虫生真菌分子致病机理及基因工程改造研究进展

虫生真菌侵染寄主昆虫的复杂过程可分为体表附着、体壁穿透及体内定殖和致死等不同阶段.近年来,以金龟子绿僵茵(Metarhizium anisopliae)和球孢白僵菌(Beauveria bassiana)为代表的基因功能研究取得了长足的进展,从不同角度阐明了虫生真菌的分子致病机理;同时,基因工程技术的应用为昆虫病原真菌的遗传改良和选育高毒力杀虫菌株开辟了新的途径.对近年来昆虫病原真菌侵染寄主的分子对策及基因工程改造的研究进展进行了综述,并就进一步研究虫生真菌的毒力基因及功能进行了探讨.     

绿僵菌属的新记录种

<正> 金龟子绿僵菌Metarhizium aunisopliae(Metschn.)Sorokin中的金龟子绿僵菌原变种Metarhizium anntsopliae var.anisopliae寄生范围较广,是一个世界性分布的昆虫病原真菌。而金龟子绿僵菌大孢变种Metarhizium anisopliae var.major.却较稀有。自从Trioderichs(1930)以后的许多工作者都曾报道此菌的主要寄主是独角仙Oryctes。尔后仅仅在Herb IMI收到一个来自蝉的标本(Tulloch 1976)。我们1985年首次从罹病蝉上分离到一个绿僵菌大孢变种。     

关于绿僵菌的异名

绿僵菌(Metarizium anisopliae)是一种昆虫病原真菌,用于防治蛴螬等害虫很有效。国内已开始研究。此菌异名很多。据查,此菌最初由Metchnikoff从奥地利金龟子(Anisoplia austriaca)死虫体上分离到,1879年由他命名为金龟子虫霉     

虫生真菌分子致病机理及基因工程改造研究进展

虫生真菌侵染寄主昆虫的复杂过程可分为体表附着、体壁穿透及体内定殖和致死等不同阶段。近年来, 以金龟子绿僵菌(Metarhizium anisopliae)和球孢白僵菌(Beauveria bassiana)为代表的基因功能研究取得了长足的进展, 从不同角度阐明了虫生真菌的分子致病机理; 同时, 基因工程技术的应用为昆虫病原真菌的遗传改良和选育高毒力杀虫菌株开辟了新的途径。对近年来昆虫病原真菌侵染寄主的分子对策及基因工程改造的研究进展进行了综述, 并就进一步研究虫生真菌的毒力基因及功能进行了探讨。     

金龟子绿僵菌菌株生长环境变量的优化

金龟子绿僵菌(Metarhizium anisopliae var.anisopliae)是一种广谱的昆虫病原真菌,提高菌株的生长速率及产孢量具有重要的意义.分别对2株金龟子绿僵菌菌株MA4与MAlml的菌丝生长及次代产孢具有影响的培养温度、培养基初始pH、装液比、光照及微量元素等环境因素进行了测定.经过优化得到2菌株最佳培养条件分别为:MA4菌株在28℃、pH 7、装液比为75ml/250ml、加入微量元素Mn全光照培养时生长最好、次代产孢量最高;MAlml菌株在28℃、pH9、装液比为75ml/250ml、加入微量元素Cu、黑暗培养时生长最好、次代产孢量最高.     

广西红树林的病原真菌及其生态学特点

报道了广西沿海的山口、钦州、北仑河口 3个主要红树林分布区的病原真菌及其生态学特点 :共鉴定红树林病原真菌 1 4属 2 6个种 (菌株 ) ,其中主要是炭疽菌、拟盘多毛孢菌、交链孢菌和叶点霉菌。 3个分布区红树林病原真菌的物种丰富度指数 DMA在 2 .82 65～ 4 .70 0 4之间 ,多样性指数 H'为 0 .971 8～ 1 .2 768,均匀度指数JSW为 0 .90 0 5～ 0 .91 58;其中山口病原真菌的种数 ( 1 2 )最少 ,物种丰富度指数 ( 2 .82 65)和物种多样性指数( 0 .971 8)最小。红树林病原真菌分布的主要特点是 :高潮地带的较低潮地带的为多 ,尤以河口最多。侵染寄主的部位主要集中在树冠上部 ,叶斑病最常见 ,枝梢病害次之 ,根茎部的病害很少。桐花和海漆的病害种类最多 ,红海榄和老鼠筋最少。     

云南重楼植物内生真菌的分离及抗菌活性筛选

从云南重楼[Paris polyphylla Smithvar.yunnnanensis(Franch.)Hand.Mazz.]块状茎中分离出166株内生真菌,对其进行形态分类鉴定归于4目,6科,20个属,体现了云南重楼植物内生真菌的生物多样性特征。同时,选择与人类和植物相关的37株病原微生物作为抗菌活性筛选指示菌,进行了云南重楼植物内生真菌抗菌活性的初步研究。结果表明,4株内生真菌对细菌、植物致病真菌、皮肤致病真菌多种病原微生物具有显著抑制生长的作用。     

内生真菌对草坪植物病原真菌抑制作用的比较

分别从野生牧草羽茅(Achnatherum sibiricum (L.) Keng)、栽培种高羊茅(Festuca arundinacea Schreb.)(品种Millennium)、栽培种黑麦草(Lolium perenne L.) (品种Justus)中分离出内生真菌Neotyphodium sp.、N. coenophialum和N. lolli,通过体外培养法比较了这3种内生真菌对草坪植物病原真菌的抑制作用.结果表明,从羽茅中分离的内生真菌Neotyphodium sp.在两菌相交前对所有供试的病原真菌都有一定的抑制作用,其中对枝孢霉属(Cladosporium sp.)、弯孢霉属(Curvularia sp.)和拟茎点属(Phomopsis sp.)病原真菌的抑制效果尤为显著,对峙培养3d后的抑菌率分别达70.1%、52.3%和30.9%,营养竞争作用、重寄生作用是其主要的拮抗机制;从高羊茅中分离的内生真菌N. coenophialum对枝孢霉属病原真菌存在一定的抑制作用;而从黑麦草中分离的内生真菌N. lolli与病原真菌对峙培养时,病原真菌菌落慢慢侵占整个营养空间,内生真菌停止生长并逐渐褐变死亡.体外培养结果说明Neotyphodium sp.对供试病原真菌的拮抗效果优于N. coenophialum和N. lolli,由此推测Neotyphodium sp.与宿主植物羽茅的共生可能有利于宿主植物抵抗病原真菌的侵扰.     

Virulence of Metarhizium flavoviride 82 to different developmental stages of the brown planthopper, Nilaparvata lugens (Hemiptera:Delphacidae)

对水稻重要害虫褐飞虱Nilaparvata lugens目前市场上尚无一种理想的微生物杀虫剂.昆虫病原真菌具有从体壁侵入的能力因而对刺吸性害虫的防治具有优势.为此,本研究选用不同原寄主和来源地的3种昆虫病原真菌(金龟子绿僵菌Metarhizium anisopliae、黄绿绿僵菌Metarhizium flavoviride和球孢白僵菌Beauveria bassiana)的12个不同菌株,以1 100孢子/mm2孢子悬浮液进行室内毒力测定.结果表明:在参试的不同菌种12个菌株中,黄绿绿僵菌Mf82菌株对褐飞虱成虫致病力最高,10 d累计校正死亡率为83.5％,致死中时(LT50)为4.6d.其不同浓度孢子液对褐飞虱3个发育阶段有不同程度的致病力,毒力大小顺序为成虫＞高龄若虫＞低龄若虫.黄绿绿僵菌孢子液对各处理稻株褐飞虱产卵痕部位、卵粒均有侵染作用,10d侵染率分别为66.7％和51.2％,卵龄越低,侵染效果越好,卵龄为0.5d时侵染率最高.本研究表明黄绿绿僵菌Mf82菌株对褐飞虱成虫、若虫和卵均有较强的致病性,是一株极具应用潜力的生防真菌.     

墨西哥仙人掌植物内生真菌的研究Ⅰ.内生真菌分离及其抗菌活性筛选

从一种墨西哥仙人掌[Opuntiamicrodasys(Lehm .)Pfeiff]的肉质茎中分离获得31株内生真菌,经形态观察分类鉴定为3个目、3个科、14个属。同时选择2 2种病原微生物作为指示菌进行抑菌试验,研究其抗菌活性。结果表明:3株仙人掌内生真菌分别对细菌、植物病原真菌和皮肤致病真菌多种病原微生物有较为明显的抑制生长作用。     

黄绿绿僵菌对褐飞虱和白背飞虱不同发育阶段的病原性的研究

本文报道了不同孢子浓度下黄绿绿僵菌对褐飞虱和白背飞虱不同发育阶段的易感性和毒力的研究。实验设10.5孢子/mm2,116.7孢子/mm2和1027.1孢子/mm2三种孢子剂量,两种飞虱分为幼龄若虫(1龄和2龄若虫)、高龄若虫(3、4、5龄若虫)和成虫三个发育阶段。实验发现褐飞虱与白背飞虱的三个发育阶段对黄绿绿僵菌的不同浓度的孢子液有不同程度的易感性。黄绿绿僵菌对褐飞虱幼龄若虫的毒力指标LT50在三种孢子剂量下依次为>21、20.82和16.55;对高龄若虫的LT50在三种孢子剂量下依次为17.68、15.49和13.98;而对成虫的LT50在三种孢子剂量下依次为17.10、12.57和9.14。黄绿绿僵菌对白背飞虱幼龄若虫的毒力指标LT50在三种孢子剂量下依次为>21、17.29和13.13;对高龄若虫的LT50在三种孢子剂量下依次为16.94、15.02和13.03;而对白背飞虱成虫的LT50在三种孢子剂量下依次为12.78、10.16和7.64。二者的成虫的易感性比若虫的易感性强,高龄若虫的易感性比幼龄若虫的强。白背飞虱比褐飞虱对黄绿绿僵菌更加敏感。二者的死亡率随孢子浓度的增大而增大。     

PATHOGENICITY OF METARHIZIUM ANISOPLIAE VAR. ACRIDU TO THE DEVEOLPMENTAL STAGES OF BROWN PLANTHOPPER NILAPARVATA LUGENS STÅL AND SOGATELLA FURCIFERA (HORVATH)

Abstract  The susceptibility and virulence of entomopathogenic fungus Metarhizium anisopliae var. acridum to the stages of brown planthopper (BPH), Nilaparvata lugens (Stål) and whitebacked planthopper (WBPH), Sogatella furcifera (Horvath) were investigated under laboratory conditions. Three dosages of M. anisopliae var. acridum ranging from 10.5, 116.3 and 1027.1 conidial/mm² were used in the experiment. The tested stages of host included three developmental stages, young nymphs (1–2 instars), old nymphs (3–5 instars) and adults. It was found that all tested stages of the planthoppers were susceptible to the fungal infection. The degree of virulence LT₅₀ of M. anisopliae var. acridum against young nymphs of N. lugens are >21, 20.82 and 16.55, respectively with the 3 dosages, the LT₅₀ of the fungus against the old nymphs are 17.68, 15.49 and 13.98, respectively with the 3 dosages; the LT₅₀ of the fungus against the adults are 17.10, 12.57 and 9.14 respectively with the 3 dosages. The degree of virulence LT₅₀ of M. anisopliae var. acridum on young nymphs of S. furcifera are >21, 17.29 and 13.13, respectively with the 3 dosages _; the LT₅₀ of the fungus against the old nymphs are 16.94, 15.02 and 13.03, respectively with the 3 dosages; the LT₅₀ of the fungus against the adults are 12.78, 10.16 and 7.64, respectively with the 3 dosages. Adults were more susceptible to M. anisopliae var. acridum infection than their nymphs and the young nymphs were most resistant to the fungal infection. The cumulative mortality of each stage was dosage-dependent. Of all the developmental stages, WBPH was more susceptible than BPH to M. anisopliae var. acridum infection with the same dosages.     

Selection of a Highly Virulent Fungal Isolate,Metarhizium anisopliae Ma TB 101, for Control of Taro Beetle,Papuana uninodis (Coleoptera: Scarabaeidae)

Fungal isolates (31 Metarhizium anisopliae var. anisopliae , five M. anisopliae var majus , three Beauveria bassiana and four B. brongniartii ) originating from a wide range of geographical locations, insect species and soil types were tested against Papuana uninodis (Coleoptera: Scarabaeidae). In a first test series, spores were applied topically to third-instar larvae and adults. The most effective strain against P. uninodis larvae and adults was Ma TB 101, a M. anisopliae isolate from adult P. woodlarkiana . For adults, strain Ma FI 384, a M. anisopliae from Popillia japonica , was almost equally effective. The 11 most effective isolates (nine M. anisopliae var. anisopliae , one B. brongniartii and one B. bassiana ) with LT values of less than 6 weeks in 50 adults and/or less than 4 weeks in larvae were tested for their efficacy against adults and larvae of P. uninodis by application of spores to soil (107 spores/g). Ma TB 101 was significantly more effective against both adults and larvae (LT ca. 10 days) than all other isolates (LT > 50 50 3 weeks). Two other M. anisopliae strains, Ma F 248 from soil and Ma FI 384 from P.japonica , were more effective than most isolates in adults. The latter three M. anisopliae isolates were tested in a concentration series against third-instar larvae and adults. Mortality was concentration related. Isolates Ma F 248 and Ma FI 384 did not achieve 50% mortality within the test period at concentrations lower than 107 spores/g of soil or feed. For concentrations of Ma TB 101 from 1 107 to 2 105 spores/g the LT ranged from 13 to 30 days in adults and 12 to 24 50 days in third-instar larvae. Accordingly, concentrations causing 50% mortality (LC ) for Ma 50 TB 101 were significantly lower than for the two other M. anisopliae isolates tested.     

Development of a simple and rapid Agrobacterium tumefaciens-mediated transformation system for the entomopathogenic fungus Metarhizium anisopliae var. acridum

AIMS: To examine the ability of Agrobacterium to attach to Metarhizium anisopliae var. acridum strain CG423 under co-cultivation and to develop an Agrobacterium-mediated method of gene delivery into strain CG423, a promising agent for biological control of grasshoppers. METHODS AND RESULTS: The co-cultivation of Agrobacterium tumefaciens and M. anisopliae var. acridum was analysed under scanning electron microscopy. We observed that Agrobacterium attached to and formed aggregates around Metarhizium conidia and germ tubes. We also observed the occurrence of fibril-like structures connecting neighbouring bacterial-fungal cells. The Agrobacterium-mediated transformation was applied using two binary vectors carrying a benomyl resistance gene as a selection marker. The efficiency of transformation was up to 53 transformants per 10(5) target conidia. High mitotic stability of the transformants (89-97%) was demonstrated after five successive transfers on non-selective media. Molecular analysis revealed the occurrence of high frequency of gene conversion. CONCLUSIONS: In our study, we report that A. tumefaciens strain AGL-1 attaches to and genetically transforms the entomopathogenic fungus Metarhizium anisopliae var. acridum. SIGNIFICANCE AND IMPACT OF THE STUDY: We report for the first time, the attachment of Agrobacterium to fungal cells opening new avenues for the study of this essential step of the T-DNA transfer process. Considering the efficiency of the transformation protocol herein described, this is a useful tool for gene disruption in M. anisopliae var. acridum.     

绿僵菌大孢变种的生物学特征及其对蛴螬的毒力研究

以报道较多的蛴螬病原真菌 布氏白僵菌、绿僵菌小孢变种作参照菌,系统研究了新分离鉴定的绿僵菌大孢变种的生物学特性,测定了其在偏低的自然气温下对蛴螬的致病能力.结果表明,绿僵菌大孢变种与参照菌的培养要求接近,最适宜的温度为25 ℃.3种供试的培养基中,PPDA为最适宜的培养基,其次为SDAY.在偏低的温度环境下绿僵菌大孢变种对蛴螬的毒杀能力强于布氏白僵菌,土壤和喷雾处理后累计僵虫率分别达88.23%和76.47%,有很好的田间应用前景.     

Trehalose and trehalose-hydrolyzing enzyme in the haemolymph of Locusta migratoria infected with Metarhizium anisopliae strain CQMa102

Topical application of the Metarhizium anisopliae var. acridum specialist strain CQMa 102 to the locust Locusta migratoria manilensis results in changes of the concentrations of trehalose and glucose in the haemolymph. Micrographs of the locust haemolymph shows Metarhizium anisopliae can effectivly penetrate the external skeleton of locust and after 2 days infection, the hyphae body will appear in the haemolymph of infected insects. The time in decrease of trehalose concentration coincided with that in increase of trehalose-hydrolysing enzyme activity in the haemolymph of the fungus-infected insects. Overlay gel analysis indicated there was considerably more trehalose-hydrolysing activity in the haemolymph of locusts infected by fungus than in controls. A comparable isoform was identified in in vitro culture of the fungus, suggesting a fungal origin for the in vivo enzyme. Haemolymph trehalose decreased significantly during mycosis of locusts by M. anisopliae. All these results suggested that this fungus may take advantage of competing nutrient utilization against the insect by its trehalose-hydrolyzing enzyme secretion. It may provide fundamental knowledge for fungal pathogenesis.     

Stage‐dependent synergism using Metarhizium anisopliae and Serratia entomophila against Costelytra zealandica

Larvae of the New Zealand grass grub (Costelytra zealandica) were treated with the entomopathogenic fungus, Metarhizium anisopliae, and the bacterium, Serratia entomophila, singly and in combination. The mortality of second instar larvae up to 41 days in treatments with both pathogens together was significantly greater than the additive mortalities of single pathogen treatments, and therefore synergistic. Treatment of third instar larvae with both pathogens did not increase mortality compared with the fungus alone. Second instar larvae were more resistant to M. anisopliae than third instar larvae. S. entomophila causes a chronic disease and bacterial treatments alone resulted in disease, but little mortality for either instar within 5 weeks. In both fungus alone and fungus/bacteria treatments, less than half the cadavers supported fungal sporulation. The use of a dual pathogen system for control of grass grub larvae is discussed.     

Studies on the regeneration-restore and karyotype of protoplast in Metarhizium anisopliae var. majus

Abstract:  The characteristics and regeneration-restore of protoplasts and its karyotype of an insect pathological fungus, Metarhizium anisopliae var. majus were studied. Among the protoplasts, 25.3% were without a nucleus, and 74.7% contained a nucleus. Among the nucleus protoplasts, 53.6% contained a single nucleus. The regeneration-restore of protoplasts was of three distinct shapes. Considering the frequency of regeneration and the growing speed of the colony, 0.7 mol/l glucose was the optimum as osmotic stabilizer of culture medium in the regeneration-restore of the protoplasts. The chromosomal DNA molecules of M. anisopliae var. majus have been separated into seven bands by pulsed-field gel electrophoreses. Using the Schizosaccharomyces pombe chromosomes as size standard, the size of chromosomal DNA was estimated to be 1.1–6.5 Mb and its karyotype exhibited polytypism among strains.     

Selection of entomopathogenic fungi for the control of the western corn rootworm Diabrotica virgifera virgifera

Abstract:  The western corn rootworm Diabrotica virgifera virgifera Le Conte (Col., Chrysomelidae), a serious pest of maize, has been recently introduced into Europe. Several approaches for its control are presently under investigation including microbial agents. During a field survey in Hungary in 2005, naturally occurring entomopathogenic fungi were found to attack this pest. These novel isolates together with standard isolates were tested for virulence against D. v. virgifera larvae and adults. Twenty strains of Metarhizium anisopliae , Beauveria bassiana and Beauveria brongniartii were used in bioassays in the laboratory. Larvae and adults were dipped into a spore suspension with a concentration of 1 × 10⁷ conidia (con.)/ml. They were kept for 14 days at 22°C (±2°C) and 70% relative humidity. The number of infected larvae and adults were counted and infection rates were calculated. Adults were significantly more susceptible to entomopathogenic fungi than larvae. The most virulent isolate infected about 47% of larvae ( M. anisopliae Ma2277), whereas the infection rate in adults was up to 97% ( M. anisopliae Ma2275). Isolates of M. anisopliae caused significantly higher mortalities than isolates of B. brongniartii and B. bassiana . Most of the adult beetles were killed within 12 days. Isolates from D. v. virgifera were more virulent than those from other hosts.