Comparison of peptidase activities in some fungi pathogenic to arthropods

Peptidases, highly specific toward several synthetic chromogenic peptides, were found in the mycelia of four arthropod pathogenic fungi: Aphanomyces astaci, Beauveria bassiana, Metarrhizium anisopliae, and Paecilomyces farinosus. A. astaci peptidases had high hydrolyzing activities toward most of the peptides, especially those with arginine in the P1 position, while those of B. bassiana and P. farinosus readily hydrolyzed peptides with valine and arginine, as well as proline and tyrosine in the P2 and P1 positions, respectively. The hydrolyzing capacities of M. anisopliae peptidases were similar to A. astaci, but showed lower specific activities. Casein or azocoll was only hydrolyzed by A. astaci peptidases. B. bassiana and M. anisopliae had a very low hydrolyzing capacity toward casein and could not degrade azocoll. P. farinosus had no hydrolyzing activity toward casein or azocoll. Only peptidases from the crayfish pathogen A. astaci could degrade the crayfish cuticle. The peptidase preparations of A. astaci and B. bassiana hydrolyzing MeO-Suc-Arg-Pro-Tyr-pNA or Bz-Phe-Val-Arg-pNA were of the serine type. The possible importance of peptidase activity of arthropod pathogenic fungi in the infection process is discussed.     

Impact of Paecilomyces lilacinus Inoculum Level and Application Time on Control of Meloidogyne incognita on Tomato

Microplot experiments were conducted to evaluate the effects of inoculum level and time of application of Paecilomyces lilacinus on the protection of tomato against MeIoidogyne incognita. The best protection against M. incognita was attained with 10 and 20 g of fungus-infested wheat kernels per microplot which resulted in a threefold and fourfold increase in tomato yield, respectively, compared with tomato plants treated with this nematode alone. Greatest protection against this pathogen was attained when P. lilacinus was delivered into soil 10 days before planting and again at planting. Yield was increased twofold compared with yield in nematode-alone plots and plots with M. incognita plus the fungus. Percentages of P. lilacinus-infected egg masses were greatest in plots treated at midseason or at midseason plus an early application, compared with plots treated with the fungus 10 days before planting and (or) at planting time.     

Effects in vitro of nine fungicides on growth of entomopathogenic fungi

The effects of nine fungicides were evaluated in vitro on the entomopathogenic fungi Beauveria bassiana, Conidiobolus coronatus, C. thromboides, Metarhizium anisopliae, Paecilomyces farinosus, P. fumosoroseus, Scopulariopsis brevicaulis and Verticillium lecanii. The susceptibility of the fungi to the fungicides varied. The dithiocarbamate derivations zineb + copper oxychloride, and mancozeb completely inhibited germination of C. coronatus, C. thromboides, B. bassiana, P. farinosus, M. anisopliae and V. lecanii. The fungicides triadimefon, copper oxychloride, metalaxyl, sulfur, sulfur + nitrothal‐isopropyl and hymexazol exhibited various effects on the fungi. Usually, fungistasis was more pronounced at 15°C than at 25°C and the inhibitory effects were in direct proportion to the dosage of active ingredient (recommended field rate, 10‐fold higher and 10‐fold lower). In a few combinations, fungi partially overcame or even recovered from the initial inhibition of growth which might have resulted from delayed germination. In other cases, inhibition of growth occurred only after a delay and its intensity increased with time. Stimulation of fungal growth when it occurred was rarely permanent. Generally, adverse effects were much greater against the entomophthoraleans C. coronatus and C. thromboides than against the Hyphomycetes. Extrapolation of the results to practice and to the field situation is difficult. Nevertheless, the data presented give an idea of possible side‐effects in nature.     

Rapid Determination of Conidial Viability for Entomopathogenic Hyphomycetes Using Fluorescence Microscopy Techniques

The viability of conidia from two species of deuteromycetes fungi pathogenic to insects was determined using two fluorochrome stains, fluorescein diacetate (FDA) and propidium iodide (PI). These stains were used either alone or in combination, and results were compared with standard conidial germination tests. FDA fluoresces bright green in viable conidia and PI fluoresces red in non-viable conidia, when viewed using specific fluorescence microscopic techniques. Conidia from two isolates of Paecilomyces fumosoroseus (Wize) Brown and Smith and two isolates of Beauveria bassiana (Balsamo) Vuillemin were evaluated. Conidia were suspended in deionized water and half of each suspension was treated with microwave radiation to kill all the conidia. Conidia were tested for viability in non-microwaved suspensions in a mixture (ca. 1:1) of viable and non-viable conidial suspensions, and in the microwaved suspensions that contained all non-viable conidia. No significant differences were observed for the four isolates tested between germination tests on water and agar and viability tests conducted with FDA alone or FDA in combination with PI. One isolate of B. bassiana that had been damaged in storage was also tested. Differences were observed between the actual germination and the percentage of viability determined using FDA or FDA plus PI. Damaged conidia maintained a measure of viability and fluoresced green, but did not fully germinate.     

粉拟青霉异核性研究

本文通过细胞核染色和遗传分析的方法证明了粉拟青霉的异核性。在遗传分析中采用酶解菌丝细胞壁及原生质体再生的方法,得到了组分同核体;同核体又配接重新形成了与原菌株性状相似的异核体。细胞核染色显示粉拟青霉分生孢子为单细胞多核,结合其它现象,证明了在其生活史中异核性是稳定的。表明该菌田间分离株是永久性异核体。这一现象与已报道的分生孢子为单核的虫生真菌异核现象不同,了解这一现象及其实质对认识该菌生理、菌种改良以及提高野外防治害虫的效果有重要意义。     

Modelling the Persistence of Quiescent Conidia of the Entomopathogenic Hyphomycete Paecilomyces fumosoroseus Exposed to Solar Radiation

Persistence of conidia of the entomopathogenic fungus Paecilomyces fumosoroseus exposed to artificial and solar radiation at a constant temperature was studied by monitoring the ability to germinate and to form colonies (colony - forming units , CFUs) . The photic effect of radiation on each of these variables was modelled by a decreasing function of UVB irradiation ( in J m 2) . Germination ability was represented by a logistic function and viability (log CFU) by an infinitely decreasing function . Experiments carried out under artificial conditions , at three different UVB irradiances ( from 0 . 3 to 1 . 6 W m 2) , similar to those observed in nature , confirmed the adequacy of the predictor variable and of the functions chosen for describing these data . The proposed models appeared to be irradiance independent . Under solar radiation , the models were able to describe data collected on three different summer days in France (48 o 51 N , 2 o 06 E) . However , it took a greater amount of solar UVB radiation to produce the same effect as that achieved indoors . This could be explained by differences in radiation spectra . For each model , one set of parameters was sufficient for representing all three sets of data: this constitutes an initial validation of the models proposed .     

蛹虫草MF27菌糠多糖对肝细胞氧化损伤的保护作用

蛹虫草是一种可利用大米、小麦等谷物培育的名贵药用真菌,其采收后的菌糠里仍富含许多生物活性物质。本研究立足于蛹虫草菌糠多糖,先分析其化学抗氧化活性,再以H₂O₂诱导氧化应激损伤的LO2细胞为模型,评价其对肝细胞氧化损伤的保护作用,进而解析活性多糖的单糖组分。结果显示,菌糠多糖能够有效清除DPPH自由基、羟基（?OH）自由基和ABTS自由基,EC₅₀分别为0.26mg/mL、1.03mg/mL、0.57mg/mL,提示其具有良好的抗氧化能力;在H₂O₂诱导氧化应激损伤的LO2细胞中,菌糠多糖能有效地保护细胞形态的完整性,并且随浓度梯度递增式地提高细胞存活率,当多糖浓度为5mg/mL时,细胞存活率可达91.83%;在分析其作用机制上,与模型组对比,菌糠多糖能通过调节细胞抗氧化酶SOD（提高4.91倍）和CAT（提高3.40倍）的表达来清除ROS含量（P<0.01）,降低氧化损害;经检测,虫草菌糠活性多糖主要含有葡萄糖、甘露糖、半乳糖、阿拉伯糖、葡萄糖醛酸、木糖、半乳糖醛酸、鼠李糖和岩藻糖等单糖。研究结果表明蛹虫草MF27菌糠多糖具有保护肝细胞氧化损伤的作用,为进一步开发和利用虫草菌糠提供了重要理论依据。     

与蝉花有关的虫草菌生物多样性的研究I：文献考证

蝉花是我国重要药用真菌,但长期以来其名称特别是学名的使用一直混乱。本文从古代医药典籍记载确认,“蝉花”是历史最久、使用最广的中名,对于其他中名具有优先权。其学名Isaria cicadae系Miquel（1838）根据巴西标本命名,但模式标本已失,原描述文字及插图均极其简单,与蝉花形态差异较大。其有性型迄今未发现,曾先后被认为是小蝉草Ophiocordyceps sobolifera和大蝉草Tolypocladium dujiaolongae (=Cordyceps cicadae Shing)。本文根据文献考证澄清了国内外关于小蝉草和大蝉草的误用,分析了长期以来大量日本文献中的命名混乱对我国认知蝉花的影响,并质疑I. cicadae在中国及其他地区的分布,提出它是一复合种,因此蝉花的分类地位及学名需要进一步研究。     

蛹虫草菌生物合成虫草素的研究进展

蛹虫草Cordyceps militaris是我国传统的药用真菌,虫草素是蛹虫草的主要活性成分,具有抗癌、抗肿瘤、抗病毒等多种生理功能。蛹虫草菌液体发酵是最有希望实现高效生产虫草素的途径,但现阶段生产强度低,亟需应用发酵工程及代谢工程手段提高虫草素产量。文中对液体发酵体系中培养基组分(碳/氮源、前体物质、金属离子等)和培养条件(pH、溶氧量、光照等)对虫草素产量的影响进行了总结,并对虫草素的分离纯化、生物合成基因簇及合成代谢途径进行了阐述,最后探讨了实现虫草素高效生产的关键环节。     

蛹虫草菌粉胶囊抑制肺部炎症及缓解肺纤维化的研究

传统中药可治疗肺炎。新型急性呼吸综合征冠状病毒2型（SARS-CoV-2）外部囊膜上的S蛋白是决定病毒毒力的关键因素及主要抗原。本研究利用SARS-CoV-2病毒的S蛋白和细菌脂多糖（LPS）诱导的肺炎模型,初步探索了蛹虫草菌粉对肺炎模型的促炎性因子、单核/巨噬细胞和髓源抑制性细胞（MDSCs）以及纤维化的调节作用。研究发现蛹虫草菌粉可降低SARS-CoV-2病毒的S蛋白组和LPS组小鼠血清中TNF-α、IL-6和IL-10的表达,并降低肺组织、肺泡灌洗液和外周血中巨噬细胞的比例,降低外周血和脾脏中MDSC的数量。进一步研究发现,蛹虫草还可降低SARS-CoV-2病毒的S蛋白组和LPS组小鼠肺组织羟基脯氨酸的表达和成纤维细胞的分布,进而减轻小鼠的肺纤维化水平。qRT-PCR实验发现蛹虫草菌粉处理不仅可以降低SARS-CoV-2病毒的S蛋白组小鼠肺组织中TGF-β R1水平,还降低SARS-CoV-2病毒的S蛋白组和LPS组肺组织中smad2的表达。因此认为蛹虫草菌粉可缓解SARS-CoV-2病毒的S蛋白和LPS诱导的肺部炎症和纤维化症状,且纤维化缓解作用可能与TGF-β R1/smad2信号通路相关。