Toxicity of Xanthene Dyes to Entomopathogenic Fungi

Effects of xanthene dyes on mycelial growth and conidial germination in three species of entomopathogenic fungi, Beauveria bassiana, Metarhizium anispoliae and Paecilomyces fumosoroseus, were evaluated in a variety of assay systems. In a disk-diffusion assay, erythrosin B and phloxine B (but not eosin B) produced zones of inhibition in colonies of all three species under continuous exposure to light at disk-loadings of 100mug. None of the dyes produced zones of inhibition in the absence of light at disk loadings of 100mug. Both erythrosin B and phloxine B inhibited mycelial growth of all three species in the light in a dose-dependent manner. Weaker dose-responses for inhibition of growth in the dark were observed for some fungus/dye combinations. Erythrosin B, tested singly, completely inhibited conidial germination in the light in all eight fungal strains tested at 100mug ml-1 medium, but failed to inhibit conidial germination in any of these strains in the dark at the same concentration of dye. For single strains of each of the three fungi, erythrosin B and phloxine B inhibited conidial germination in a dose-dependent manner in the light with IC50s < 6.2mug dye ml-1 medium for all fungus/dye combinations. Phloxine B was a more potent inhibitor of germination than erythrosin B for all three fungal species. At fixed dosages of erythrosin B and phloxine B, inhibition of conidial germination in all three species increased with time of exposure to light. These results constitute the first quantitative demonstration of photodynamic inhibition of conidial germination in fungi by xanthene dyes.     

Pathogenicity and Host Specificity of Entomopathogenic Nematodes

The mechanisms of infection and pathogenicity of Steinernematidae and Heterorhabditidae in insect hosts are discussed as factors influencing the host specificity of these nematodes. The invasion and evasion of host defences are important steps in the pathogenic process. The ability of the nematode to penetrate into the insect haemocoel, achieved by the release of proteolytic enzymes, is one specific factor. Another specific factor in the nematode-insect relationship is the ability of the nematode to evade insect defences through failure to be recognized and/or by destruction of insect antibacterial factors. Toxins and extracellular enzymes are important virulence factors released by these nematodes, apparently exhibiting a specific activity against certain insect hosts.     

Pathogenicity of Fungi to Eggs of Heterodera glycines

Twenty-one isolates of 18 fungal species were tested on water agar for their pathogenicity to eggs of Heterodera glycines. An egg-parasitic index (EPI) for each of these fungi was recorded on a scale from 0 to 10, and hatch of nematode eggs was determined after exposure to the fungi on water agar for 3 weeks at 24 C. The EPI for Verticillium chlamydosporium was 7.6, and the fungus reduced hatch 74%. Pyrenochaeta terrestris and two sterile fungi also showed a high EPI and reduced hatch 42-73%. Arthrobotrys dactyloides, Fusarium oxysporum, Paecilomyces lilacinus, Stagonospora heteroderae, Neocosmospora vasinfecta, Fusarium solani, and Exophiala pisciphila were moderately pathogenic to eggs (EPI was 2.0-4.5, and hatch was reduced 21-56%). Beauveria bassiana, Hirsutella rhossiliensis, Hirsutella thompsonii, Dictyochaeta heteroderae, Dictyochaeta coffeae, Gliocladium catenulatum, and Cladosporium sp. showed little parasitism of nematode eggs but reduced hatch. A negative correlation was observed between hatch and fungal parasitism of eggs. Fusarium oxysporum, H. rhossiliensis, P. lilacinus, S. heteroderae, V. chlamydosporium, and sterile fungus 1 also were tested in soil in a greenhouse test. After 3 months, the nematode densities were lower in soil treated with H. rhossiliensis and V. chlamydosporium than in untreated soil. The nematode population densities were correlated negatively with the EPI, but not with the percentage of cysts colonized by the fungi. Plant weights and heights generally increased in the soil treated with the fungi.     

虫生真菌分子生物学研究进展*

虫生真菌分子生物学的在研究自开展以来,有20多种与杀虫毒力相关的蛋白酶得到纯化,而与之相对应的基因也分别得到克隆、测序。陆续的基因克隆表明,虫生具菌中的重要毒力基因以基因族的形式存在,在精确的表达调控下以适应不同的寄主种类和不同的环境条件。基因工程研究表明,以增加毒力基因拷贝的方式可显提高虫生真菌的杀虫速率,带有外源基因标记的菌株也是环境释放示综研究的良好材料及方法。     

The Susceptibility of Different Species and Stages of Ticks to Entomopathogenic Fungi

Boophilus annulatus, Hyalomma excavatum and Rhipicephalus sanguineus ticks were shown to be susceptible to different entomopathogenic fungi under laboratory conditions. Comparative results of bioassays using five different fungal species showed that some strains of Metarhizium anisopliae are highly pathogenic against various tick stages tested. In contrast to their activity against insects, fungi also affected tick eggs. All tested tick stages including those feeding on a host were found to be susceptible to these fungi, except for adult H. excavatum ticks, which were relatively resistant. This revised version was published online in July 2006 with corrections to the Cover Date.     

昆虫病原真菌毒素对昆虫的作用机制研究进展

昆虫病原真菌是昆虫病原微生物中一个最大的类群 ,约有 75 0多种 ,寄主范围较广 ,可寄生 5个目2 4个科 2 0 0余种昆虫。 1 879年Ｍｅｔｃｈｎｉｋｏｆｆ用绿僵菌 (Ｍｅｔａｒｈｉｚｉｕｍａｎｉｓｏｐｌｉａｅ)防治奥国塞丽金龟 (Ａｎｉｓｏｐｌｉａａｕｓｔｒｉａｃａ)获得成功 ,并且生产出大量用于生物防治的绿僵菌孢子产品[1] 。随后昆虫病原微生物用来防治害虫的研究与应用渐多 ,到目前为止已有 5 0多种真菌制剂在世界各国注册使用[2 ] 。毒素被认为是昆虫病原真菌对付昆虫的一种有效手段。Ｓｕｚｕｋｉ[3 ] 和Ｃｈａｍｐｌｉｎ[4 ] 分…     

The Susceptibility of Boophilus annulatus (Ixodidae) Ticks to Entomopathogenic Fungi

The pathogenicity of five species of entomopathogenic fungi (Deuteromycetes, species: Beauveria bassiana, Metarhizium anisopliae, Metarhizium flavoviride, Paecilomyces fumosoroseus and Verticillium lecanii ) to the various developmental stages of Boophilus annulatus ticks was compared under laboratory conditions. M. anisopliae and B. bassiana strains were most virulent to engorged females and caused 85-100% mortality within 7-10 days post-inoculation (PI). The highest mortality of engorged females caused by other fungi reached only 25-60%. All tested fungi prevented or reduced the egg laying capability of the ticks several days before their death. Females surviving after treatment with the most virulent M. anisopliae strain (Ma-7) reached only 7-8% of their egg laying capacity as compared with the control. Other fungi caused a reduction of the weight of laid eggs by 35.4-80.8% as compared with untreated females. Only M. anisopliae and B. bassiana strains caused 70-98% mortality of the treated eggs. Unfed larvae of Boophilus annulatus were sensitive to M. anisopliae and M. flavoviride strains. The Ma-7 strain was most virulent to unfed larvae, with a mortality rate of 80.4% at a concentration of 1 ×107 spores ml -1 and 100% mortality at a concentration of 1 ×108 spores ml -1 .     

Antimicrobial Potential of Endophytic Fungi Derived from Three Seagrass Species: Cymodocea serrulata,Halophila ovalis and Thalassia hemprichii

Endophytic fungi from three commonly found seagrasses in southern Thailand were explored for their ability to produce antimicrobial metabolites. One hundred and sixty endophytic fungi derived from Cymodocea serrulata (Family Cymodoceaceae), Halophila ovalis and Thalassia hemprichii (Family Hydrocharitaceae) were screened for production of antimicrobial compounds by a colorimetric broth microdilution test against ten human pathogenic microorganisms including Staphylococcus aureus ATCC 25923, a clinical isolate of methicillin-resistant S. aureus, Escherichia coli ATCC 25923, Pseudomonas aeruginosa ATCC 27853, Candida albicans ATCC 90028 and NCPF 3153, Cryptococcus neoformans ATCC 90112 and ATCC 90113 and clinical isolates of Microsporum gypseum and Penicillium marneffei . Sixty-nine percent of the isolates exhibited antimicrobial activity against at least one test strain. Antifungal activity was more pronounced than antibacterial activity. Among the active fungi, seven isolates including Hypocreales sp. PSU-ES26 from C . serrulata , Trichoderma spp. PSU-ES8 and PSU-ES38 from H . ovalis , and Penicillium sp. PSU-ES43, Fusarium sp. PSU-ES73, Stephanonectria sp. PSU-ES172 and an unidentified endophyte PSU-ES190 from T . hemprichii exhibited strong antimicrobial activity against human pathogens with minimum inhibitory concentrations (MIC) of less than 10 µg/ml. The inhibitory extracts at concentrations of 4 times their MIC destroyed the targeted cells as observed by scanning electron microscopy. These results showed the antimicrobial potential of extracts from endophytic fungi from seagrasses.     

Horizontal Transmission of Entomopathogenic Fungi by the Diamondback Moth

The relative potential of the pathogenic fungi Beauveria bassiana and Zoophthora radicans for use as autodisseminated biological control agents of the diamondback moth (Plutella xylostella) was compared. The LC₅₀ of B. bassiana conidia to third instar larvae was 499 conidia/mm² of leaf surface and individual cadavers of mycosed fourth instar larvae yielded a mean of 67.5 × 10⁶ (±7.5 × 10⁶) conidia. All concentrations of B. bassiana tested in inoculation chambers (0.24, 2.4, and 6.2 μg/mm²) induced 100% mortality in adult male moths within 7 days. The times to death and sporulation were concentration and exposure duration dependent. A standard procedure for inoculating male moths resulted in >85% mortality from Z. radicans and >93% mortality from B. bassiana. Pairing of inoculated males with clean moths of both sexes yielded higher rates of passive transmission of B. bassiana than Z. radicans, but there was no evidence for sexual transmission of either pathogen. Similarly, B. bassiana was more effectively transmitted from inoculated male moths to larvae foraging on whole plants. Single sporulating cadavers producing B. bassiana or Z. radicans conidia placed on plants infested with larvae resulted in a similar rate of transmission for both pathogens. However, an increase of the density of sporulating cadavers from one to three/plant increased Z. radicans transmission (greater than fourfold) but had no effect on B. bassiana transmission. Simultaneous inoculations of larvae with conidia of both fungi reduced the mortality induced by each pathogen, the reduction being most acute for B. bassiana-induced mortality. Inoculation of adults with both fungi showed that, at concentrations required for effective passive transmission to larvae, B. bassiana severely inhibited Z. radicans mycosis in adults.     

The Use of Entomopathogenic Fungi for Control of Termites

Termites are major pests of timber and timber products which live in warm, humid environments that are conducive to the development and spread of entomopathogenic fungi. Laboratory studies have shown that termite species are highly susceptible to entomopathogenic fungi from genera including the most commonly studied species, Metarhizium anisopliae and Beauveria bassiana . There appears to be very little host specificity among fungal isolates with many isolates being highly virulent to many species of termites. The grooming and other social interactions between termites are seen to have the potential to spread the fungus through the colony, allowing for colony control by the treatment of remote feeding sites. However, factors such as avoidance of the fungus conidia by the termites, the removal and burial of fungus-killed termites, together with defensive secretions and inhibitory components in termite frass and the possibility of humoral resistance may limit the spread of the disease in the colony. Field studies have shown mixed results. Direct application of fungi to nests has resulted in complete colony mortality, but studies where feeding sites or bait stations have been treated with fungus have yet to show similar success. The effectiveness of termite control in urban pest management, particularly in structural timber and dwellings, has yet to be reported in detail. Such studies require the examination of the complex relationships between dose, speed of kill, virulence, horizontal transmission and ultimate colony death, combined with avoidance and recognition factors, and survival of the fungi under field conditions. There is currently one commercial product available in the USA.     

Control of Pyrethroid-Resistant Chagas Disease Vectors with Entomopathogenic Fungi

Background

Triatoma infestans-mediated transmission of Tripanosoma cruzi, the causative agent of Chagas disease, remains as a major health issue in southern South America. Key factors of T. infestans prevalence in specific areas of the geographic Gran Chaco region—which extends through northern Argentina, Bolivia, and Paraguay—are both recurrent reinfestations after insecticide spraying and emerging pyrethroid-resistance over the past ten years. Among alternative control tools, the pathogenicity of entomopathogenic fungi against triatomines is already known; furthermore, these fungi have the ability to fully degrade hydrocarbons from T. infestans cuticle and to utilize them as fuel and for incorporation into cellular components.

Methodology and Findings

Here we provide evidence of resistance-related cuticle differences; capillary gas chromatography coupled to mass spectrometry analyses revealed that pyrethroid-resistant bugs have significantly larger amounts of surface hydrocarbons, peaking 56.2±6.4% higher than susceptible specimens. Also, a thicker cuticle was detected by scanning electron microscopy (32.1±5.9 µm and 17.8±5.4 µm for pyrethroid-resistant and pyrethroid-susceptible, respectively). In laboratory bioassays, we showed that the virulence of the entomopathogenic fungi Beauveria bassiana against T. infestans was significantly enhanced after fungal adaptation to grow on a medium containing insect-like hydrocarbons as the carbon source, regardless of bug susceptibility to pyrethroids. We designed an attraction-infection trap based on manipulating T. infestans behavior in order to facilitate close contact with B. bassiana. Field assays performed in rural village houses infested with pyrethroid-resistant insects showed 52.4% bug mortality. Using available mathematical models, we predicted that further fungal applications could eventually halt infection transmission.

Conclusions

This low cost, low tech, ecologically friendly methodology could help in controlling the spread of pyrethroid-resistant bugs.     

Pathogenicity of Criconemella curvata to Alfalfa

Large populations of Criconemella curvata and extended experimental periods were required to adversely affect yield of ''Moapa 69'' alfalfa. C. curvata ectoparasitic feeding caused a reduction in feeder root numbers and tap root size and small lesions on tap and secondary roots. Greater reproduction occurred at 27 C than at 22 C, but the effect of the nematode on alfalfa growth was the same at both temperatures.     

Cultivation of Entomopathogenic Fungi for the Search of Antibacterial Compounds

Entomopathogenic fungi are a rich source of natural bioactive compounds. To establish cultivation conditions which facilitate the production of bioactive compounds and to select good genera among entomopathogenic fungi as the producer, 47 typical entomopathogenic fungi were tested for their ability to produce antibiotic activity. Thirty-eight strains (81%) and 30 strains (64%) of these fungi produced either anti-Bacillus compounds or anti-Staphylococcus compounds, respectively, indicating that the majority of the entomopathogenic fungi tested possessed the ability to produce antibacterial compounds. Using 9 representative strains (Aschersonia sp. HF724, Beauveria bassiana HF338, Cordyceps ramosopulvinata HF746, Metarhizium anisopliae HF293, Metarhizium flavoviride HF698, Nomuraea rileyi HF588, Paecilomyces fumosoroseus HF254, Paecilomyces tenuipes HF419, and Verticillium lecanii HF238), the cultivation conditions in liquid medium were surveyed with respect to the cultivation procedure and medium composition, particularly in terms of the presence or absence of insect-derived materials. At 26 °C, M. anisopliae HF293, N. rileyi HF588, and V. lecanii HF238 strains produced clear antibiotic activity against Bacillus and Saccharomyces, but only in the presence of insect-derived materials, suggesting that the production of antibacterial/antifungal compounds by entomopathogenic fungi is triggered by the presence of insect-derived materials.     

Order of Inoculation Affects the Success of Co-Invading Entomopathogenic Fungi

The effect of order of inoculation of Pandora blunckii and Zoophthora radicans co-infecting Plutella xylostella (L.) (Lepidoptera: Plutellidae) was investigated. After co-inoculation, the proportion of larvae infected by either species was greatly reduced compared to when they were inoculated singly. The order of inoculation influenced the final outcome; the isolate inoculated last always killed more larvae than the isolate inoculated first.     

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.     

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。     

Development of a Spray-drying Technique for Submerged Spores of Entomopathogenic Fungi

The stability of blastospores or submerged conidia of entomopathogenic fungi is one of the key problems associated with the practical use of fungal biopreparations. A spray-drying technique was developed which allows the drying of blastospores and/or submerged conidia, here called submerged spores, without a significant loss of viability and with only a slight delay in eY cacy. The method was tested successfully using the fungal species Metarhizium anisopliae , M. flavoviride, Beauveria bassiana and Paecilomyces fumosoroseus . For all experiments, a laboratory spray dryer was used. The optimum inlet and outlet temperatures were found to be 64 2oC and 48 2oC respectively. The best protective agent for submerged spores was skimmed milk powder at concentrations of 10 or 20%. The addition of sugars, especially 2.5% sugar-beet syrup, slightly improved the viability after spray-drying. Submerged spores of eight isolates of M. anisopliae, M. flavoviride, B. bassiana and P. fumosoroseus were suspended in 20% skimmed milk powder and 2.5% sugar-beet syrup, and spray-dried. Germination rates of about 90% were achieved, which were comparable to those of freshly produced submerged spores. Finally, the virulences of spray-dried submerged spores of M. anisopliae (Ma 97) and M. flavoviride (Mfl 5) were tested in bioassays using third- and fourth-instar nymphs of the African locust, Locusta migratoria . In contrast to M. flavoviride , there was no significant diVerence in the median lethal time between spray-dried and fresh submerged spores of M. anisopliae . The investigations demonstrated that spray-drying is possible to preserve sensitive submerged spores of entomopathogenic fungi.     

基因工程改良在昆虫病原真菌中的应用

昆虫病原真菌是自然界控制害虫种群的主要生物因子,其研究开发越来越受到重视。但由于存在致死速度慢、防效不稳定、对环境条件要求高等缺点,限制了昆虫病原真菌的应用。近年来,通过基因工程技术对昆虫病原真菌进行遗传改造,提高菌株的致病性和毒力,创造高效、稳定的工程菌株取得了较大进展。对昆虫病原真菌选择标记、遗传转化方法、基因工程改良及应用等方面最新研究进展进行了综述。