

Soil-dwelling entomopathogenic nematodes (EPNs) kill arthropod hosts by injecting their symbiotic bacteria into the host hemolymph and feed on the bacteria and the tissue of the dying host for several generations cycles until the arthropod cadaver is completely depleted. The EPN–bacteria–arthropod cadaver complex represents a rich energy source for the surrounding opportunistic soil fungal biota and other competitors. We hypothesized that EPNs need to protect their food source until depletion and that the EPN symbiotic bacteria produce volatile and non-volatile exudations that deter different soil fungal groups in the soil. We isolated the symbiotic bacteria species (Alcaligenes faecalis) from the EPN Oscheius spp. and ran infectivity bioassays against entomopathogenic fungi (EPF) as well as against plant pathogenic fungi (PPF). We found that both volatile and non-volatile symbiotic bacterial exudations had negative effects on both EPF and PPF. Such deterrent function on functionally different fungal strains suggests a common mode of action of A. faecalis bacterial exudates, which has the potential to influence the structure of soil microbial communities, and could be integrated into pest management programs for increasing crop protection against fungal pathogens.     

昆虫病原线虫感染期幼虫恢复发育的研究进展

昆虫病原线虫的感染期幼虫（infective juvenile,IJ）是其一生中唯一具有侵染能力和可自由生活于寄主体外的虫态,一般滞育不取食,体外包裹着已经蜕去的第2龄幼虫的表皮,对外界不良环境的耐受能力强,又称为耐受态幼虫(dauer juvenile,DJ),类似于秀丽隐杆线虫Caenorhabditis elegans的耐受态幼虫。在食物信息的诱导下,感染期幼虫脱鞘,释放出共生细菌,恢复取食并继续发育,这个过程称为感染期幼虫的恢复（IJ recovery）。这个过程是发生在寄生性线虫入侵寄主时的发育过程,对于成功寄生是必要的,在线虫的产业化培养中发挥着重要作用,感染期线虫的恢复率及其发育的同步性直接影响了线虫的产量。本文概述了感染期线虫的恢复发育过程,并对诱导感染期线虫恢复发育的食物信号（food signals）、恢复的影响因素及其检测手段进行了综述,同时讨论了未来的研究方向。     

The first record of entomopathogenic nematodes (Rhabiditiae: Steinernematidae and Heterorhabditidae) in natural ecosystems in Lebanon: A biogeographic approach in the Mediterranean region

A survey of entomopathogenic nematodes in Lebanon was conducted for the first time during 2008-2009. Samples were collected on the coastal strip and in nine vegetation types extending from the coastal line to 3088 m above sea level. Wooded and herbaceous ecosystems were considered for sampling purposes. A total of 570 samples were taken, out of which 1% were positive for entomopathogenic nematodes. Approximately, 15.8% out of the 19 sites sampled revealed entomopathogenic nematodes presence (representing three samples). Two entomopathogenic nematodes species Heterorhabditis bacteriophora and Steinernema feltiae were recovered, and identification of their symbiotic bacteria revealed the presence of a Xenorhabdus bovienii, Photorhabdus temperata subsp. thracensis, Photorhabdus luminescens subsp. kayaii and Photorhabdus luminescens subsp. Laumondii.     

PCR-Ribotyping of Xenorhabdus and Photorhabdus Isolates from the Caribbean Region in Relation to the Taxonomy and Geographic Distribution of Their Nematode Hosts

The genetic diversity of symbiotic Xenorhabdus and Photorhabdus bacteria associated with entomopathogenic nematodes was examined by a restriction fragment length polymorphism analysis of PCR-amplified 16S rRNA genes (rDNAs). A total of 117 strains were studied, most of which were isolated from the Caribbean basin after an exhaustive soil sampling. The collection consisted of 77 isolates recovered from entomopathogenic nematodes in 14 Caribbean islands and of 40 reference strains belonging to Xenorhabdus and Photorhabdus spp. collected at various localities worldwide. Thirty distinctive 16S rDNA genotypes were identified, and cluster analysis was used to distinguish the genus Xenorhabdus from the genus Photorhabdus. The genus Xenorhabdus appears more diverse than the genus Photorhabdus, and for both genera the bacterial genotype diversity is in congruence with the host-nematode taxonomy. The occurrence of symbiotic bacterial genotypes was related to the ecological distribution of host nematodes.