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.     

Isopestacin,an isobenzofuranone from Pestalotiopsis microspora,possessing antifungal and antioxidant activities

Isopestacin is an isobenzofuranone obtained from the endophytic fungus Pestalotiopsis microspora. While a few other isobenzofuranones are known from natural sources, isopestacin is the only one having a substituted benzene ring attached at the C-3 position of the furanone ring. The compound was isolated from culture broths of the fungus and crystallized and its structure was determined by X-ray crystallography. Both proton and carbon NMR spectral assignments are also reported for isopestacin. This compound possesses antifungal activity and, as measured by electron spin resonance specroscopy, it also behaves as an antioxidant scavenging both superoxide and hydroxy free radicals.     

Muscodor albus and its biological promise

We have found a novel fungal genus that produces extremely bioactive volatile organic compounds (VOCs). This fungal isolate was initially discovered as an endophyte in Cinnamomum zeylanicum in a botanical garden in Honduras. This endophytic fungus, Muscodor albus, produces a mixture of VOCs that are lethal to a wide variety of plant and human pathogenic fungi and bacteria. It is also effective against nematodes and certain insects. The mixture of VOCs has been analyzed using GC/MS and consists primarily of various alcohols, acids, esters, ketones, and lipids. Final verification of the identity of the VOCs was carried out by using artificial mixtures of the putatively identified compounds and showing that the artificial mixture possessed the identical retention times and mass spectral qualities as those of the fungal derived substances. Artificial mixtures of the VOCs nicely mimicked the biological effects of the fungal VOCs when tested against a wide range of fungal and bacterial pathogens. Potential applications for “mycofumigation” by M. albus are currently being investigated and include uses for treating various plant parts, and human wastes. Another promising option includes its use to replace methyl bromide fumigation as a means to control soil-borne plant diseases.     

植物环肽及其可能的生物合成途径

植物环肽是一个庞大的小分子天然产物家族,通常由4—10个氨基酸残基组合而成。该类化合物广泛存在于全球多种植物的根、茎、枝、叶及种子中,中草药中也时有发现。由于对其生物合成途径及机理研究较少,环肽分子的利用价值尚未得到有效的开发。和常见的非环状基因编码的多肽或蛋白质相比,环肽结构更为复杂。本文将对植物环肽的生物合成途径及其机理做初步探讨。     

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.     

Potential versus actual contribution of vertical transmission to pathogen fitness

Theory predicts that virulent parasites cannot be maintained at high prevalence if they are only vertically transmitted. However, parasites with high rates of vertical transmission that cause severe reduction in host fitness have been reported. Atkinsonella hypoxylon is a fungal pathogen capable of both vertical and horizontal transmission that drastically reduces its host''s fitness. In contrast with theoretical predictions, field and laboratory observations suggested that the primary mechanism of transmission was vertical. Using randomly amplified polymorphic DNA markers, we investigated the effective contribution of vertical and horizontal transmission to the genetic structure of three natural populations of A. hypoxylon. We found high genotypic diversity and low linkage disequilibrium, indicating that most established genotypes are derived from horizontally transmitted, sexual spores. The low contribution of vertical transmission to the parasite''s fitness despite its high potential might be due to lower establishment of cleistogamous seeds (through which vertical transmission occurs) or lower vigour of vertically transmitted fungal genotypes. Low establishment of vertically infected hosts might explain the persistence of virulent parasites with high apparent vertical transmission. Our results suggest that caution must be taken when using the potential for vertical transmission to make predictions about the evolution of parasite virulence.     

Application of Metarhizium flavoviride (Deuteromycotina: Hyphomycetes) Spores Against the Tree Locust, Anacridium melanorhodon (Orthoptera: Acrididae), in Sudan

Spores of the entomopathogenic fungus Metarhizium flavoviride were applied against the tree locust Anacridium melanorhodon melanorhodon in the field for the first time. The treated areas covered a total of 55 ha in the vicinity of Tendelti in the White Nile State of Sudan. At a dose of 100 g of spores/ha applied in 5 l of oil formulation, the application led to a reduction in population densities of 66-76% after 18 days. Correction of the data with the Henderson/ Tilton formula gave an overall control efficiency of 68%.     

Correlation between pectate lyase activity and ability of diazotrophic Klebsiella oxytoca VN 13 to penetrate into plant tissues

Diazotrophic Klebsiella oxytoca VN 13 was able to lyse pectate, but the lytic activity of cultures grown on non-selective media was weak, and the enzyme was located mainly inside the cells. A small fraction of the population (10^-6 to 10^-5) was able to grow in a selective medium with sodium polygalacturonate as sole carbon source, and produced increased amounts of the pectinolytic enzyme pectate lyase. When wheat seeds were inoculated with these bacteria, increased levels of this enzyme correlated with a higher rate of internal colonization of wheat roots and with stimulation of wheat growth resulting in higher biomass. This suggests that colonization occurs via lyzed pectin layers. This revised version was published online in June 2006 with corrections to the Cover Date.     

Fungal endorhizal associates of Equisetum species from Western and Arctic Canada

We describe endorhizal fungi associated with Equisetum species collected from Ellesmere Island (82°N), Axel Heiberg Island (80°N), and from sites in Yukon Territory and the Prairie Provinces (51–67°N). Fungal colonization was assessed using a multiple quantitation microintersect method for lactofuchsin-stained roots examined with wide-field and confocal epifluorescence microscopy. Equisetum roots host abundant and diverse endorhizal fungal associates. For 85 specimens from 14 sites, total colonization averaged 30 ± 3%, range 0–97%. Colonization rates for wide aseptate hyphae characteristic of arbuscular mycorrhizae (5 ± 1%) was significantly less than for fine endophytes (20 ± 3%) or septate endophytes (17 ± 2%). Equisetum spp. are abundant in tundra and an important understory plant in boreal forests, where they are particularly common on burned or disturbed sites. Endorhizal fungi associated with Equisetum may have broad ecological relevance.     

转几丁质酶基因防植物病害研究:进展、问题与展望

综合评述了近几年转几丁质酶基因防植物病害研究中的发现与进展：（１）至少３１种病原真菌（含变种和专化型）可诱导植物几丁质酶,（２）据称已提纯的植物几丁质酶对立枯丝核菌等真菌呈现了体外抑菌活性;（３）一些生防细菌的防病作用依赖于其几丁质酶基因的存在;（４）数种植物几丁质酶基因和一种细菌几丁质酶基因已被转入水稻、烟草、番茄等植物,一些转基因株系抗病性显著增强;（５）粘质沙雷氏菌的一种几丁质酶基因已被转入荧光假单胞菌和根瘤菌中,转基因细菌对立枯丝核菌有显著抑制作用。就几丁质酶抑菌谱、转基因的策略和研究中存在的疑点进行了分析讨论。建议今后的研究方向应集中在以下几方面：（１）加速转几丁质酶基因或几丁质酶基因与其它基因组合的植物实用化;（２）进一步研究不同基因组合的增效作用及增效机理;（３）查明个别几丁质酶基因的抑菌谱及选择性抑菌机制;（４）转几丁质酶基因或与其它基因的组合于植物内生细菌。     

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.     

Antifungal and cytotoxic activities of the secondary metabolites from endophytic fungus Massrison sp.

Three novel compounds with spiro-5, 6-lactone ring skeleton has been isolated from the fermentation broth of Massrison sp. which could be isolated repeatedly from wild Rehmannia glutinosa. Psetariae oryza P-2b was applied to guide fractionation of bioactive compounds produced by Massrison sp. The molecular structures were established by a variety of one- and two-dimensional NMR experiments and the compounds with similar skeleton were reported for the first time from endophytic fungi of terraneous plant. Antifungal and cytotoxic activities of the compounds were tested, compounds 2 and 3 displayed stronger antifungal and cytotoxic activities. The compounds have the potential to be antibiotic against fungal pathogens and tumor cells.     

Infection of the Coffee Berry Borer Hypothenemus hampei (Coleoptera: Scolytidae) by Brazilian Isolates of the Entomopathogenic Fungi Beauveria bassiana and Metarhizium anisopliae (Deuteromycotina: Hyphomycetes)

The virulence of four fungal isolates (three Beauveria bassiana and one Metarhizium anisopliae ) against adult female coffee berry borers (CBB) was investigated. The most virulent isolate from initial bioassays, B. bassiana LPP1, with a LT 50 of 3.4 days, was further investigated by application to berries prior to infestation and to berries already infested with CBB. At the highest concentration applied to berries (1 ×10 7 conidia mL -1 ), CBB mortality was 83% (berries inoculated prior to infestation) and 62% (berries inoculated after infestation).     

转录组分析罗伯茨绿僵菌精胺合成酶MrSPS介导真菌血腔定殖功能

【背景】精胺在植物应对逆境胁迫、动物抵抗疲劳和衰老、真菌生长代谢等过程中发挥重要作用,但目前在昆虫病原真菌中的研究未见报道。【目的】在分子水平上探究罗伯茨绿僵菌精胺合成关键酶——精胺合成酶在昆虫血腔定殖中的作用机制。【方法】显微注射法测定Mrsps敲除株ΔMrsps的致病力变化,并观察血腔中ΔMrsps生长状态;收集ΔMrsps和野生型WT注射侵染30 h后的大蜡螟血淋巴进行转录组测序,分别与罗伯茨绿僵菌和大蜡螟参考基因组进行比对分析,并结合定量PCR进行验证。【结果】与WT和回补株ΔMrsps-cp相比较,ΔMrsps致病力显著下降,而且随着注射浓度的降低,ΔMrsps致病力下降越显著。侵染36 h后WT和ΔMrsps孢子都能正常萌发且开始以类酵母状态生长,60 h后,相较于WT,ΔMrsps的生长繁殖数量较少。转录组共检测到3 202个罗伯茨绿僵菌基因,其中1 769个基因在ΔMrsps中表达上调,922个基因表达下调;差异表达基因涉及碳水化合物代谢、运输、分解代谢、翻译和氨基酸代谢等多条途径;筛选出28个血腔致病相关基因全部在ΔMrsps中表达下调;定量PCR检测发现在整个血腔定殖阶段免疫逃避蛋白Mcl1基因和血腔定殖Colonization of hemocoel 1基因在WT和ΔMrsps-cp中的表达量高于ΔMrsps。共检测到13 249个大蜡螟基因,其中4 026个差异表达基因;KEGG注释分析显示大量差异表达基因富集到内分泌系统和免疫系统等途径;深入分析发现22个差异表达基因归属于Toll和Imd信号通路,其中18个基因在ΔMrsps侵染的大蜡螟中表达上调,表明ΔMrsps侵染大蜡螟过程中更易引起免疫系统的激活。【结论】揭示了Mrsps在罗伯茨绿僵菌血腔定殖阶段作用的分子机制,为进一步揭示精胺在真菌中的作用机理提供了理论基础。     

绿僵菌属的三个新种

作者从广东、贵州、北京等地收集的虫生真菌中,发现在我国具有绿僵菌属特征的真菌可分为四个种。根据菌落颜色、分生孢子团块大小、紧密和牢固程度、孢子链连接方式、分生孢子形状等,将我们收集的属于本属的菌株分为四个种。本文报道绿僵菌属三个新种的描述。金龟子绿僵菌Metarhizium anisopliae(Metsch.)Sorokin为最常见的甘蔗金龟子致病菌,是本属的模式种。平沙绿僵菌Metarhizium pingshaense Chen et Guo sp.nov.、柱孢绿僵菌Metarhizium cylindrosporae Chen et Guo sp.nov.和贵州绿僵菌Metarhizium guizhouense Chen et Guo sp.nov.是三个新种。