Plant tissue localization of the endophytic insect pathogenic fungi Metarhizium and Beauveria

Endophytic fungi may display preferential tissue colonization within their plant hosts. Here we tested if the endophytic, insect pathogenic fungi (EIPF) Metarhizium and Beauveria showed preferential localization within plant tissues, in the field and under laboratory conditions. In the field, plants were sampled from three separate sites (Brock University, St. Catharines, Ontario; Pelham, Ontario; and Torngat Mountains National Park, Newfoundland, Canada) and EIPF were isolated from plant roots, the hypocotyl, and stem and leaves. Two genera of EIPF, Metarhizium spp. and Beauveria bassiana, were isolated from plants sampled, as well as the nematophagous fungus, Pochonia chlamydosporium. Metarhizium spp. were almost exclusively found in roots, whereas B. bassiana and P. chlamydosporium were found throughout the plant. The Metarhizium species were identified by RFLP and 95 % were Metarhizium robertsii, 4.3 % were M. brunneum, and 0.7 % were M. guizhouense. Lab studies with M. robertsii and B. bassiana reflected observations found in the field, that is, Metarhizium was restricted to the roots of plants while B. bassiana was found throughout the plant. Insect infection by these EIPF is preferential with respect to above and below ground insects, and the present study correlates above and below ground insect infections with endophytic colonization by these EIPF.     

Detection of molecular variation in the insect pathogenic fungus Metarhizium using RAPD-PCR

Abstract DNA polymorphism among isolates of the insect pathogenic fungus Metarhizium anisopliae and M. flavoviride was investigated by RAPD-PCR. DNA fragments of between 0.3 and 2.7 kb were obtained using eight 10-mer PCR primers of arbitrary nucleotide sequence, and each isolate differed in the size and number of RAPD products, indicating considerable polymorphism. Isolate-specific RAPD fingerprints were used to calculate relative genetic similarity; this differentiated isolates into two major groups, separating nine of the ten isolates of M. anisopliae from the two of M. flavoviride . However, an Australian M. anisopliae isolated from an Orthopteran host exhibited a higher degree of genetic similarity to the M. flavoviride group. M. anisopliae isolates were further segregated into three subgroups which were loosely related to their geographical origins. although considerable polymorphism was observed within these groups. There was no apparent association between genotype and original insect host.     

Linkage of autophagy to fungal development,lipid storage and virulence in Metarhizium robertsii

Autophagy is a highly conserved process that maintains intracellular homeostasis by degrading proteins or organelles in all eukaryotes. The effect of autophagy on fungal biology and infection of insect pathogens is unknown. Here, we report the function of MrATG8, an ortholog of yeast ATG8, in the entomopathogenic fungus Metarhizium robertsii. MrATG8 can complement an ATG8-defective yeast strain and deletion of MrATG8 impaired autophagy, conidiation and fungal infection biology in M. robertsii. Compared with the wild-type and gene-rescued mutant, Mratg8Δ is not inductive to form the infection-structure appressorium and is impaired in defense response against insect immunity. In addition, accumulation of lipid droplets (LDs) is significantly reduced in the conidia of Mratg8Δ and the pathogenicity of the mutant is drastically impaired. We also found that the cellular level of a LD-specific perilipin-like protein is significantly lowered by deletion of MrATG8 and that the carboxyl terminus beyond the predicted protease cleavage site is dispensable for MrAtg8 function. To corroborate the role of autophagy in fungal physiology, the homologous genes of yeast ATG1, ATG4 and ATG15, designated as MrATG1, MrATG4 and MrATG15, were also deleted in M. robertsii. In contrast to Mratg8Δ, these mutants could form appressoria, however, the LD accumulation and virulence were also considerably impaired in the mutant strains. Our data showed that autophagy is required in M. robertsii for fungal differentiation, lipid biogenesis and insect infection. The results advance our understanding of autophagic process in fungi and provide evidence to connect autophagy with lipid metabolism.     

Regulation of production of a trypsin-like protease by the insect pathogenic fungus Metarhizium anisopliae

Abstract The entomopathogenic fungus metarhizium anisopliae produces several cuticle-degrading proteases which may play a role in pathogenesis. The regulation of one of these, a trypsin-like protease PR2, has been investigated using depressed mycelia. Three insoluble protein sources, insect cuticle, elastin and collagen, as well as two soluble proteins, BSA and gelatin, induced PR2. The polymeric carbon sources cellulose and xylan resulted in depressed basal levels but not induced production of PR2. An approximately 15-fold increase in PR2 activity per mg dry weight of mycelium was observed when the fungus was grown in the presence of bovine serum albumin (BSA), as compared with conditions of depression alone. This indicates that PR2 is induced by BSA, and probably by other proteins. Basal levels of PR2 were detected after 8 h when mycelium was starved for both carbon and nitrogen but only after 16 h when starved for either nitrogen or carbon. In the presence of a protein source, nitrogen strongly repressed PR2 whereas carbon had little effect. There was no effect of sulphur on PR2 production.     

绿僵菌破坏素合成缺失株中分离鉴定pseurotin A

真菌次级代谢产物是医药活性成分的重要来源之一。就真菌基因组编码的次级代谢基因簇数量而言,由于普遍存在的基因沉默现象,常规培养中能够分离鉴定的化合物种类一般很有限。广谱杀虫的罗伯茨绿僵菌在液体培养基中的主要代谢产物为非核糖体环肽类的破坏素,本研究在对破坏素合成缺失突变株ΔdtxS1进行液体培养时获得了新的产物峰,对其中一个产物峰进行分离、纯化及结构鉴定,确定该化合物为螺环类的pseurotin A。结合在烟曲霉菌中解析的pseurotin A合成途径,推测获得了罗伯茨绿僵菌中的潜在合成基因簇,并推测了pseurotin A在绿僵菌中的合成途径。本研究首次在绿僵菌中鉴定获得pseurotin A,并揭示了在真菌中通过对主要次级代谢产物缺失的方法可以鉴定获得新型的化合物。     

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.     

Persistence and proliferation of a Chinese Metarhizium anisopliae s.s. isolate in the peanut plant root zone

We evaluated the persistence and proliferation of a Chinese Metarhizium anisopliae s.s. isolate (M202-1) at different distances from peanut roots during peanut development. The results showed that the duration, distance from root and depth resulted in significant effects and interactions on the survival of the fungus. The fungal population showed a rapid early decline, followed by a gradual stabilisation or a slight re-establishment. The rhizospheric population declined by 50% within 21 d, faster than other population away from the root. The decline reached the lowest level between days 60 and 90, with levels of 10.8–24.7% of the initial inoculum. In comparison, the rhizospheric population re-established earliest and increased to 52.9% of the initial on day 150. The 3–5-cm shallow layer was more suitable than the 13–15-cm layer for fungal persistence. When Metarhizium was applied outside the 11.5-cm radius around the root, it would diffuse inward in 30 d, causing a significant increase at the rhizosphere on day 90. In accordance with the sampling date corresponding to the root development stage, the results suggest that the rhizosphere of peanut middle–later development was conducive to Metarhizium proliferation, promoting Metarhizium application for pest control in the soil.     

精胺合成酶MrSPS参与调控罗伯茨绿僵菌的生长发育、抗逆和致病力

本研究以罗伯茨绿僵菌Metarhizium robertsii为研究对象,针对鉴定出的精胺合成酶基因(MAA_02088, Mrsps),利用农杆菌介导的同源重组方法获得Mrsps敲除株ΔMrsps。与野生型相比,ΔMrsps营养生长和产孢能力下降,对氯化钠和紫外照射耐受性增强。大蜡螟幼虫毒力分析表明,浸渍和注射两种情况下ΔMrsps致病力降低,半致死时间(LT₅₀：6.71和4.75 d)比野生型(LT₅₀：5.17和4.19 d)显著增加。Mrsps敲除后不影响附着胞形成率和蝉翅穿透能力,但会显著下调昆虫血腔定殖相关基因的表达量。这些结果说明精胺合成酶MrSPS参与调控罗伯茨绿僵菌的生长发育、外界胁迫应答和致病力。     

Strigolactones: chemical signals for fungal symbionts and parasitic weeds in plant roots

• Aims Arbuscular mycorrhizae are formed between >80 % of land plants and arbuscular mycorrhizal (AM) fungi. This Botanical Briefing highlights the chemical identification of strigolactones as a host-recognition signal for AM fungi, and their role in the establishment of arbuscular mycorrhizae as well as in the seed germination of parasitic weeds.• Scope Hyphal branching has long been described as the first morphological event in host recognition by AM fungi during the pre-infection stages. Host roots release signalling molecules called ‘branching factors’ that induce extensive hyphal branching in AM fungi. Strigolactones exuded from host roots have recently been identified as an inducer of hyphal branching in AM fungi. Strigolactones are a group of sesquiterpenes, previously isolated as seed germination stimulants for the parasitic weeds Striga and Orobanche. Parasitic weeds might find their potential hosts by detecting strigolactones, which are released from plant roots upon phosphate deficiency in communication with AM fungi. In addition to acting as a signalling molecule, strigolactones might stimulate the production of fungal symbiotic signals called ‘Myc factors’ in AM fungi.• Conclusions Isolation and identification of plant symbiotic signals open up new ways for studying the molecular basis of plant–AM-fungus interactions. This discovery provides a clear answer to a long-standing question in parasitic plant biology: what is the natural role for germination stimulants? It could also provide a new strategy for the management and control of beneficial fungal symbionts and of devastating parasitic weeds in agriculture and natural ecosystems.     

Transformation of the entomopathogenic fungus Metarhizium anisopliae to benomyl resistance

Abstract Protoplasts of the entomopathogenic fungus Metarhizium anisopliae were transformed to benomyl resistance using cosmid pSV50 which harbours a β-tubulin gene cloned from a Neurospora crassa benomyl-resistant mutant. Transformant colonies, which appeared at a frequency of 4 per 50 μg DNA, grew and sporulated on 10 μg/ml benomyl, whereas the wild type was inhibited by 3 μg/ml. Southern blot hybridization of DNA from transformants showed that, in each case, tandem repeats of the cosmid had integrated at several chromosomal loci. The transformants were mitotically stable when subcultured on non-selective agar and retained the ability to infect and kill larvae of Manduca sexta . Two transformants were less virulent than the wild type and one of them showed slower in vitro spore germination. The benomyl-resistant phenotype persisted in reisolates from insect cadavers.     

Differential expression of insect and plant specific adhesin genes, Mad1 and Mad2, in Metarhizium robertsii

Metarhizium robertsii is an entomopathogenic fungus that is also plant rhizosphere competent. Two adhesin-encoding genes, Metarhizium adhesin-like protein 1 (Mad1) and Mad2, are involved in insect pathogenesis or plant root colonization, respectively. Here we examined the differential expression of the Mad genes when grown on a variety of soluble (carbohydrates and plant root exudate) and insoluble substrates (locust, tobacco hornworm, and cockroach cuticle, chitin, tomato stems, cellulose, and starch) and during insect, Plutella xylostella, infection. On insect cuticles Mad1 was up regulated, whereas bean root exudate and tomato stems resulted in the up regulation of Mad2. During the early stages of insect infection Mad1 was expressed while Mad2 was not expressed until fungal hyphae emerged and conidiated on the insect cadaver. The regulation of Mad2 was compared to that of other stress-related genes (heat shock protein (Hsp)30, Hsp70, and starvation stress gene A (ssgA)). Mad2 was generally up regulated by nutrient starvation (similar to ssgA) but not by pH, temperature, oxidative or osmotic stresses. Whereas Hsp30 and Hsp70 were generally up regulated at 37 °C or by oxidative stress even under nutrient enriched conditions. We fused the promoter of the Mad2 gene to a marker gene (green fluorescent protein (GFP)) and confirmed that Mad2 was up regulated when M. robertsii was grown in the presence of nutrient starvation. Examination of the promoter region of Mad2 revealed that it possessed two copies of a stress-response element (STRE) known to be regulated under the general stress-response pathway.     

罗伯茨绿僵菌中嘧啶前体合成酶基因MrThi12的功能研究

通过同源基因比对,在罗伯茨绿僵菌中找到了单拷贝的嘧啶前体合成酶基因MAA_02402,命名为MrThi12。该基因MrThi12全长1 234bp,cDNA序列全长1 029bp,编码342个氨基酸。构建同源重组载体,利用农杆菌介导的方法进行基因敲除。突变菌株在维生素B1缺乏的培养基上,生长很慢,菌丝形态异常,多分叉,完全不能产生气生菌丝和分生孢子。但是一旦有外源维生素B1时,生长状态能完全恢复,对家蚕的致死能力没有变化。     

First steps towards biological control of the pear gall midge (Contarinia pyrivora) with the insect pathogenic fungus Metarhizium brunneum

Gall midges are important pests in many crops. In fruit, they are difficult to control due to their life cycle, which takes place partially within the fruit. Here, we provide the first successful laboratory experiment to infect pear gall midge (Contarinia pyrivora) with the insect pathogenic fungus Metarhizium brunneum. We developed a procedure for sampling larvae, maintaining them in the laboratory and subjecting them to the fungus. We demonstrated that dipping larvae in a fungus suspension or adding a fungus suspension to the soil result in significant fungus induced mortality of the pear gall midge. An immune response in treated larvae was recorded proving that there was a real pathogenesis. Finally, we discuss next steps and a strategy for field experiments.     

Technical scale production of encapsulated Saccharomyces cerevisiae and Metarhizium brunneum attractive to wireworms

Wireworms (Coleoptera: Elateridae) have recently become an increasing problem as agricultural insect pests due to the phasing out of effective control options. Entomopathogenic fungi such as Metarhizium brunneum have proven to be a promising microbial antagonist for wireworm control. Here, we tested whether the efficacy of M. brunneum can be increased through a combination with CO₂, emitted by Saccharomyces cerevisiae, as an attractant (=attract-and-kill). We aimed at a technical scale production of a formulated biological control agent offering a practical and economically feasible application for wireworm control. Therefore, a novel technical formulation process for encapsulated S. cerevisiae (Attract beads) and M. brunneum (Kill beads) was investigated. For the bead production by jet cutting, the parameters nozzle diameter, pump speed, cutting device speed and collecting distance were evaluated. In order to dry the beads in a short time while maintaining a high cell viability, different drying temperatures during fluidised-bed drying were tested and the best results were obtained with an inlet air temperature profile between 50°C and 40°C. CO₂ production of the beads in the soil was highest for co-applied Attract and Kill beads. The potential of beads to modify wireworm behaviour (Agriotes sputator) was tested in a rhizotron experiment. The Attract-and-Kill treatment (co-applied beads) significantly attracted wireworms, whereas Attract beads and Kill beads alone showed a weak, but non-significant attraction. Wireworm mortality could not be enhanced due to a low rate of mycosis from M. brunneum infection.     

影响引人微生物根部定殖的因素

从外界引入的各类有益微生物如生防菌(BCA)和根际促生菌或增产菌(PGPR,YIB)到种子表面随其生根发芽而蔓延或直接到根表沿根分布定殖．外来微生物在根际定殖的过程为与根尖接触,沿根分布,最后在根际建立自己的种群．定殖的位点以PGPR为例,是表皮细胞间隙,或侧根、根毛基部．外来微生物在根际定殖动态变化的原因,由于根际生物的和非生物的因素引起的．生物因子除去外来微生物本身的生理特性,还有根际土著微生物与外来微生物的相互作用,更重要的是植物基因型对微生物定殖的影响．非生物因子包括土壤环境、土壤结构和含水量,土壤温度和土壤pH值均能影响外来微生物在根部的定殖．     

Chlorimuron ethyl as a new selectable marker for disrupting genes in the insect-pathogenic fungus Metarhizium robertsii

A lack of selectable markers was a hindrance in investigating gene function in Metarhizium robertsii. A reliable Agrobacterium-mediated transformation system based on the use of chlorimuron ethyl as the selectable marker was developed which could serve as a useful tool to inactivate genes involved in insect pathogenicity.     

The ovicidal effect of Metarhizium brunneum on Ascaridia galli eggs on solid media and activity of its crude extract

The aim of this study was to test the ovicidal effect of Metarhizium brunneum on Ascaridia galli eggs and the protease activity of M. brunneum grown on standard media enriched with A. galli eggs. Ascaridia galli eggs were transferred to water agar plates and the fungus, M. brunneum, was added as a spore suspension. The viability of the eggs was assessed at 7, 14, 21 and 28 days post-inoculation. M. brunneum was grown on three types of growth media: SDA, SDA + chitin and SDA + A. galli eggs. Crude extract of the fungus was produced by mincing and centrifuging biomass taken from the growth plate. The supernatant was added to Azurine cross-linked-casein plates to test for protease activity. M. brunneum showed a significant impact on the viability of A. galli eggs, decreasing the percentage of viable eggs to 5.1%, indicating that it is a potential candidate for biological control of this nematode. Crude extract of M. brunneum grown on SDA + A. galli eggs showed a significantly higher protease activity than the crude extract of M. brunneum grown on SDA alone and M. brunneum grown on SDA + chitin, indicating a possible ovicidal effect of these proteases. Such an extract may have potential as a safe and reliable method for nematode control.     

草地贪夜蛾高致病力绿僵菌菌株的筛选与鉴定

为获取对草地贪夜蛾Spodoptera frugiperda具有高致病力的生防真菌,从福建省不同地区分离得到8株寄主为鳞翅目和半翅目幼虫僵虫的绿僵菌Metarhizium,采用浸渍法测定了其对草地贪夜蛾2龄幼虫和蛹的致病力,并根据形态学和分子生物学方法对高致病力菌株进行种类鉴定。结果表明,8株绿僵菌菌株对草地贪夜蛾2龄幼虫和蛹均表现出不同程度的致病力,其中菌株FJMR2和FJXY7表现出较强的致病力。在5×107个/mL孢子浓度下,FJMR2和FJXY7对草地贪夜蛾2龄幼虫的致死率分别为88.76%和82.13%,对蛹的致死率分别为86.57%和84.00%;对草地贪夜蛾2龄幼虫的LT50分别为4.81 d和4.93 d,对蛹的LT50分别为4.94 d和4.83 d。经鉴定菌株FJMR2和FJXY7均为莱氏绿僵菌Metarhizium rileyi。本研究获得2株对草地贪夜蛾2龄幼虫和蛹具有高致病力的莱氏绿僵菌菌株,在草地贪夜蛾的生物防治中具有较大应用潜力。     

Culture conditions affect virulence and production of insect toxic proteins in the entomopathogenic fungus Metarhizium anisopliae

Conidial spores are often used as the infectious agent during insect biocontrol applications of entomopathogenic fungi. Here we show differential virulence of conidia derived from Metarhizium anisopliae strain EAMa 01/58-Su depending upon the solid substrata used for cultivation, where LC₅₀ values differed by up to ~10-fold (5.3×10⁶?4.5×10⁵ conidia/ml) and LT₅₀ values by ~40% (9.8?7.1 d). This fungal strain is also known to secrete proteins that are toxic towards adult Mediterranean fruit flies, Ceratitis capitata, and the Greater wax moth, Galleria mellonella, larvae. In vitro production and intrahemoceol injection using G. mellonella as the host was used to test fractions during purification of the protein toxins, demonstrating that they elicited defence-related responses including melanisation and tissue necrosis. Production of these proteins/peptides along with a number of potential cuticle degrading enzymes was confirmed both in vitro and during the infection process (in vivo). Two-dimensional gel electrophoresis, followed by gel elution and bioassay, was used to identify at least three proteins or peptides (molecular mass=11, 15 and 15 kDa) as mediating the observed insect toxicity. These data demonstrate that in vitro screening for insect toxins can mimic in vivo (i.e. during the infection process) secretion and applies the use of proteomics to invertebrate pathology.