The entomopathogenic fungus Nomuraea rileyi impairs cellular immunity of its host Helicoverpa armigera

In this study, we investigated the effect of the entomopathogenic fungus Nomuraea rileyi on Helicoverpa armigera cellular immune responses. Nomuraea rileyi infection had no effect on total hemocyte count (THC), but impaired hemocyte‐mediated phagocytosis, nodulation, and encapsulation responses. Nomuraea rileyi infection led to a significant reduction in hemocyte spreading. An in vitro assay revealed that plasma from N. rileyi infected H. armigera larvae suppressed the spreading ability of hemocytes from naïve larvae. We infer that N. rileyi suppresses the cellular immune response of its host, possibly by secreting exogenous, cytotoxic compounds into the host's hemolymph.     

Use of a colorimetric system to detect enzymes expressed by germinating conidia of entomopathogenic fungi

An apiZYM system, with 19 substrates, was used to detect enzymes expressed by germinating conidia of Nomuraea rileyi (5 isolates), Nomuraea atypicola, Nomuraea anemonoides, Beauveria bassiana and Metarhizium anisopliae. Similar enzyme profiles were obtained for two of the N. rileyi isolates (Mississippi, Ecuador) regardless of whether culture medium (Sabouraud-maltose-yeast) or cuticle (from larvae of Trichoplusia ni, Heliothis zea or Heliothis virescens) were used as substrates. Centroid-clustering analysis revealed three distinct enzyme profiles.Mention of a proprietary product in this paper does not consitute a recommendation for use by USDA.     

Two bacteria causing farmer's lung: Fine structure ofThermoactinomyces vulgaris andSaccharopolyspora rectivirgula

Larval cuticle ofHelicoverpa (Heliothis)zea and yeast extract added to a minimal medium (MM) induced germination of conidia ofNomuraea rileyi whereas sterile distilled water or MM alone did not. Yeast extract increased mycelial yield, but when cuticle was added, mycelial yield significantly decreased. Proteases and chitinases ofN. rileyi were only expressed when cuticle was added to the MM.This article reports the results of research only. Mention of a proprietary product in this paper does not constitute a recommendation for use by US Department of Agriculture.     

Inhibition of phagocytic activity and nodulation in Galleria mellonella by the entomopathogenic fungus Nomuraea rileyi

Changes in phagocytic activity and nodulation in the greater wax moth, Galleria mellonella (L.) (Lepidoptera: Pyralidae), were examined after treatment with the culture fluid of the entomopathogenic fungus Nomuraea rileyi SH1. When isolated hemocytes of G. mellonella were incubated with the conidia of N. rileyi in vitro, the rates of phagocytosis increased at 4 h after incubation but decreased subsequently. On the contrary, the rates of phagocytosis of isolated hemocytes decreased by 80% after 24 h preincubation with the fungal culture fluid (1/200, 1/100 dilutions). Levels of inhibition of phagocytic activity by the culture fluid depended on dilutions used. Galleria mellonella larvae showed a peak of nodulation at 4 h after injection with conidia. The percentage of nodules in hemolymph did not decrease by preinjection with the culture fluid, whereas the percentage of nodule‐containing conidia decreased, depending on the injected fluid. However, phagocytosis and nodulation in G. mellonella did not change after treatment of the culture fluid with proteinase K, indicating that the culture fluid contained proteinaceous immunosuppressive factors. Electrophoretic analysis of the culture fluid and not the fresh medium without culturing the fungus exhibited protein bands. Therefore, N. rileyi possibly secretes toxic proteins that impair cellular immune responses in G. mellonella larvae.     

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.     

Protein Profile of <Emphasis Type="Italic">Nomuraea rileyi</Emphasis> Spore Isolated from Infected Silkworm

Nomuraea rileyi (N. rileyi) is the causative agent of the silkworm, Bombyx mori, green muscardine which can cause severe worldwide economical loss in sericulture. Little is known about N. rileyi at the protein level for this entomopathogenic parasite which belongs to the Ascomycota. Here, we employed proteomic-based approach to identify proteins of N. rileyi spores collected from the dead silkworm. In all, 252 proteins were separated by two-dimensional gel electrophoresis (2-DE), and were subjected to mass spectrometry (MS) analysis, 121 proteins have good MS signal, and 24 of them were identified due to unavailability of genomic information from N. rileyi. This data will be helpful in understanding the biochemistry of N. rileyi.     

Cuticular and non-cuticular substrate influence on expression of cuticle-degrading enzymes from conidia of an entomopathogenic fungus,Nomuraea rileyi

Larval cuticle fromTrichoplusia ni, Helicoverpa (=Heliothis)zea, andHeliothis virescens and a cellulose substrate were used to quantify release of proteolytic, chitinolytic, and lipolytic enzymes by germinating conidia of the entomopathogenic fungus,Nomuraea rileyi. There was no significant difference in conidial viability incubated withT. ni, H. zea or cellulose substrates. Conidial viability onH. virescens cuticle, however, was significantly lower (ca. 19–25%) than the other three substrates. The presence of cuticle substrates, especially cuticle ofT. ni, stimulated germination. The nature of the substrate influenced both the time and quantity of the enzymes expressed. Specific proteases (aminopeptidase, chymoelastase, trypsin) generally were expressed earlier and/or in greater quantities on cuticular than on the cellulose substrate. Although both chitinolytic enzymes (endochitinase, N-acetylglucosaminidase) were detected on all three cuticular substrates, their activity was substantially lower than that of the proteolytic enzymes. Lipase activity was only minimally present. Early concurrent release of both proteases and chitinases suggested that both may be important in the penetration of the larval integument by germinating conidia ofN. rileyi. Expression of proteases and chitinases, especially aminopeptidase and endochitinase was probably a specific response to cuticle, because little or no activity was expressed on the non-host, cellulose substrate.This article reports the results of research only. Mention of a proprietary product in this paper does not constitute a recommendation for use by the US Department of Agriculture.     

Molecular phylogeny of asexual entomopathogenic fungi with special reference to Beauveria bassiana and Nomuraea rileyi

The phylogenetic lineage, taxonomic affiliation and interrelationships of important asexual entomopathogenic fungal genera were studied using the sequences of partial regions of β-tubulin and rRNA genes. The species structures of Beauveria bassiana and Nomuraea rileyi were also investigated. A total of 147 fungal entries covering 94 species were analysed. Phylogenetic analysis placed all the asexual entomopathogenic fungal species analysed, in the family Clavicipitaceae of the order Hypocreales of Ascomycota. Deep phylogenetic lineages were observed in B. bassiana iterating the complex nature of this species. Some of the isolates assigned to this species separated out more distinctly than morphologically distinguishable genera. Cryptic speciation was also evident in N. rileyi. It is concluded that the asexual fungi with entomopathogenic habit arose from a single lineage in sexual Clavicipitaceae.     

Characterization of a Germination-Accelerating Factor from the Silkworm (Bombyx mori Linnaeus) of Entomopathogenic Fungus Nomuraea rileyi (Farlow) Samson

The conidium of the entomopathogenic fungus, Nomuraea rileyi, has been found to germinate rapidly in the presence of a host insect-derived extract. This extract therefore appears to contain an important factor involved in host recognition by N. rileyi, although the substance (germination-accelerating factor, GAF) responsible for such unique germination behavior has yet to be identified. Our previous study was extended to the isolation of GAF from pupae of the silkworm, a host insect of N. rileyi. This present work subjects GAF to a structural analysis. The chemical structure of GAF is characterized as 2S-amino-tetradeca-4-ene-1,3R-diol (D-erythro-C₁₄-sphingosine) based on spectroscopic data. An examination of the structure-activity relationship shows that the activity of D-erythro-C₁₄-sphingosine was superior to that of sphingosines with shorter and longer carbon chains. It is suggested that the molecular species with a 14-carbon chain of a sphingosine is important for host recognition.     

Optimization of extracellular lipase production from the biocontrol fungus Nomuraea rileyi

Lipases are important cuticle-degrading enzymes that hydrolyze the ester bonds of waxes, fats and lipoproteins during the infection of insects by the fungus Nomuraea rileyi. Lipase production by the N. rileyi strain MJ was optimized by varying environmental and nutritional conditions in culture medium containing different vegetable oils at various concentrations with shaking at 150 rpm for 8 days at 25°C. The maximum lipase production was obtained using castor oil (30.5±0.6 U mL^?1), followed in order by coconut oil (20.8±0.4 U mL^?1), olive oil (20.8±0.4 U mL^?1) and cottonseed oil (20.6±0.4 U mL^?1). The highest lipase activity (37.7±0.4 U mL^?1) was obtained when castor oil was used at a concentration of 4% (v/v) of basal medium. When the surfactant Tween 80 was added at the fourth day rather than at the beginning of incubation, a maximum lipase activity of 44.9±3.5 U mL^?1 was obtained. The optimal temperature and pH for lipase production were 25°C and pH 8.0, respectively. This is the first report on lipase production by the biocontrol fungus N. rileyi.     

Pathogenicity of entomopathogenic hyphomycetes, Paecilomyces fumoso-roseus and Nomuraea rileyi, to eggs of noctuids, Mamestra brassicae and Spodoptera littoralis

Bioassays were conducted to determine the susceptibility of egg masses of Mamestra brassicae and Spodoptera littoralis to different spore doses of Paecilomyces fumoso-roseus and Nomuraea rileyi at 20° and 25°C. P. fumoso-roseus was highly virulent against eggs, whereas N. rileyi provoked only a deferred mortality of larvae hatched from treated eggs. Nevertheless, larval mortality of S. littoralis caused by N. rileyi at 25°C was more effective after first-instar larval contamination than after egg mass treatment. The duration of the egg stage could explain differences of susceptibility between the two noctuids at 25°C. Scanning electron microscopical observations suggested two ways of contamination of newly hatched larvae. First, fungal germinations on the chorion surface suggested that newly hatched larvae might be infected by penetration of the egg integument before hatching. Second, conidia on the egg cuticle could be an entomopathogenic inoculum for newly emerging larvae which fed upon chorions. Results showed that pathogenicity of Hyphomycetes to noctuid eggs might be a promising area of investigation for biological control.     

Characterization of an Indonesian Isolate of Paecilomyces reniformis

An entomopathogenic fungus (IndGH 96), identified as Paecilomyces reniformis, was isolated from long-horned grasshoppers (Orthoptera: Tettigoniidae) in Sulawesi, Indonesia. The phenotypic and molecular data identified the IndGH 96 as a P. reniformis. We present the first comprehensive characterization of this species using morphological features, sequencing of the ITS1-5.8s-ITS2 region, D1/D2 region of 28S of rDNA, and a portion of the tubulin gene, and laboratory bioassays. Distinguishing features include a hyphal body stage during vegetative growth and the production of distinctly curved, light-green conidia. High dosage bioassays showed that IndGH 96 was infectious to both long-horned and short-horned grasshoppers but not to the house cricket, Acheta domestica, or to the lepidopterans velvetbean caterpillar, Anticarsia gemmatalis or fall armyworm, Spodoptera frugiperda. Phenotypic and genetic analyses suggest that IndGH 96 and other isolates of P. reniformis are more closely related to Nomuraea rileyi than to other species of Paecilomyces.     

Larval parasitoids and pathogens of the fall armyworm in honduran maize

Parasitism by natural enemies of all larval instars of the fall armyworm (FAW),Spodoptera frugiperda, was quantified in 5 Honduran maize fields during the 1984 growing season. Overall, 42.0% of the host larvae were killed by the natural enemy complex. The braconid parasitoidChelonus insularis was the most common natural enemy accounting for 36.8% of the complex and causing 15.5% mortality of FAW larvae. Other important natural enemies included the nematodeHexamermis sp., the tachinidLespesia sp. and the imperfect entomopathogenic fungusNomuraea rileyi. Distinct ranges of larval instars were attacked by several natural enemy species.Chelonus insularis was an important FAW natural enemy at all larval densities observed. Florida Agricultural Experiment Station Journal Series No. 8650 and MIPH-EAP No. 146.     

Susceptibility of Oryctes rhinoceros adults to Metarrhizium anisopliae

The susceptibility of Oryctes rhinoceros adults to infections due to entomopathogenic fungi (Beauveria bassiana, Beauveria tenella, Metarrhizium anisopliae, Paecilomyces fumoso-roseus, and Spicaria rileyi) was studied by spraying titrated spores suspensions on the insect integument. The results show a definite susceptibility of the adults to Metarrhizium anisopliae strains of the major type only.     

Cost-effective multiplication of the entomopathogenic fungus Nomuraea rileyi (F) Samson

Cost-effective and rapid multiplication of Nomuraea rileyi is reported. The spore yields in semi-synthetic media were comparable or significantly higher to the standard medium. Maltose and peptone, carbon and nitrogen sources could be effectively replaced with 2% barley extract and 1% soybean extract respectively. However, replacement of yeast extract with dry yeast resulted in lower spore yields. Sporulation of the fungus multiplied on solid substrate was possible only when the bags used had a 0.2 m filter to facilitate passive exchange of sterile air. A high spore yield of 2.8 × 10⁹/g of substrate was realized on crushed sorghum.This revised version was published online in October 2005 with corrections to the Cover Date.     

Metarhizium (Nomuraea) rileyi as biological control agent

Metarhizium rileyi is an entomopathogenic fungus of Lepidoptera and infects many noctuids, which are key pests of agricultural crops. In this literature review, we summarise the state of art and use of this potential biological pest control agent. Pathogen–host interactions include conidial adhesion, invasion process, and enzymatic activity. Environmental factors that impact the productivity associated with this fungus such as environment temperature, humidity, and availability of spores are discussed. Recent research has focused on enzymatic aspects related to pathogenicity, in which the cause is not fully elucidated yet. More than 60 known host species, mainly lepidopterans, are listed. Non-susceptible species, including predatory insects, are also presented. The difficulty of mass production and the formulation are the principal obstacles in use of M. rileyi. We summarise the challenges necessary to better utilise this agent in biocontrol and suggest novel research approaches, including the development of commercial and technically viable formulations.     

红色诺卡菌固体培养基配方的优化

应用响应面优化设计法优化固体培养基配方,增大红色诺卡菌的固体培养细胞生物量。首先用Plackett-Burman法从现有培养基组分中找到影响红色诺卡菌细胞生物量的关键因素,再通过最陡爬坡法确定细胞生物量最大的配方,用作中心组合设计(Central Composite Design, CCD)实验的基础起始值,拟合数学模型方程,最后找到最优组分的组合。优化的配方转移至企业实施放大实验,对结果进行验证和比较。试验结果表明,培养基各组分中影响红色诺卡菌细胞生物量的关键因素为蛋白胨、NaCl、牛肉膏;最优固体培养基配方:蛋白胨42 g/L、牛肉膏8 g/L、NaCl 1.2 g/L、甘油10 mL/L、Na_2HPO_4·12H_2O 0.3 g/L、琼脂20 g/L。在细胞生物量方面最优固体培养基配方比原配方高104%。响应面优化设计可用于提高红色诺卡菌细胞生物量固体培养基的优化,也为红色诺卡菌培养条件、液体发酵的优化研究提供参考。     

First Report of a New Isolate of <Emphasis Type="Italic">Metarhizium rileyi</Emphasis> from Maize Fields of Quivicán,Cuba

Metarhizium rileyi (Farlow) Samson is an important entomopathogenic fungus of more than 30 species of Lepidoptera larvae. The aim of this research was to characterize isolate of M. rileyi from Quivicán, Cuba on the basis of morphological and molecular approaches. The fungus was isolated from samples of S. frugiperda larvae collected from maize fields of Quivicán municipality, Mayabeque province, Cuba, and it was cultured on PDA?+?Ampicillin solid media for morphological characterization. The DNA was isolated using CTAB method and internal transcribed spacer (ITS1, ITS4) were used as the primers for the amplification. The amplified products of 1335 bp were purified and sequenced at CINVESTAV-IPN in both the directions using the above primers. A consensus sequence was obtained by alignment of the forward and reverse sequences for this region and deposited in GenBank (MG637450). The fungus produced slightly cottony colony of pale green color and dispersed conidia and septal mycelium were observed under the optical microscope. A BLAST search of the sequence in GenBank revealed a 99% of identity with several strains of N. rileyi (e.g., AF368501.1, AB268359.1 and EU553337.1) and M. rileyi (e.g., KY436756.1). This is the first report of M. rileyi isolate from maize fields of Quivicán in Cuba and this is important for biodiversity studies and is another possibility for Integrated Pest Management.     

Lipid composition of the entomopathogenic fungus Nomuraea rileyi

The total lipid content, neutral and polar lipid composition, and fatty acid profiles were determined for the different developmental stages of the entomopathogenic fungus, Nomuraea rileyi. In general, the lipid composition of N. rileyi was found to be very similar to that of other Fungi Imperfecti. Triacylglycerides and sterols were the major neutral lipids and phosphatidylethanolamine, phosphatidylinositol, and phosphatidylserine were the major polar lipids. Phosphatidylcholine, resolved in conidial and mycelial samples, was not detected in hyphal body samples. The major fatty acids were palmitic, oleic, and linoleic. Stearic acid was detected as a minor component of hyphal body samples. During conidiogenesis the overall lipid composition was altered in (1) a reduction in total lipid content, (2) an increase in the polar/neutral lipid ratio, and (3) an increase in the degree of fatty acid unsaturation.