金银忍冬白粉菌及其重寄生菌的报道

通过对来自中国青岛金银忍冬的调查,发现一中国新记录种——金银忍冬白粉菌(Erysiphe caprifoli-acearum var. caprifoliacearum)并在其上首次发现重寄生菌——白粉寄生孢(Ampelomyces quisqualis)。根据采集的材料对其进行了详细的形态描述和显微拍照。研究标本保存于青岛农业大学真菌标本室(HMQAU)。     

香薷白粉病菌及其重寄生菌的分离鉴定

对采自中国长春香薷白粉病菌进行系统观察和测量,鉴定其为本间白粉菌(Erysiphe hommae Braun),同时发现了重寄生菌——白粉寄生孢（Ampelomyces quisqualis Ces.）,并对重寄生茵的叶部寄生特征及培养特征进行了描述.室内检测结果表明,重寄生菌的重寄生强度较高,可抑制白粉病的发生.     

白粉寄生孢ISSR-PCR体系的建立及遗传多样性的初步分析

通过正交设计和单因素水平优化的方法对白粉寄生孢ISSR-PCR程序中的一些反应参数和ISSR引物进行优化和筛选,并利用建立的ISSR-PCR的反应体系来分析白粉寄生孢的遗传多样性。5个ISSR引物对73个菌株的扩增条带表明,ISSR标记在中国白粉寄生孢中存在较高的多态性,ISSR标记揭示白粉寄生孢的遗传多样性和寄主植物(真菌)多样性存在一定的相关性。     

内蒙古白粉菌区系多样性

为阐明内蒙古白粉菌区系组成特点、探讨其起源和演化,对其区系多样性进行了分析.区系中含有10种以上的属为自粉菌属(Erysiphe)、单囊白粉菌属(Podosphaera)和高氏白粉菌属(Golovinomyces),3属共104种,占总种数的84.55%.根据地理分布资料,内蒙古白粉菌可划分为世界广布种(13.82%)...     

一株重寄生枝孢菌的基因组测序及重寄生机制分析

【背景】枝孢菌SYC63是一株具有重寄生作用和抗菌活性的潜在生防菌株,目前尚无研究报道该菌株的全基因组序列,因此限制了其开发与利用。对该菌株进行基因组测序与分析,将进一步了解其重寄生的分子机制,为其在生物防治上的应用奠定研究基础。【目的】解析枝孢菌SYC63基因组序列信息,初步探究该菌的重寄生作用机制。【方法】利用二代高通量测序平台对枝孢菌SYC63进行全基因组测序,运用相关软件对其测序数据进行基因组组装、基因功能注释、预测次级代谢产物合成基因簇并分析重寄生相关的碳水化合物酶类基因等。【结果】基因组组装后共得到17个contigs,总长度为31 912 211 bp,GC含量为52.80%,预测到12 327个编码基因。其中,4 029、949和6 595个基因分别能在KEGG、COG和GO数据库中被注释到,同时还预测到25个次级代谢产物合成基因簇。对重寄生机制相关的碳水化合物酶类进行分析并与重寄生菌株(拟盘多毛孢菌、木霉及盾壳霉)比较,发现该菌具有较多的糖苷水解酶和糖脂酶基因,而且细胞壁降解酶类基因经锈菌孢子壁处理后在转录组测序中显著上调表达,初步分析了该菌与重寄生木霉在分子水平上的...     

重寄生属植物及其寄主的地理分布

通过对重寄生属植物及其寄主的地理分布状况的讨论,对重寄生属植物可能的起源时间、地点与迁 移进行了分析。重寄生属植物主要寄生在桑寄生科(Loranthaceae)植物上,重寄生属植物的分布区与其寄主 的基本一致,均主要分布在东南亚和中国南部的热带与亚热带地区;重寄生属植物可能起源于第三纪之前某 一时期的华南热带地区,随后向周边地区扩散。在第三纪,重寄生属植物的祖先偶然寄生在桑寄生科某些寄 生植物祖先上,经过几千万年的协同进化,形成了今天比较稳定的寄生与寄主关系。     

武夷山白粉菌新种

本文描述了武夷山白粉菌的3个新分类单位。它们是寄生于大戟科连氏野桐上的新种野桐白粉菌(Erysiphe malloti sp.nov.),忍冬科白马桑上的新种锦带花白粉菌(Erysipheweigelae sp.nov.),以及绣球科圆锥绣球上的新种绣球钩丝壳(Uncinula hydrangeae sp.nov.)。绣球科是钩丝壳属真菌寄主科的世界新纪录。新种均有汉文和拉丁文描述以及建立新种的讨论。     

白粉菌属一新种——南非金钟花白粉菌

寄生于南非金钟花（PhygeliuscapensisE.May）上的白粉菌属新种:南非金钟花白粉菌ErysiphephygeliiWangetZhangsp.nov.。模式标本分别保存于云南农业大学植病所真菌标本室（MHYAU）和中科院微生物所真菌标本室（HMAS）。     

白粉菌属一新种──南非金钟花白粉菌

寄生于南非金钟花（PhygeliuscapensisE.May）上的白粉菌属新种:南非金钟花白粉菌ErysiphephygeliiWangetZhangsp.nov.。模式标本分别保存于云南农业大学植病所真菌标本室（MHYAU）和中科院微生物所真菌标本室（HMAS）。     

中国白粉菌的四个新记录分类群

报道了中国白粉菌科Erysiphaceae的四个新记录分类群,即:寄生于大刺儿菜上的梅厄白粉菌日本变种Erysiphemayoriivar.japonica,寄生于铺地委陵菜上的瑟门白粉菌Erysiphethuemenii,寄生于美女樱上的马鞭草高氏白粉菌Golovinomycesverbenae以及寄生于牻牛儿苗和老鹳草属上的老鹳草新白粉菌Neoerysiphegeranii。研究标本保存在赤峰学院菌物标本室(CFSZ)。     

Hyperparasites of the genus shape Ampelomyces on powdery mildew fungi in Serbia

From 1982 to 1996, in Serbia, 229 species of plants infected with powdery mildew were collected. Seventy-five species had hyperparasites of the genus Ampelomyces. Distribution analysis showed that hyperparasitism was greatest on plants from the families Asteraceae, Apiaceae and Fabaceae. Ampelomyces was not found on the family Poaceae. It was reported for the first time on the families Amygdalaceae, Cornaceae, Grossulariaceae, Plantaginaceae, Rhamnaceae and other 37 plant species. Hyperparasites of the genus Ampelomyces were found on 33 different species of fungi that are causal agents of powdery mildews. They are reported for the first time on nine species. Pycnidial size varied in the range 45–106 × 25.5–40.5 μm and conidia from 4.5–10.5 × 2.5–4.8 μm. This revised version was published online in June 2006 with corrections to the Cover Date.     

南瓜白粉病病原菌鉴定及寄主范围测定

通过对南瓜白粉病病原菌的闭囊壳、分生孢子及萌发方式的观察和鉴别寄主感病反应鉴定,结果表明引起甘肃省武威地区南瓜白粉病的病原菌为苍耳单囊白粉菌Podosphaera xanthii。该白粉病菌闭囊壳形成的最适条件为温度20℃、相对湿度70%和光照强度4,400lx。寄主范围测定结果表明,该病菌不侵染丝瓜、小麦、辣椒、番茄、苜蓿、红三叶草、架豆和菜豆,可侵染除丝瓜之外的其余9种瓜类植物和绿豆、红小豆、向日葵,其中对南瓜、绿豆、西葫芦、红小豆、向日葵、甜瓜和黄瓜的致病性最强,发病率均达到100%,病情指数分别为15.56、14.51、13.33、13.33、13.07、12.22和12.22。侵染过程观察发现,感病南瓜人工接种白粉菌12h后,分生孢子芽管从侧面萌发,于24h芽管伸长,于36h形成菌丝,于72h形成稠密的网状菌丝,于96h形成分生孢子梗及串生分生孢子。     

Characterization of six polymorphic microsatellite loci from Ampelomyces quisqualis,intracellular mycoparasite and biocontrol agent of powdery mildew

Ampelomyces spp. are common intracellular mycoparasites of powdery mildews worldwide and a strain has been commercialized as a biocontrol agent against these plant pathogens. In light of recent genetic analyses revealing high internal transcribed spacer sequence variability among Ampelomyces strains on different host plant mildews, yet no sequence variability within the Malus strain, polymorphic microsatellites were required to permit biocontrol and ecological studies of the complex apple/apple mildew/Ampellomyces tritrophic interaction. For this purpose, described here are the primers to amplify six polymorphic microsatellite loci from Ampelomyces quisqualis isolated from mycelia of the apple powdery mildew fungus, Podosphaera leucotricha.     

青岛地区茄白粉病的病原菌鉴定

在青岛地区的保护地和露地发现茄白粉病,通过形态学和分子生物学进行鉴定以及致病性测定。结果将青岛地区茄白粉病的病原鉴定为Podosphaera xanthii,本文为该菌在我国茄子上的首次报道。     

The isoelectric point of proteins influences their translocation to the extrahaustorial matrix of the barley powdery mildew fungus

Many biotrophic fungal plant pathogens develop feeding structures, haustoria, inside living plant cells, which are essential for their success. Extrahaustorial membranes (EHMs) surround haustoria and delimit the extrahaustorial matrices (EHMxs). Little is known about transport mechanisms across EHMs and what properties proteins and nutrients need in order to cross these membranes. To investigate this further, we expressed fluorescent proteins in the cytosol of infected barley leaf epidermal cells after particle bombardment and investigated properties that influenced their localisation in the powdery mildew EHMx. We showed that this translocation is favoured by a neutral isoelectric point (pI) between 6.0 and 8.4. However, for proteins larger than 50 kDa, pI alone does not explain their localisation, hinting towards a more complex interplay between pI, size, and sequence properties. We discuss the possibility that an EHM translocon is involved in protein uptake into the EHMx.     

A Polycephalomyces hyperparasite of Ophiocordyceps sinensis leads to shortened duration of production and reduced numbers of host ascospores

Ophiocordyceps sinensis, an entomopathogenic fungus of the Tibetan Plateau is one of the most valuable traditional Chinese medicines. A fungal pathogen of O. sinensis, Polycephalomyces sp. GIMCC 3.570 (isolate 2010A-0818) was characterized by morphology, related to sequences of six genes (SSU, ITS, LSU, TEF1-α, RPB1 and ATP6) found in a BLAST search and five genes (SSU, LSU, TEF1, RPB1 and RPB2) by phylogenetic analysis using maximum parsimony, maximum likelihood and Bayesian methods. The results strongly support placement of P. sp. GIMCC 3.570 in the genus Polycephalomyces. To determine the influence of P. sp. GIMCC 3.570 on the reproduction of its host, 30 artificially infected O. sinensis samples were compared with 30 uninfected controls. In the infected fungus, the life span of the stroma was significantly shorter and significantly fewer ascospores were produced compared with uninfected O. sinensis (p < 0.01).     

Biology and biocontrol potential of Ampelomyces mycoparasites, natural antagonists of powdery mildew fungi

Historically, pycnidial fungi belonging to the genus Ampelomyces were among the first mycoparasites to be studied in detail and were also the first fungi used as biocontrol agents of plant parasitic fungi. The interactions between host plants, powdery mildew fungi and Ampelomyces mycoparasites are one of the most evident cases of tritrophic relationships in nature although their study has received little attention in fungal and plant ecology so far. Ampelomyces mycoparasites have now become one of the most advanced in terms of commercial development of a fungal biocontrol agent, although there is still a need for more development work to produce a product with reliability approaching that of conventional chemical treatments. This review summarizes the taxonomy, genetic diversity, life cycle, mode of action, natural occurrence, host range, biocontrol potential, mass production and commercialization of these mycoparasites and compares the biocontrol ability of Ampelomyces with that of other fungal antagonists of powdery mildews.