Agrobacterium-mediated disruption of a nonribosomal peptide synthetase gene in the invertebrate pathogen Metarhizium anisopliae reveals a peptide spore factor

Numerous secondary metabolites have been isolated from the insect pathogenic fungus Metarhizium anisopliae, but the roles of these compounds as virulence factors in disease development are poorly understood. We targeted for disruption by Agrobacterium tumefaciens-mediated transformation a putative nonribosomal peptide synthetase (NPS) gene, MaNPS1. Four of six gene disruption mutants identified were examined further. Chemical analyses showed the presence of serinocyclins, cyclic heptapeptides, in the extracts of conidia of control strains, whereas the compounds were undetectable in DeltaManps1 mutants treated identically or in other developmental stages, suggesting that MaNPS1 encodes a serinocyclin synthetase. Production of the cyclic depsipeptide destruxins, M. anisopliae metabolites also predicted to be synthesized by an NPS, was similar in DeltaManps1 mutant and control strains, indicating that MaNPS1 does not contribute to destruxin biosynthesis. Surprisingly, a MaNPS1 fragment detected DNA polymorphisms that correlated with relative destruxin levels produced in vitro, and MaNPS1 was expressed concurrently with in vitro destruxin production. DeltaManps1 mutants exhibited in vitro development and responses to external stresses comparable to control strains. No detectable differences in pathogenicity of the DeltaManps1 mutants were observed in bioassays against beet armyworm and Colorado potato beetle in comparison to control strains. This is the first report of targeted disruption of a secondary metabolite gene in M. anisopliae, which revealed a novel cyclic peptide spore factor.     

Differential expression of genes involved in entomopathogenicity of the fungi Metarhizium anisopliae var. anisopliae and M. anisopliae var. acridum (Clavicipitaceae)

Expression analysis of the genes involved in germination, conidiogenisis and pathogenesis of Metarhizium anisopliae during its saprophytic and pathogenic life stages can help plan strategies to increase its efficacy as a biological control agent. We quantified relative expression levels of the nitrogen response regulator gene (nrr1) and a G-protein regulator of genes involved in conidiogenesis (cag8), using an RT-qPCR assay. Comparisons were made between M. anisopliae var. anisopliae and M. anisopliae var. acridum during germination and conidiogenesis and at different stages of pathogenesis. The cag8 gene was repressed during germination and induced during conidial development and the pathogenic phase, and the nrr1 gene was induced during germination, conidiogenesis and the pathogenic phase. Both genes were more expressed in M. anisopliae var. anisopliae, demonstrating that different varieties of M. anisopliae differ in activation of genes linked to virulence for certain environments and hosts. This suggests that differences among these varieties in the ability to adapt could be attributed not only to specific genomic regions and genes, but also to differential gene expression in this fungus, modulating its ability to respond to environmental stimuli.     

金龟子绿僵菌附着胞分化及其与环腺苷酸cAMP的关联性研究

寄主识别与附着胞分化是虫生真菌启动侵染过程的首要步骤。本文利用先前获得的金龟子绿僵菌基因缺失突变株与其野生型一起进行附着胞分化研究。接种后不同时间下的观察表明,绿僵菌突变株或野生型的附着胞既可以在萌发不久的芽管顶端形成,也可以在伸长菌丝分支的顶端形成。与野生型不同的是,突变株附着胞的分化频率显著下降,附着胞周围也缺乏粘液层的产生。研究表明,绿僵菌的类枯草杆菌类体壁降解酶对于附着胞分化不产生影响,对体壁降解也非完全必需的。与突变株附着胞分化频率显著降低相对应,其胞内环腺苷酸cAMP水平显著下降,而添加外源cAMP能够显著增加其附着胞分化频率,说明绿僵菌cAMP信号途径对于调控附着胞分化起着重要的作用。     

Circular dichroism analysis of destruxins from Metarhizium anisopliae

Destruxins are secondary metabolites secreted by Metarhizium anisopliae [Y. Kodaira, Toxic substances to insects, produced by Aspergillus ochraceus and Oopsra destructor, Agric. Biol. Chem., 25 (1961) 261-262. D.W. Roberts, Toxins from the entomogenous fungus Metarhizium anisoplaie: Isolation from submerged cultures, J. Invertebr. Pathol., 14 (1969) 82-88. D.W. Roberts, Toxins from the entomogenic fungi in microbial control of pest and plant disease, Academic press, New York, 1981, pp441-464.]. In recent research, other than being used as insecticides, destruxins exhibited great potential in therapeutical applications such as antitumor, antivirus, and animal cell immunization effectiveness, etc. In this study, the conformations purified destruxins were determined by circular dichroism (CD). The results indicated that these cyclic peptides have the type I beta-turn conformation. In addition, different types of destruxins exhibited different CD spectra in acetonitrile. Therefore, these characters can be used as fingerprints to identify each type of destruxin. To further investigate the interactions among destruxins, various combinations of destruxins in 10 mM phosphate-buffered saline (PBS) were also studied by CD. The results strongly suggested that destruxins might work independently in vivo. To our knowledge, this is the first report presenting the CD analysis of purified destruxins.     

感染水椰八角铁甲的绿僵菌的分子鉴定及致病力测定

在室内饲养的水椰八角铁甲Octodonta nipae(Maulik)种群中,发现有大量甲虫被病原菌感染致死.对死虫体表的病原真菌进行分离鉴定,并依据ITS序列分析鉴定,确定该病原真菌为金龟子绿僵菌小孢变种(Metarhizium anisopliae var.anisopliae).经室内致病力测定,接种浓度分别为1...     

Protein analysis in a pleomorphically deteriorated strain of the insect-pathogenic fungus Metarhizium anisopliae

Pleomorphic deterioration is a process where a fungal isolate loses the ability to produce conidia during repeated subculturing. We have previously isolated strains of the entomopathogenic fungus Metarhizium anisopliae that have irreversibly lost the ability to produce conidia and only produce mycelia when grown on agar. Gel electrophoresis was used to examine differences in intracellular protein patterns (urea-soluble proteins and urea-insoluble proteins (i.e., hydrophobins)) in conidiating and mycelial cultures of M. anisopliae. Two major proteins present in a conidiating culture and one from a mycelial culture were N-terminally sequenced but showed no homologies to known proteins. The presence of hydrophobins in conidiating and mycelial cultures was also examined, and it was shown that these proteins were abundant in conidiating cultures but not in mycelial cultures. We also used primers designed from regulatory genes involved in conidiation in Aspergillus nidulans. The amplified fragments were not homologous to A. nidulans genes.     

Influence of nutrition on the production and physiology of sectors produced by the insect pathogenic fungus Metarhizium anisopliae

Metarhizium anisopliae strains V245 and V275 differed in their stability when grown on different nutrient media. V275 produced fewer sectors than V245 irrespective of the cultural conditions. Both strains produced more sectors on nutrient rich media. At least four distinct types of sectors were produced in vitro. Most sectors were sterile or sporulated poorly and produced significantly lower quantities of virulence determining enzymes like Pr1. Real-time PCR confirmed differential expression of the pathogenicity-related genes pr1 A, ste 1, try 1, and chy 1 encoding for the subtilisin Pr1A, esterase, trypsin and chymotrypsin, respectively. API-ZYM revealed that the enzyme profiles of sectors differed from those of the parent cultures and also from other sectors. Sectors of M. anisopliae also produced less destruxins than the parent cultures independent of the strain.     

Transformation of Metarhizium anisopliae mediated by Agrobacterium tumefaciens

A simple, highly efficient, and reliable Agrobacterium tumefaciens-mediated transformation method was developed for the insect pathogenic fungus Metarhizium anisopliae. Expression of the green fluorescent protein gene, egfp, and the benomyl resistance gene, benA3, were used as markers in transformed M. anisopliae. Transformation efficiencies were dependent on the strain of A. tumefaciens used. With strain AGL-1, 17.0 +/- 1.4 transformants per plate could be obtained using conidial concentrations of 10(6) conidia/mL and a 2 day co-cultivation in the presence of 200 micromol/L acetosyringone. On the other hand, transformations using strain LBA4404 were unsuccessful. Ten transformants were tested by Southern analysis and found to contain a single copy T-DNA. Twenty transformants were subcultured for five generations on nonselective media, and 95% of the transformants were mitotically stable. Agrobacterium tumefaciens-mediated transformation of M. anisopliae can serve as a useful tool to investigate genes involved in insect pathogenicity.     

Effects of the entomopathogenic fungus Metarhizium anisopliae and its secondary metabolites on morphology and cytoskeleton of plasmatocytes isolated from the greater wax moth,Galleria mellonella

The effects of Metarhizium anisopliae infection and three different secondary metabolites released by the fungus, destruxin A and E and cytochalasin D, on the morphology and cytoskeleton of plasmatocytes of the greater wax moth Galleria mellonella were studied. Plasmatocytes isolated from M. anisopliae infected larvae exhibited impairment of attachment, spreading and cytoskeleton formation accompanied with the occurrence of blebbing and pycnotic nuclei. Plasmatocytes treated with destruxin in vitro exhibited similar morphological and cytoskeleton alterations. The corresponding effects were characterized by inhibition of attachment, spreading and filopodia formation as well as by impaired formation of actin filaments and microtubules. Cytochalasin was shown to affect plasmatocytes in vitro in a different manner than destruxin A and E. The results of our comparative study strongly suggested that the morphology and cytoskeleton alterations of plasmatocytes observed in M. anisopliae infected larvae were predominantly caused by destruxins released by the fungus during mycosis. Its mode of action is discussed with regard to present knowledge about its effects on target cells.     

Toxicity testing of destruxins and crude extracts from the insect-pathogenic fungus Metarhizium anisopliae

Increasing sensitivity towards secondary metabolites from fungal biological control agents (BCAs) has prompted the toxicological risk assessment of metabolites produced by the insect pathogenic fungus Metarhizium anisopliae. Viability studies on one human and one insect cell line were used to compare the two approaches of testing individual metabolites (destruxins A, B and E) or the complete crude extract from liquid cultures. Furthermore, crude extract was separated into fractions, which did not contain the main destruxins A, B and E. Evaluation of the cytotoxic activity of these different compounds suggested that a wide range of metabolites with synergistic or adverse effects are present in the crude extract. The results indicate that identification and toxicological assessment of each individual metabolite produced by a BCA is not only time and cost-intensive, but also does not convey the whole picture. Testing of the crude extract offers an alternative approach and is recommended when assessing the risks of metabolites for registration purposes.     

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.     

Antifeedant Properties of Destruxins and their Potential Use with the Entomogenous Fungus Metarhizium anisopliae for Improved Control of Crucifer Pests

Destruxins A, B and E, produced by the entomogenous fungus Metarhizium anisopliae, are insecticidal but comparatively low doses have antifeedant properties. Treatment of cabbage leaf discs with destruxins significantly reduced feeding by larvae of Plutella xylostella and Phaedon cochleariae in both choice and no-choice assays. The Antifeedant Index (AI) was dose related and there were significant differences between treated and untreated leaves. The AI and acute toxicity assays suggest that insect death was due to a combination of the starvation and toxicity effects of destruxins. In whole plant experiments, adults and larvae of P. cochleariae were found to be more susceptible to infection by M. anisopliae V245 if it was used in conjunction with a crude destruxin mixture. Destruxins drove larvae off the plant, irrespective of which leaf surface was treated. Adults could be forced to the adaxial or abaxial surface of leaves using the crude destruxin. Mortality was usually more consistent and generally greater if adults were forced to abaxial than adaxial surfaces inoculated with the fungus. High humidity on the abaxial surface favoured conidia germination and infection. Mortality was also greater for adults dusted with the pathogen and forced to the abaxial rather than to the adaxial leaf surface. The increased movement and starvation associated with destruxin treatment may also have stressed the insects making them more susceptible to infection.     

A new destruxin as inhibitor of vacuolar-type H+-ATPase of Saccharomyces cerevisiae

In the course of our screening efforts to discover small molecules as selective inhibitors of vacuolar-type H+-ATPase of Saccharomyces cerevisiae, we have identified eight active destruxins, 1-8, from the fungus Metarhizium anisopliae. The structures were elucidated by extensive 1D- and 2D-NMR spectroscopy, and MS spectrometry. One of these compounds, 8, a regioisomer of chlorohydrin destruxin E (7), is a new destruxin.     

绿僵菌素的分离制备及其对蛴螬的毒力

以金龟子绿僵菌金龟子变种Metarhizium anisopliae var. anisopliae菌株MaQ10发酵液为材料,采用萃取、浓缩、制备色谱及重结晶技术,分离纯化出5种绿僵菌素的晶体,经与标准样品以及参考文献相对照,此5种晶体与绿僵菌素A、A2、B、C和E相吻合。进而,采用浸渍法测定了绿僵菌素A和B对大等鳃金龟Exolontha serrulata (Gyllenhall) 和卵圆齿爪鳃金龟Holotrichia ovata Chang 1龄幼虫的触杀毒力。结果表明： 绿僵菌素A和B对大等鳃金龟的触杀活性,在处理后96～120 h内最高,LC₅₀分别为78.1571 mg/L和88.7562 mg/L; 处理浓度为300 mg/L时,LT₅₀分别为13.4159 h和10.5331 h。绿僵菌素A和B对卵圆齿爪鳃金龟的触杀活性,在处理后96 h时最高,LC₅₀分别为66.5308 mg/L和79.4309 mg/L;处理浓度为300 mg/L时,LT₅₀分别是13.6399 h和9.9451 h。     

Production of cyclodepsipeptides destruxin A and B from Metarhizium anisopliae

Maltose and peptone were the best carbon and nitrogen sources for the production of destruxins from Metarhizium anisopliae. With the addition of 0.1% (w/v) beta-alanine to the basal medium, the yields of cyclodepsipeptides DA and DB were 7.2 and 279 mg/L, respectively, which was 2-fold higher than that of control experiment. Response surface methodology (RSM) was applied to optimize the compositions of maltose, peptone, beta-alanine, and glucose used in a shaker-flask cultivation of M. anisopliae for the production of DA and DB. Estimated optimal compositions for the DA production were maltose 2.58%, peptone 0.72%, beta-alanine 0.02%, and glucose 0.55%. The predicted DA yield was 18.5 mg/L. On the other hand, the optimal compositions for DB production were maltose 2.51%, peptone 0.75%, beta-alanine 0.02%, and glucose 0.43%. A maximum DB yield of 232 mg/L was predicted. These were confirmed by cultivation experiments conducted at the optimized conditions for maximum destruxins production in a shaker-flask. Furthermore, a modest high level of DA (49 mg/L) and DB (268 mg/L) yields were obtained by employing the response surface methodology optimized DB production medium in a no-baffle, stirred-tank fermentor.     

Pathogenicity of three formulations of entomopathogenic fungi for control of adult Haematobia irritans (Diptera: Muscidae)

Powder formulations of three species of entomopathogenic fungi were evaluated for their pathogenic effect upon adult horn flies, Hematobia irritans (L.) (Diptera: Muscidae). Flies were treated with conidia and blastospores of the entomopathogenic fungi Beauveria bassiana (Bals.) Vuill. (strain GHA), Metarhizium anisopliae (Metschnikoff) Sorokin (strain ESCI), and Paecilomyces fimosoroseus (Wize) Brown & Smith (strain ARSEF 3581) in the laboratory. At 4 d postexposure, flies treated with B. bassiana had an average of 98.4% mortality versus 43.5% from treatment with M. anisopliae and 13.0% from treatment with P. fiimosoroseus. At 7 d postexposure, flies treated with B. bassiana had an average of 100.0% mortality compared with 73.0% from treatment with M. anisopliae and 33.3% from treatment with P.fumosoroseus. Mean lethal time (LT50) was 2.70, 4.98, and 7.97 d for B. bassiana, M. anisopliae, and P. fiumosoroseus, respectively. Entomopathogenic fungi such as B. bassiana and M. anisopliae may have the potential for controlling populations of horn flies. These studies indicate that B. bassiana and M. anisopliae were not only pathogenic to adult horn flies, but they caused mortality in a short time.     

Recombination within sympatric cryptic species of the insect pathogenic fungus Metarhizium anisopliae

Metarhizium anisopliae is an insect pathogenic fungus with a worldwide distribution. It is being developed and used as a biocontrol agent against a wide range of insect pests but relatively little is known of the life history of this fungus. We tested hypotheses concerning reproductive isolation and recombination in a sample of heat-active (ability to grow at 37 degrees C) and cold-active (ability to grow at 8 degrees C) sympatrically occurring isolates of M. anisopliae from Ontario, Canada by assaying nucleotide sequence variation at six polymorphic loci: the internally transcribed spacer (ITS) region of the nuclear ribosomal DNA repeat, and portions of calmodulin (CAL), chitin synthase (CHS), subtilisin-like protease (PR1), neutral trehalase (NTL) and actin (ACT)-encoding genes. The most parsimonious trees constructed showed a topology consistent with the heat-active and cold-active isolates as two monophyletic groups. We then applied Genealogical Concordance Phylogenetic Species Recognition (GCPSR) to the genealogical trees and concluded that the transition from concordance among branches to incongruity among branches delimited two species of M. anisopliae within Ontario. The GCPSR of two species was supported by intraspecific incongruity within each species when tested using the Partition Homogeneity test, indicating recombination. The GCPSR of two species also corresponded to the heat-active and cold-active groups. As the groups are morphologically indistinguishable we applied the term 'cryptic species'. Therefore, the sympatrically occurring heat-active and cold-active isolates represent different cryptic species with a history of recombination among isolates within each species.     

Effectiveness of Bacillus thuringiensis-transgenic chickpeas and the entomopathogenic fungus Metarhizium anisopliae in controlling Helicoverpa armigera (Lepidoptera: Noctuidae)

The use of genetically modified (Bt) crops expressing lepidopteran-specific Cry proteins derived from the soil bacterium Bacillus thuringiensis is an effective method to control the polyphagous pest Helicoverpa armigera. As H. armigera potentially develops resistance to Cry proteins, Bt crops should be regarded as one tool in integrated pest management. Therefore, they should be compatible with biological control. Bioassays were conducted to understand the interactions between a Cry2Aa-expressing chickpea line, either a susceptible or a Cry2A-resistant H. armigera strain, and the entomopathogenic fungus Metarhizium anisopliae. In a first concentration-response assay, Cry2A-resistant larvae were more tolerant of M. anisopliae than susceptible larvae, while in a second bioassay, the fungus caused similar mortalities in the two strains fed control chickpea leaves. Thus, resistance to Cry2A did not cause any fitness costs that became visible as increased susceptibility to the fungus. On Bt chickpea leaves, susceptible H. armigera larvae were more sensitive to M. anisopliae than on control leaves. It appeared that sublethal damage induced by the B. thuringiensis toxin enhanced the effectiveness of M. anisopliae. For Cry2A-resistant larvae, the mortalities caused by the fungus were similar when they were fed either food source. To examine which strain would be more likely to be exposed to the fungus, their movements on control and Bt chickpea plants were compared. Movement did not appear to differ among larvae on Bt or conventional chickpeas, as indicated by the number of leaflets damaged per leaf. The findings suggest that Bt chickpeas and M. anisopliae are compatible to control H. armigera.     

Evaluation of Metarhizium anisopliae (Deuteromycota: Hyphomycetes) for control of broad mite Polyphagotarsonemus latus (Acari: Tarsonemidae) in mulberry

A study on 12 entomopathogenic fungi for controlling broad mite (Polyphagotarsonemus latus (Banks)) in mulberry found that Metarhizium anisopliae CKM-048 was the most virulent strain in controlling both larvae and adult broad mites at the concentration of 2 x 10(8) conidia/ml. There was no ovicidal effect when tested with broad mite eggs. Median lethal concentrations (LC(50)) of M. anisopliae in killing larvae and adults were 8.7 x 10(6) and 1.3 x 10(7 )conidia/ml, respectively. Median lethal times (LT(50)) of larvae and adults were 2.4 and 3.8 days, respectively, at the concentration of 2 x 10(8) conidia/ml. The fungus was found to produce protease and chitinase. Scanning electron microscope (SEM) studies were done to monitor the infection steps of the fungus on broad mites. A greenhouse test on mulberry trees revealed that M. anisopliae could reduce the broad mite population within 4 days after treatment. However, after 7 days, its efficacy was decreased significantly.     

The use of PCR to isolate a putative ABC transporter from Saccharopolyspora erythraea

Abstract The uropathogenic Escherichia coli strain J96 (04:K6) is able to produce four adherence factors [P-fimbriae ( pap and prs ), F1C-fimbriae ( foc ) and Type 1-fimbriae ( fim )], two α-hemolysins ( hfy I and II) and the cytotoxic necrotizing factor type 1 ( cnf 1). Using phenotypic test systems and genotypic analysis, it has been shown that the mutant strain J96-M1 has lost the hly II, prs and cnf 1 genes. The three virulence associated determinants are linked on one particular region on the chromosome, which is termed 'pathogenicity island II' (Pai II).