Culturable endophytic filamentous fungi from leaves of transgenic imidazolinone-tolerant sugarcane and its non-transgenic isolines

The diversity of endophytic filamentous fungi from leaves of transgenic imidazolinone-tolerant sugarcane plants and its isoline was evaluated by cultivation followed by amplified rDNA restriction analysis (ARDRA) of randomly selected strains. Transgenic and non-transgenic cultivars and their crop management (herbicide application or manual weed control) were used to assess the possible non-target effects of genetically modified sugarcane on the fungal endophytic community. A total of 14 ARDRA haplotypes were identified in the endophytic community of sugarcane. Internal transcribed spacer (ITS) sequencing revealed a rich community represented by 12 different families from the Ascomycota phylum. Some isolates had a high sequence similarity with genera that are common endophytes in tropical climates, such as Cladosporium, Epicoccum, Fusarium, Guignardia, Pestalotiopsis and Xylaria. Analysis of molecular variance indicated that fluctuations in fungal population were related to both transgenic plants and herbicide application. While herbicide applications quickly induced transient changes in the fungal community, transgenic plants induced slower changes that were maintained over time. These results represent the first draft on composition of endophytic filamentous fungi associated with sugarcane plants. They are an important step in understanding the possible effects of transgenic plants and their crop management on the fungal endophytic community.     

The potential saprotrophic capacity of foliar endophytic fungi from Quercus gambelii

Endophytic fungi occur in living tissues of terrestrial plants. Many of these fungi are primarily biotrophic, but the trophic range of endophytic fungi as a group may not be fully appreciated. In this study, our goals were (1) for the Class 3 foliar endophytic fungi isolated from Quercus gambelii, determine their potential saprotrophic capacity, which we define as the difference in growth rate in culture on Quercus gambelii leaf litter medium and control medium lacking leaf litter and (2) quantify sources of variation among isolates of these endophytic fungi in potential saprotrophic capacity, including variation due to microsite within host trees (leaves receiving full sun vs. shade) and variation within and among fungal genera. We found that 48 of the 49 tested endophytic fungal isolates have significant potential saprotrophic capacity. Contrary to expectation, the amount of solar radiation available to the leaf from which the fungi were isolated had no significant impact on potential saprotrophic capacity and there was more variability in potential saprotrophic capacity among isolates within a genus than among genera. Our results suggest that some Class 3 endophytic fungi may have the potential to function as saprotrophic fungi within plant litter, but this remains to be seen for these Quercus gambelii isolates under more natural circumstances.     

Molecular characterization of endophytic strains of Fusarium verticillioides (= Fusarium moniliforme) from maize (Zea mays. L)

The species Fusarium verticillioides (= F. moniliforme) is often found in maize seeds, constituting an important source of inoculum in the field. Fusarium spp., associated with symptomatic and asymptomatic plants, may be a primary causal agent of disease, a secondary invader or an endophyte. In the present work, endophytic fungi were isolated from two populations of Zea mays (BR-105 and BR-106) and their respective inbred lines. Within different inbred lines of maize, Fusarium was found at a frequency of 0 to 100% relative to the number of total isolated fungi. The frequency with which the genus occurred was practically the same in the two field sites (around 60%). Twenty-one F. verticillioides strains were analysed using the random amplified polymorphic DNA (RAPD) technique, employing 10 random primers. Variability analysis of endophytic isolates via RAPD showed genome polymorphism taxa of species around 60%. Endophytic isolates were clustered by their sites of origin. RAPD analysis clustered the endophytic isolates by their maize inbred lines hosts (Mil-01 to Mil-06), whereas at site A they clustered into two major groups related to the maize gene pool (BR-105 or BR-106 population). All strains isolated from seeds collected in Site A, except strains L9 and L10, were sub-grouped according to maize inbred lines. The analysis showed a discrete sub-grouping at site B. Results obtained here could be explained by a co-evolution process involving endophytic isolates of F. verticillioides and maize inbred lines.     

Psychrophilic endophytic fungi with biological activity inhabit Cupressaceae plant family

Psychrophilic microorganisms are cold-adapted organisms that have an optimum growth temperature below 15 °C, and often below 5 °C. Endophytic microorganisms live inside healthy plants and biosynthesize an array of secondary metabolites which confer major ecological benefits to their host. We provide information, for the first time, on an endophytic association between bioactive psychrophilic fungi and trees in Cupressaceae plant family living in temperate to cold, semi-arid habitats. We have recovered psychrophilic endophytic fungi (PEF) from healthy foliar tissues of Cupressus arizonica, Cupressus sempervirens and Thuja orientalis (Cupressaceae, Coniferales). In total, 23 such fungi were found out of 110 endophytic fungal isolates. They were identified as ascomycetous fungi, more specifically Phoma herbarum, Phoma sp. and Dothideomycetes spp., all from Dothideomycetes. The optimal growth temperature for all these 23 fungal isolates was 4 °C, and the PEF isolates were able to biosynthesize secondary metabolite at this temperature. Extracted metabolites from PEF showed significant antiproliferative/cytotoxic, antifungal and antibacterial effects against phytopathogenic fungi and bacteria. Of special interest was their antibacterial activity against the ice-nucleation active bacterium Pseudomonas syringae. Accordingly, we suggest that evergreen Cupressaceae plants may benefit from their psychrophilic endophytic fungi during cold stress. Whether such endosymbionts confer any ecological and evolutionary benefits to their host plants remains to be investigated in vivo.     

Endophytic fungi associated with the Antarctic grass <Emphasis Type="Italic">Deschampsia antarctica</Emphasis> Desv. (<Emphasis Type="Italic">Poaceae</Emphasis>)

Deschampsia antarctica Desv. (Poaceae) represents one of the two vascular plants that have colonized the Antarctic continent, which is usually exposed to extreme environmental conditions. In this work, we have characterized the endophytic fungi associated with the leaves of D. antarctica. Endophytic fungi were recovered from 91 individual plants from different points of Admiralty Bay at King George Island, Antarctica. A total of 26 fungal isolates were obtained from 273 leaf fragments. All isolates were identified by analysis of the sequences of the internal transcribed spacer region (ITS) of the rDNA. Alternaria and Phaeosphaeria were the most frequent genera associated with the plant. Other fungal isolates were identified as Entrophospora sp. and several undescribed Ascomycete species. An interesting result was obtained for the isolates UFMGCB 215 and UFMGCB 262, which were related to fungi associated with bryophytes present in boreal ecosystems. Some isolates showed low identity in the ITS sequences to sequences of fungal species deposited in GenBank, suggesting that these fungi could be new species. This work is the first report on fungal endophytes associated with leaves of the Antarctic grass D. antarctica.     

白及内生真菌多样性研究

白及( Bletilla striata)是兰科地生型多年生植物,也是我国传统中药材之一。利用菌根技术进行白及的保护和人工栽培,需要获得白及可培养的内生真菌。该研究以广西野生的白及根和叶为材料,采用分离培养法分离内生真菌,并结合真菌形态特征,及其核糖体的转录间隔区( ITS)序列分析,确定内生真菌的分类地位。结果表明：从2株白及植物90块组织中分离获得37株内生真菌,鉴定为15个分类单元,由9个属组成,分属于2门4纲7目8科,包括锤舌菌纲( Leotiomycetes)、座囊菌纲( Dothideomycetes)和粪壳菌纲( Sordariomy-cetes),伞菌纲( Agaricomycetes)。从根中分离获得内生真菌12种,蜡壳菌属为优势属;从叶中分离获得内生真菌3种,刺盘孢属为优势属;刺盘孢菌属( Colletotrichum)和蜡壳菌属( Sebacina)真菌的相对多度值均达到20％;4株担子菌均分布于根中,叶组织中未有分布。根组织中内生真菌的多样性指数(H＝1.863)高于叶组织(1.098)。该研究结果及其所分离培养的担子菌类真菌,为更好地利用菌根技术进行白及等兰科植物资源的保护与可持续利用奠定了基础。     

芍药内生真菌的鉴定及产生活性次生代谢产物的评估

【目的】研究药用植物芍药(Paeonia lactiflora Pall.)内生真菌的种群多样性,同时对其可能存在的聚酮合酶(Polyketide synthase,PKS)和非核糖体多肽合成酶(Non-ribosomal peptide synthetase,NRPS)基因多样性进行评估,预测芍药内生真菌产生活性次生代谢产物的潜力。【方法】采用组织分离法获得芍药根部内生真菌菌株,结合形态学特征和ITS序列分析,进行鉴定;利用兼并性引物对内生真菌中存在的聚酮合酶(PKS)基因和非核糖体多肽合成酶(NRPS)基因进行PCR扩增及序列测定分析,构建系统发育树,明确芍药内真菌PKS基因序列和NRPS基因序列的系统进化地位。【结果】从芍药组织块中共分离得到105株内生分离物,去重复后获得52株内生真菌,菌株ITS基因序列信息显示,52株芍药内生真菌隶属于7目、13科、15属,其中小球腔菌属(Leptosphaeria)、土赤壳属(Ilyonectria)和镰孢属(Fusarium)为优势种群;从52株内生真菌中筛选获得13株含PKS基因片段的菌株,8株含NRPS基因片段的菌株,部分菌株功能基因的氨基酸序列与Gen Bank中已知化合物的合成序列具有一定的同源性,预示芍药根部内生真菌具有合成丰富多样的次生代谢产物的潜力。【结论】药用植物芍药根部具有丰富的内生真菌资源,且具有产生活性次生代谢产物的潜力,值得进一步开发研究和应用。     

龙南钾矿区常见蕨类植物可培养内生真菌的多样性

植物内生真菌作为一类特殊的微生物资源,与宿主在长期的生态系统演化过程中形成了互惠共生关系,通过多样化途径来增强植物体的营养生理和抗性机能,对宿主植物产生多种有益生物学作用,在植物演替过程中具有重要的生态学意义。这种特殊微生物资源近年来倍受关注,而利用植物-真菌共生体强化植物在矿区逆境中生长,提高矿区生物修复效率是一个新的研究热点。为探明钾矿区不同蕨类植物内生真菌的物种多样性、群落组成以及生态分布规律,该研究以芒萁、狗脊、禾秆蹄盖蕨、海金沙、华中铁角蕨、井栏边草和乌蕨等植物为材料,采用组织分离、形态学鉴定等方法,对其内生真菌多样性进行分析。结果表明:从7种植物中共分离获得377株内生真菌,总分离率在2.50%~4.52%之间。经鉴定377个菌株隶属于链格孢属、曲霉属、枝孢菌属和轮枝孢属等25个分类单元,其中链格孢属、曲霉属、枝孢菌属和轮枝孢属等在所有被调查蕨类植物中都有分布,为优势属,共计为185株,占总株数的49.07%,但它们在每种植物的分布存在明显差异;7种蕨类植物内生真菌总定植率为叶高于根状茎(P0.05),多样性指数在0.502~0.867之间,但每种植物及其不同组织部位的内生真菌定植率和多样性指数存在一定的差异;从相似性分析来看,同一个钾矿区不同蕨类植物内生真菌菌群之间的相似性程度较低,相似性系数在0.189~0.587之间。该研究结果不仅丰富了植物内生真菌种质资源,而且为进一步开展植物内生真菌强化宿主植物在钾矿区生长适应机制的研究奠定了基础。     

罗汉果内生真菌多样性研究

该文采用传统形态学方法结合r DNA-ITS序列分析,对我国重要药用植物罗汉果中的内生真菌进行了鉴定并研究其多样性。结果表明:采用组织培养法从罗汉果健康植株中共分离得到150株内生真菌,包括罗汉果中雌株的内生真菌96株、雄株的内生真菌54株。122株内生真菌经形态学结合r DNA-ITS序列分析鉴定为9个属,均归属为子囊菌门,包含座囊菌纲(Dothideomycetes)和子囊菌纲(Sordariomycetes)。其中,座囊菌纲(Dothideomycetes)真菌包含3科、3属;子囊菌纲(Sordariomycetes)真菌包含6科、6属。优势属为刺盘孢属(Colletotrichum)和镰刀菌属(Fusarium)。罗汉果雌、雄植株不同组织中内生真菌的定殖率及分离率的变化规律均不相同,雌株中以根中内生真菌的定殖率和分离率最高,叶片中的最低;在雄株中以叶片中的定殖率和分离率最高,根中的最低。不同菌株在雌、雄两种植株的不同组织中的分布均不同,结合内生真菌群落组成的相似性比较结果,表明部分内生真菌对罗汉果雌株和雄株,以及同一植株中的不同组织均具有偏好性。不同组织中内生真菌的多样性指数在0.11~0.69的范围,其中雌株根部的内生真菌多样性指数最高。以上研究结果为后期探究内生真菌与罗汉果互作关系奠定了基础。     

云南三个地区马铃薯内生真菌多样性研究

为研究云南马铃薯(Solanum tuberosum)内生真菌的多样性,该文以采自云南省德宏芒市、大理喜洲和临沧双江3个地区的马铃薯植株为研究对象,采用组织块分离法、尖端菌丝挑取法对马铃薯根、茎及块茎中的内生真菌进行分离纯化,并采用形态学鉴定方法和ITS序列分析法对分离得到的内生真菌进行鉴定,对内生真菌的定殖率、分离率及多样性指数进行计算和分析。结果表明:(1)共分离得到内生真菌98株,其中从德宏芒市的样品中获得40株,从大理喜洲的样品中获得27株,从临沧双江的样品中获得31株。(2)经鉴定,分离得到的马铃薯内生真菌共涵盖10目10科13属,大多为子囊菌门和担子菌门,优势菌为镰刀菌属(Fusarium)和青霉属(Penicillium),褶皱裸孢壳(Emericella rugulosa)、接骨木镰刀菌(Fusarium sambucinum)、毛韧革菌(Stereum hirsutum)、Psathyrella sulcatotuberculosa和Epicoccum catenisporum 5种真菌均为首次从马铃薯植株中分离得到。(3)马铃薯块茎内生真菌的定殖率最高,根部内生真菌定殖率最低; 内生真菌的分离率以马铃薯根部为最高,而茎部最低; 不同组织中内生真菌的多样性指数趋势均为根>块茎>茎。从综合来看,云南马铃薯植株中的内生真菌具有较高的多样性,不同地区的马铃薯样品中内生真菌优势菌不同,马铃薯根部具有最丰富的内生真菌种群和最高的分离率,是最适合进行内生真菌分离的材料。该研究结果为后期探究马铃薯内生真菌对病原菌的拮抗作用奠定了基础,也为马铃薯内生真菌多样性研究提供了参考数据。     

Diversity and ecological distribution of endophytic fungi associated with medicinal plants

A total of 973 isolates of endophytic fungi were recovered from 1144 tissue fragments of the six medicinal plant species belonging to 4 families collected in the Beijing Botanical Garden. Of these isolates 778 sporulated and were identified into 21 taxa by morphological characteristics. Among the taxa 11 belonged to Coelomycetes, 6 to Ascomycetes, and 4 to Hyphomycetes. Various numbers of endophytic fungi (5–8 taxa) were obtained from each plant. Alternaria alternata was the dominant species in the 6 plants, and Microsphaeropsis conielloides was also dominant in Eucommia ulmoides. There were high colonization rates (47.9%–63.1%) and isolation rates (0.7–0.93) of endophytic fungi, and they were conspicuously higher in twigs than those in leaves in the 6 plants examined. The colonization and isolation rates of endophytic fungi increased with the twig age. The results based on the analyses of cluster and Sorenson’s similarity coefficients indicated that some endophytic fungi showed a certain degree of host and tissue preference.     

小蓬竹根际土壤微生物及内生真菌多样性分析

为了解喀斯特典型物种-小蓬竹根际土壤微生物及不同部位内生真菌多样性,采用沿等高线等距离取样法采集小蓬竹根际土壤及健康植株,通过可培养对根际土微生物及内生菌进行分离,利用分子技术对其进行鉴定,根据鉴定结果构建系统发育树,并计算小蓬竹根际土壤微生物和根茎叶内生真菌多样性。结果如下：（1）共从根际土壤、根、茎、叶分离得到139个真菌菌株,隶属于27属,其中根际土壤分离得到34个真菌菌株隶属于12属,根部分离得到的63个内生真菌菌株隶属于17个属,茎部分离得到的14个内生真菌菌株隶属于8个属,叶部分离得到28个内生真菌菌株隶属于9个属;（2）根际土壤共分离得到41株细菌菌株,隶属于7个属26个种,20株放线菌菌株,隶属于1属15种;从Shannon-Wiener多样性指数、均匀度指数、Simpson指数排序来看,真菌主要表现为根 > 根际土壤 > 茎 > 叶,细菌和放线菌多样性均较低。（3）按层次聚类分析可分别将真菌、细菌、放线菌聚为3支。小蓬竹根际土壤、根、茎和叶具有丰富的微生物多样性,不同部位菌群组成存在差异性（P<0.05）,且存在以假单胞菌属、芽孢杆菌属等为优势属的抗盐耐旱菌群,这有助于揭示小蓬竹对喀斯特生境的适应性,以及为微生物-植物群落之间相互关系提供一定基础数据,为后期寻找小蓬竹相关耐性功能菌奠定基础。     

青檀叶片内生和附生真菌组成及生态分布

对我国古老特有植物青檀叶片进行内生和附生真菌的研究,以了解青檀叶片内生和附生真菌的组成特点和探讨内生和附生真菌菌群之间的可能联系,为研究真菌资源多样性、植物附生和内生真菌的相互演化关系及真菌与宿主植物协同进化等提供有益参考资料。研究结果表明,从健康的青檀叶片获得可培养内生真菌839株,附生真菌1857株,共计2696株,鉴定其分属于4目,5科,43属。在目的分类水平上,内生和附生真菌均以丛梗孢目Moniliales为优势菌群,分别占90.23%和92.51%;在科的水平上,内生真菌以暗梗孢科Dematiaceae和丛梗孢科Moniliaceae为优势菌群,分别占47.56%和42.67%,附生真菌以丛梗孢科Moniliaceae和暗梗孢科Dematiaceae为优势菌群,分别占67.04%和25.47%;在属的水平上,内生真菌以黑团孢属Periconia和青霉属Penicillium为优势菌群,分别占31.47%和10.73%,附生真菌以小球霉属Glomerularia、膝葡孢属Gonatobotrys和青霉属Penicillium为优势菌群,分别占20.03%、13.95%和12.22%。青檀叶片内生真菌和附生真菌均存在的菌群数量达到23个属,占53.49%。内生真菌特有的属有6个,共分离19株,占0.70%,附生真菌特有的属有14个,共分离120株,占4.45%。内生真菌的Shannon-Wiener index(H')多样性指数(2.44)和Margalef index(R)丰富度指数(2.88)分别小于附生真菌ShannonWiener index(H')多样性指数(2.57)和Margalef index(R)丰富度指数(3.32),但两者的Evenness index(E)均匀度指数几乎相等。青檀叶片内生和附生真菌菌群组成具有较高的相似性,相似性系数达0.70。通过Fisher's exact test分析表明青檀叶片内生和附生真菌菌群组成无明显差异(P=0.072)。     

Diverse non-mycorrhizal fungal endophytes inhabiting an epiphytic,medicinal orchid (<Emphasis Type="Italic">Dendrobium nobile</Emphasis>): estimation and characterization

Although the terrestrial and temperate orchids–fungal biology have been largely explored, knowledge of tropical epiphytic orchids–fungus relationships, especially on the ecological roles imparted by non-mycorrhizal fungal endophytes, is less known. Exploitation of the endophytic fungal mycobiota residing in epiphytic orchid plants may be of great importance to further elucidate the fungal ecology in this special habitat as well as developing new approaches for orchid conversations. The composition of fungal endophytes associated with leaves, stems and roots of an epiphytic orchid (Dendrobium nobile), a famous Chinese traditional medicinal plant, was investigated. Microscopic imaging, culture-dependant method and molecular phylogeny were used to estimate their entity and diversity. Totally, there were 172 isolates, at least 14 fungal genera and 33 different morphospecies recovered from 288 samples. Ascomycetes, coelomycetes and hyphomycetes were three major fungal groups. There were higher overall colonization and isolation rates of endophytic fungi from leaves than from other tissues. Guignardia mangiferae was the dominant fungal species within leaves; while the endophytic Xylariaceae were frequently observed in all plant tissues; Colletotrichum, Phomopsis and Fusarium were also frequently observed. Phylogenetic analysis based on ITS gene revealed the high diversity of Xylariacea fungi and relatively diverse of non-Xylariacea fungi. Some potentially promising beneficial fungi such as Clonostachys rosea and Trichoderma chlorosporum were found in roots. This is the first report concerning above-ground and below-ground endophytic fungi community of an epiphytic medicinal orchid, suggesting the ubiquitous distribution of non-mycorrhizal fungal endophytes in orchid plants together with heterogeneity and tissue specificity of the endophyte assemblage. Possible physiological functions played by these fungal endophytes and their potential applications are also discussed briefly. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

三种红树林植物健康与非健康叶片中真菌的比较

红树林叶片感染真菌后可能会向非健康状态变化,为了比较三种红树林植物海漆、秋茄和桐花树健康与非健康叶片真菌类群,明确其中真菌类群的差异,该研究从广西茅尾海红树林自然保护区采集海漆、秋茄和桐花树健康与非健康叶片,对叶片中真菌分离纯化并进行形态学鉴定,提取真菌的DNA,采用RAPD多样性、ITS序列对真菌进行分子鉴定。经过初步分析,从海漆、秋茄和桐花树中共分离到157株真菌,经过形态学和RAPD分析,可能为19种不同的真菌。采用真菌ITS序列对19种真菌代表性菌株进行分析,结果表明:19种真菌都属于子囊菌门,有15株与已有的真菌ITS序列相似性在97%以上;有4株相似性低于95%,可能为新种。海漆健康和非健康叶片分别分离到真菌7种和5种,健康叶片含了非健康叶片中所有真菌;秋茄健康和非健康叶片分离到真菌1种和9种,且健康叶片中分离到的内生真菌Dothiorella aegiceri也包含于非健康叶片分离的真菌中;桐花树健康和非健康叶片分离到真菌1种和3种,且桐花树分离的内生真菌也是Dothiorella aegiceri,其包含于非健康叶片中分离到的真菌。该研究证明,海漆内生真菌同时也可能是植物病原菌,内生真菌与植物病原菌没有明显界限;另一方面,该研究发现秋茄和桐花树叶片的病变是由外部的病原真菌感染引起,感染的原因可能是昆虫叮咬红树林植物后留下了创口,这些创口有利于真菌的感染。     

盐角草内生真菌分离鉴定及抑制水产腐败细菌菌株的筛选

盐角草是一种耐盐植物,有重要的食用、药用价值。为研究盐角草的内生真菌及其活性次生代谢产物的多样性,该文对采集于广西北部湾沿海盐角草的内生真菌进行分离纯化,采用RAPD对内生真菌多样性进行分析,采用ITS基因序列对内生真菌进行鉴定,并对内生真菌提取物抑制几种水产腐败细菌的活性进行筛选。结果表明:(1)从北部湾盐角草植物中分离到14株形态不同的内生真菌,RAPD分析这些内生真菌有6种不同型别。ITS基因序列分析表明,这些菌株分别和Curvularia lunata、Aspergillus candidus、Guignardia mangiferae、Neocamarosporium chichastianum有较高的序列相似性; 其中有三株与Neocamarosporium chichastianum IBRC-M:30126的相似性为94%～95%,从系统发育树和菌落形态上看可能为Neocamarosporium salicornicola进化关系较近的一个新种。(2)抑菌实验表明,内生菌YJCJ3提取物具有比较好的抑制副溶血弧菌(Vibrio Parahaemolyticus)的活性,其菌丝体提取物的甲醇、石油醚和乙酸乙酯的溶解液都具有较强的抑制副溶血弧菌的活性; 而YJCJ5表现了较为广谱的抑制几种水产腐败细菌诺氏布丘氏菌(Buttiauxella noackiae)、气单胞菌(Aeromonas dhakensis)、乡间布丘氏菌(Buttiauxella gaviniae)的活性,其中YJCJ5的菌丝体石油醚和乙酸乙酯溶解液有抑制诺氏布丘氏菌和气单胞菌的活性,甲醇和石油醚溶解液具有一定抑制乡间布丘氏菌的活性。该研究结果表明盐角草存在较为丰富的内生真菌多样性,可以发现一些新的内生真菌种群,其具有多种活性提取物,可用于抑制水产品的腐败细菌的生长,具有较好的开发价值。     

Diversity and ecological distribution of endophytic fungi associated with medicinal plants

A total of 973 isolates of endophytic fungi were recovered from 1144 tissue fragments of the six me-dicinal plant species belonging to 4 families collected in the Beijing Botanical Garden. Of these isolates 778 sporulated and were identified into 21 taxa by morphological characteristics. Among the taxa 11 belonged to Coelomycetes, 6 to Ascomycetes, and 4 to Hyphomycetes. Various numbers of endophytic fungi (5―8 taxa) were obtained from each plant. Alternaria alternata was the dominant species in the 6 plants, and Microsphaeropsis conielloides was also dominant in Eucommia ulmoides. There were high colonization rates (47.9%―63.1%) and isolation rates (0.7―0.93) of endophytic fungi, and they were conspicuously higher in twigs than those in leaves in the 6 plants examined. The colonization and isolation rates of endophytic fungi increased with the twig age. The results based on the analyses of cluster and Sorenson's similarity coefficients indicated that some endophytic fungi showed a certain degree of host and tissue preference.     

柑橘内生真菌的分离鉴定及其发酵产物对柑橘溃疡病菌的抑制活性

本研究从柑橘抗病品种的健康植株不同组织中分离纯化和鉴定内生真菌,并测定其发酵产物对柑橘溃疡病菌的抑制活性,以明确柑橘抗病品种中内生真菌的组成及其产抗柑橘溃疡病菌活性代谢产物的潜力,为柑橘溃疡病抗菌剂的开发奠定基础。该研究通过组织培养法分离内生真菌,采用形态学和分子生物学方法对其进行鉴定; 基于前期的拮抗预试验结果,选取代表性菌株进行发酵培养,通过乙酸乙酯浸提、真空抽滤、旋转蒸发浓缩制备粗提物; 采用带毒平板涂布法测定不同菌株发酵产物乙酸乙酯提取物对柑橘溃疡病菌的抑制活性。结果表明:(1)共分离得到72株内生真菌,归为2门(Ascomycota、Basidiomycota)、14个属,其中优势属为刺盘孢属(Colletotrichum)、球座菌属(Guignardia)、链格孢属(Alternaria)和镰刀菌属(Fusarium)。(2)不同柑橘品种中内生真菌多样性指数为温州蜜柑(桂林)>沙糖桔(桂林)>沙糖桔(梧州)。(3)不同组织中内生真菌多样性变化因地理位置差异而有所不同,采自桂林的温州蜜柑和沙糖桔均为叶片中的内生真菌的多样性高于枝条,而采自梧州的沙糖桔为叶片中的多样性低于枝条,并且采自梧州的柑橘样品与采自桂林的柑橘样品中的内生真菌相似性低。(4)测定了30株内生真菌乙酸乙酯提取物对柑橘溃疡病菌的抑制活性,其中29株菌株表现出不同程度抑制活性。不同柑橘品种中的优势属的MIC介于0.312 5～10 mg·mL^-1之间,特有属的MIC介于0.156～5 mg·mL^-1,共有属镰刀菌属的MIC介于0.312 5～2.5 mg·mL^-1之间。研究结果表明柑橘抗病品种中内生真菌具有丰富多样性,并且其发酵提取物普遍对柑橘溃疡病菌具有抑制作用。特有属抑菌活性总体优于优势属,共有属镰刀菌属在不同柑橘抗病品种中均具有显著抑菌效果。     

豚草种带内生真菌及其对种子发芽和幼苗生长的影响

内生真菌是一类共生于植物体内,能够不同程度影响宿主植物生态适应性和竞争能力的微生物。分析内生真菌在豚草种子中的分布、种群结构,以及内生真菌发酵液对种子发芽和幼苗生长的作用。结果显示:发生于6个地区的豚草种子均能分离获得内生真菌,分离率在19%—92.63%之间,不同地区之间差异极显著(P0.01)。内生真菌主要存在于种子的总苞部位,分离率达到65.52%。发生于福建省长乐市松下镇的豚草种带内生真菌种群包含5个属,以链格孢属(Alternaria)真菌为优势菌群,占82.26%;其次为镰孢属(Fusarium)真菌,占9.68%;其它3个属的真菌发生较少,均低于5%。内生真菌主要以水平传播方式在豚草不同世代之间传播。供试的7个内生真菌菌株的发酵液均不同程度地抑制豚草种子发芽,降低幼苗地上部高度、根长度、根数量和总生物量,但不同菌株发酵液之间抑制程度差异明显,显示不同菌株对豚草种子发芽和幼苗生长产生不同的影响。内生真菌发酵液处理后的种子仍然保持较高程度的活力;不同内生真菌发酵液处理后,有活力的种子维持在50%—87.5%之间,均高于(或等于)清水处理的种子,说明内生真菌代谢产物只是抑制种子的发芽,但并不导致种子的腐烂和死亡。这些研究结果初步显示种子携带的内生真菌可能在豚草入侵生物学中发挥重要的作用。     

Diversity of fungi associated with plants growing in geothermal ecosystems and evaluation of their capacities to enhance thermotolerance of host plants

Diversity and heat-adaptation of endophytic fungi (EF) and rhizospheric fungi associated with plants growing in geothermal ecosystems, Southwest China, as well as their benefit in improving host plant thermotolerances were investigated. A total of 1589 culturable fungi belonging to 38 taxa were isolated, in which Curvularia, Acrophialophora, Penicillium, and Aspergillus were the dominant genera. The Shannon indices of EF and rhizospheric fungi ranged from 1.80 to 2.56 and 0.73 to 2.11, respectively. Phylogenetic analysis indicated that the EF have a close relationship with rhizospheric fungi. However, some fungi exhibited apparently species-specific habitat distribution patterns. Growth temperature tests indicated that 60.22% of the tested isolates were thermotolerant fungi and only 39.78% were mesophiles, and the number of heat-adapted fungi increased with increasing environmental temperatures. The strain G1-29, which was isolated from the roots of Hedyotis diffusa and identified as Curvularia crepinii, significantly improved host plant thermotolerance under laboratory conditions: the death rate of endophyte-infected plants was significantly lower than that of endophyte-free plants (t-test, p?=?.0158, df?=?4). Our results suggested that the EF and rhizospheric fungi associated with plants growing in geothermal ecosystems are diverse, and many of them have adapted to the high environmental temperatures. Some fungi have come to be the dominant endemic inhabitants of specific niches, and some played an important role in improving host plant thermotolerances.