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。     

禾本科植物内生真菌研究5. 中国产部分epichlo?内生真菌的遗传多样性

Epichlo?内生真菌（epichlo? endophytes）是禾本科植物的共生真菌,开展其多样性研究对菌株的生物学特性和进化规律的了解以及开发利用都有着十分重要的意义。本研究筛选了12条随机引物对24株epichlo?内生真菌进行RAPD扩增,探讨真菌种类、宿主种类、采集地和菌株间的遗传多样性。结果表明,宿主为拂子茅Calamagrostis sp.、雀麦Bromus sp.、披碱草Elymus sp.、小颖羊茅Festuca parvigluma Steud.的菌株分别独立聚为一个分枝;而宿主为鹅观草Roegneria spp.的Neotyphodium属菌株聚类情况较为复杂;宿主为早熟禾Poa spp.的菌株分别在三个不同的分枝,表现出丰富的遗传多样性。以上结果反应了我国具有丰富的epichlo?内生真菌资源,它们和其宿主之间有着比较明显的相互关系。本研究还显示,采集于南京的拂子茅与其内生真菌共生可能发生在较久远的年代。     

一种大连细叶早熟禾内生真菌的形态学和系统发育学研究

【目的】鉴定分离自辽宁省大连市细叶早熟禾中的内生真菌。【方法】在辽宁省大连市的黄金山和白玉山采集细叶早熟禾(Poa awgws啡L.),通过显微镜观察植物是否含菌,统计样品中内生真菌的检出率;从含菌样品中分离内生真菌,纯化后在马铃薯葡萄糖琼脂(PDA)培养基上培养3周,测定分离菌株的形态学特征;运用IQS法提取分离菌株的总DNA,利用特异性引物妒增分离菌株的P-Tubulin(tubB)和Translation elongation factor 1-a(碎4)基因片段,利用DNAssist 2.2和ClustalX 1.81软件进行序列的多重比对和分析,运行PAUP 4 beta 10、MrModeltest 2.3选择合适的模型,用MrBayes 3.1.2构建最大似然树,分析分离菌株的系统发育学特征。【结果】共釆集植物样品262个,其中内生真菌的检出率达57.3%;根据分离地点和菌落特征筛选和纯化了10个分离菌株,选用其中6个分离菌株进行形态学特征的调查,发现分离菌株呈典型的Neotyphodium属形态学特征,进而和其他宿主为早熟禾属植物的内生真菌进行比较,发现分离菌株的特征与Epichlo谷liyangensis相近,但分生抱子较小[(5.3±0.3)|jmx(2.9±0.2)Mm],生长速度稍慢(每周8.7±1.4 mm);基于5个分离菌株tubB和tefA片段序列的系统发育学特征显示,它们的如65和对^序列分别为单拷贝,并与五.中的第二拷贝聚为一类。【结论】分离菌株在原始宿主植物上没有形成子座,分离菌株的形态学特征和系统发育学特征均与五./zyawge/ts/j?有明显差异。兼顾其它早熟禾属植物内生真菌的宿主植物的种类和地理分布特征,这些菌株有可能属于一个新的内生真菌类群。     

禾本科植物内生真菌研究 5.中国产部分epichloё内生真菌的遗传多样性

Epichloё内生真菌(epichloё endophytes)是禾本科植物的共生真菌,开展其多样性研究对菌株的生物学特性和进化规律的了解以及开发利用都有着十分重要的意义。本研究筛选了12条随机引物对24株epichloё内生真菌进行RAPD扩增,探讨真菌种类、宿主种类、采集地和菌株间的遗传多样性。结果表明,宿主为拂子茅Calamagrostis sp.、雀麦Bromus sp.、披碱草Elymus sp.、小颖羊茅Festuca parvigluma Steud.的菌株分别独立聚为一个分枝;而宿主为鹅观草Roegneria spp.的Neotyphodium属菌株聚类情况较为复杂;宿主为早熟禾Poas pp.的菌株分别在三个不同的分枝,表现出丰富的遗传多样性。以上结果反应了我国具有丰富的epichloё内生真菌资源,它们和其宿主之间有着比较明显的相互关系。本研究还显示,采集于南京的拂子茅与其内生真菌共生可能发生在较久远的年代。     

基于act序列中国西部披碱草属植物所带内生真菌的系统演化

摘要:【目的】研究中国西部披碱草属植物(Elymus spp.)所带无性世代内生真菌的系统进化关系。【方法】克隆15条分离于中国西部披碱草属植物无性世代内生真菌肌动蛋白基因(act)序列,并与下载自GenBank中内生真菌的act序列共同构建系统进化树和网络结构拓扑图。【结果】供试无性世代内生真菌act序列均为单拷贝基因。系统进化关系表明,它们与分离于北美洲披碱草属植物的有性世代内生真菌Epichlo elymi存在不同的起源,而与分离于北美洲直芒草(Achnatherum eminens)的无性世代内生真菌Neotyphodium chisosum具有较近的亲缘关系。进一步研究发现,由北美洲直芒草无性世代内生真菌N.chisosum形成的单元型Hap 8与本研究菌株所组成的单元型Hap 3之间可能存在基因流。     

禾本科植物内生真菌资源及其物种多样性

植物内生真菌是当代微生物资源研究的一个热门话题,对禾本科植物内生真菌资源研究进行了总结。与冷季型禾本科植物共生的麦角菌科epichlo内生真菌是目前的研究重点,包括偶尔在宿主植物体表形成子座的Epichlo属真菌和几乎完全不形成症状的Neotyphodium属真菌。具体介绍该真菌类群的物种多样性及其地理分布多样性,概括了它们在全球各大区域的分布特征。对近年来中国迅速发展的epichlo内生真菌的研究作了总结,最后展望了国际国内epichlo内生真菌资源探索的发展方向。特别指出:冷季型禾本科植物内生真菌在南美洲和亚洲,暖季型禾本科植物内生真菌在热带亚热带地区的研究还相对薄弱,值得今后继续加强探索和挖掘。     

分离自黑茶的散囊菌属真菌中的NRPS基因的检测和分布

【目的】检测源自黑茶的散囊菌属分离菌株中的NRPS基因,推测它们相应的次级代谢产物合成能力,并考察了基于NRPS基因分布特征进行散囊菌属真菌遗传多样性分析的可能性。【方法】运用IQS法提取来自湖南、四川和湖北等地黑茶样品的14株散囊菌(Eurotium spp.)菌株的总DNA,利用特异性引物对菌株中11种NRPS基因片段进行PCR检测和序列分析,并结合UPGMA法分析了NRPS基因的分布。【结果】各菌株分别含有4 10个NRPS基因片段。NRPS7、CPS1基因在所有菌株中都可以检测到,而NRPS2、NRPS6基因则仅在个别菌株中检测到;其它NRPS基因的分布则呈现出多样性。来自同一块砖茶的菌株Fw-30813-7、Fw-30813-4、Fw-30813-1和Fw-30925-5之间,NRPS1、NRPS2、NRPS3、NRPS4和NRPS8五个基因的分布存在差异,显示出黑茶内散囊菌的遗传多样性。来自湖南白沙溪茶厂的茯砖样品的菌株Fa-20719-3不含有NRPS5和NRPS8基因;而从湖南益阳茶厂茯砖茶7个分离菌株中均含有这两种基因。不同地点加工出来的黑茶样品中的散囊菌菌株之间存在一些明显的遗传差异。【结论】首次从我国黑茶中的散囊菌属分离菌株中检测到NRPS基因,并推测了NRPS产物的多样性,展示了其多样化分布特征,提示NRPS基因的分析有可能成为衡量散囊菌遗传多样性的另一个尺度。     

中国产禾本科植物内生真菌的遗传多样性及rDNA-ITS系统发育分析

采用RAPD技术对分离自我国的13株Epichlo?spp.和9株Neotyphodiumspp.的禾本科植物内生真菌进行了遗传多样性分析,同时对其中的4株进行了rDNA-ITS序列分析及系统发育研究。RAPD分析结果显示:原产自我国的菌株与原产自欧洲的菌株N.uncinatum之间亲缘关系较远;我国的21个菌株之间也存在一定的遗传多样性。rDNA-ITS序列分析表明:原产自我国的菌株聚为一枝,表明我国的Neotyphodium属真菌很有可能直接由我国的Epichlo?属真菌演化而来的新的类群;我国的Epichlo?属真菌有可能和国外推测的一个未确定的Neotyphodium属真菌的杂交进化起源(LAC)有关。     

广西北部湾红树植物内生真菌多样性

【目的】研究广西北部湾地区红树植物内生真菌多样性,建立北部湾红树植物内生真菌种质资源库,为利用内生真菌生物技术促进农业可持续发展提供理论依据。【方法】从广西北部湾地区采集红树植物组织样本,采用表面消毒法分离真菌,通过测定分离菌株对宿主植物是否具有致病性来筛选内生真菌,结合形态学特征和分子生物学分析对内生真菌进行分类与鉴定。【结果】从60个红树植物样本中分离得到1 764个菌株,经过致病性测定筛选获得41株内生真菌,分离率为2.3%。其中从宿主植物红海榄分离得到15株内生真菌,占总菌株数的36.6%,比例最高。通过分析,发现这些内生真菌在ITS-NJ、NS-NJ两个系统发育树上各聚为7个大分支,分属8个科(目)。其中球腔菌属Mycosphaerella、德福里斯孢属Devriesia、假尾孢属Pseudocercospora、枝孢霉属Cladosporium、Pleosporales等属(科)真菌是广西红树林的优势菌。【结论】广西北部湾地区红树植物内生真菌菌种资源丰富。     

产喜树碱喜树内生真菌的筛选及喜树内生真菌的SRAP分析

生活在宿主植物里的内生真菌是很重要的药用资源。喜树是中国的传统药用植物。从喜树植物中分离得到了大约50种菌株,其中一株产喜树碱的菌株通过形态学鉴定为青霉属,这是首次在喜树植物中发现产喜树碱的青霉属菌株。为研究简单序列重复相关序列扩增多态性(SRAP)方法在喜树内生真菌中应用的可行性,选择了十株喜树内生真菌进行SRAP多态性分析。SRAP引物共扩增出1 295条带,而这些菌株也被分为三大类。这些结果表明,SRAP研究喜树内生真菌具有高效性,是讨论喜树内生真菌的遗传多样性的有效方法。     

A new Epichloe species with interspecific hybrid origins from Poa pratensis ssp. pratensis in Liyang, China

We describe a new Epichlo? species found in symbiosis with Poa pratensis ssp. pratensis in Liyang, China. Stromata characteristic of Epichlo? spp. were present on some of the reproductive tillers of individual host grasses. Only three of the 98 stromata observed on field plants became orange and produced perithecia. Phylogenetic analyses based on sequences of tubB and tefA indicated that this Epichlo? sp. was an interspecific hybrid related to both E. yangzii and members in the E. typhina complex clade (ETC). Allele-1 of tefA and tubB grouped in the E. bromicola/E. yangzii clade; allele-2 of these two genes clustered in a distinct subclade in the ETC. This is the first report of an Epichlo? species that has interspecific hybrid origins. We propose the name Epichlo? liyangensis Z. Wang, Y. Kang et H. Miao, sp. nov. for this species.     

A complex ergovaline gene cluster in epichloe endophytes of grasses

Clavicipitaceous fungal endophytes of the genera Epichlo? and Neotyphodium form symbioses with grasses of the subfamily Pooideae, in which they can synthesize an array of bioprotective alkaloids. Some strains produce the ergopeptine alkaloid ergovaline, which is implicated in livestock toxicoses caused by ingestion of endophyte-infected grasses. Cloning and analysis of a nonribosomal peptide synthetase (NRPS) gene from Neotyphodium lolii revealed a putative gene cluster for ergovaline biosynthesis containing a single-module NRPS gene, lpsB, and other genes orthologous to genes in the ergopeptine gene cluster of Claviceps purpurea and the clavine cluster of Aspergillus fumigatus. Despite conservation of gene sequence, gene order is substantially different between the N. lolii, C. purpurea, and A. fumigatus ergot alkaloid gene clusters. Southern analysis indicated that the N. lolii cluster was linked with previously identified ergovaline biosynthetic genes dmaW and lpsA. The ergovaline genes are closely associated with transposon relics, including retrotransposons and autonomous and nonautonomous DNA transposons. All genes in the cluster were highly expressed in planta, but expression was very low or undetectable in mycelia from axenic culture. This work provides a genetic foundation for elucidating biochemical steps in the ergovaline pathway, the ecological role of individual ergot alkaloid compounds, and the regulation of their synthesis in planta.     

A new species of Epichloë symbiotic with Chinese grasses

Epichlo? species are fungal symbionts (endophytes) of grasses, six European and four North American biological species in genus Epichlo? have been described in previous researches. In this study we describe a new Epichlo? species, Epichlo? yangzii Li et Wang, found in natural symbioses with Roegneria kamoji native to China. We investigated the host specificity, morphology, interfertility tests and molecular phylogenetic evidences of this new species. The results indicated that E. yangzii is host specific and seedborne. Most morphological characteristics of this new species are typical in the genus. However differences are evident in several features including size of perithecia, asci and ascospores. In mating tests E. yangzii was not interfertile with E. elymi isolates from related hosts in genera Elymus. Phylogenetic relationships based on sequences of beta-tubulin gene (tub2) introns and translation elongation factor 1-alpha gene (tef1) introns showed that members of the new species grouped into exclusive clades with high bootstrap value.     

The effects of Epichloë endophytes on the growth and competitiveness of Achnatherum sibiricum are mediated by soil microbe diversity

季节性干旱驱动亚热带森林的碳积累 本研究旨在表明处于南亚热带的鼎湖山生物圈保护区的干旱频率和强度正在增加,并说明季节性干旱对亚热带森林碳积累的影响。这是为了应对全球气候变化导致的干旱加剧所带来的威胁开展的一项研究。我们使干旱指数(标准化降水指数、标准降水蒸散发指数、降水距平百分率及自校准帕尔默干旱指数)准确确定干旱期和降水量增加期。此后,将2003至2014年(12年)监测采集的实测涡动通量和土壤含水量数据在干旱期和湿润期之间进行比较,以确定干旱对生态系统碳积累的影响。在本研究所选择的12年期间,干旱的发生时间约占比20%,最强干旱事件和严重程度发生于2012至2013年。研究期间的年平均降水量和气温分别为1404.57 ± 43.2 mm和22.65 ± 0.1 °C,与30年记录(1990–2020)相比较,年降水量减少量可达523 mm,而气温则增加了2.55 °C。与全球针对大多数森林生态系统研究所发表的数据呈相反趋势,处于中国南亚热带区域的鼎湖山生物圈保护区在60%的干旱期内所监测的森林生态系统记录到显著的碳积累趋势,说明季节性干旱驱动了森林的碳积累。     

Epichlo? festucae and related mutualistic symbionts of grasses.

Epichlo? and Neotyphodium species (Ascomycota) are mutualistic symbionts (endophytes) of temperate grasses, to which they impart numerous and profound fitness benefits. Epichlo? festucae, a common symbiont of Festuca, Lolium,and Koeleria spp., is a model for endophyte research that is amenable to Mendelian and molecular genetic analysis. Characteristics of E. festucae include: (i) production of the anti-insect alkaloids peramine and lolines, (ii) production of the anti-vertebrate alkaloids lolitrem B and ergovaline, (iii) efficient vertical transmission via host seeds, (iv) a mildly pathogenic state associated with the E. festucae sexual cycle, and (v) a clear role in enhancing survival of host plants. Genetic analysis of alkaloid production has recently begun. Also, physiological and ultrastructural studies suggest that signals communicated between E. festucae and host plants ensure an exquisitely balanced interaction to the mutual benefit of both partners. Several mutualistic Neotyphodium species are hybrids between E. festucae and other endophyte species.     

Plant population and genotype effects override the effects of Epichloë endophyte species on growth and drought stress response of Achnatherum robustum plants in two natural grass populations

Aims In cool-season grasses, systemic and vertically transmitted Epichlo? infections often provide a suite of benefits including increased growth, reproduction and competitive abilities. However, these effects of Epichlo? endophytes on their hosts often depend upon host and endophyte genotype and environmental factors.Methods Achnatherum robustum (sleepygrass) harbors at least two Epichlo? species within natural populations in the Southwest USA. We tested the effects of endophyte infection and species, host population and plant genotype (by experimentally removing the endophyte), and soil moisture (a key limiting factor) on growth and drought stress response of infected A. robustum plants from two populations (Weed and Cloudcroft) in the Sacremento Mountains of New Mexico, USA).Important findings Although the two populations harbor distinct Epichlo? species each with very different chemoprofiles, neither endophyte status (infected vs. uninfected) nor endophyte species affected most growth parameters at 8 or 25 weeks of the experiment, except for leaf length. In high water treatment, infected plants from the Weed population had longer leaf length compared with uninfected plants. In contrast, the population of origin affected all growth parameters, including plant height, leaf number, length and width, tiller number and shoot and root biomass, as well as wilting time. Grasses from the Cloudcroft population generally showed greater growth than grasses from the Weed population. Endophyte infection did affect wilting time, with infection in the Weed population generally reducing time to wilting under low and high water, whereas infection in the Cloudcroft population reduced time to wilting only under high water conditions. Our results suggest that plant population and their associated plant genotypes may play a much larger role in endophyte–host grass interactions in varying environments than previously thought. Asexual Epichlo? species may be compatible with only specific host genotypes within populations such that the phenotypic effects due to population may be greater than phenotypic changes influenced by variation in the endophyte.     

Distribution of NRPS gene families within the Neotyphodium/Epichloë complex

Neotyphodium and Epichloë spp are closely related asexual and sexual endophytic fungi, respectively, that form mutualistic associations with cool season grasses of the subfamily Pooideae. The endophytes confer a number of advantages to their hosts, but also can cause animal toxicoses and these effects are, in many cases, due to the production of fungal secondary metabolites. In filamentous fungi, secondary metabolite genes are commonly clustered and, for those pathways involved in non-ribosomal peptide synthesis, a non-ribosomal peptide synthetase (NRPS) gene is always found as a key component of the cluster. Members of this gene family encode large multifunctional enzymes that synthesize a diverse range of bioactive compounds and in numerous cases have been shown to serve as pathogenicity or virulence factors, in addition to suggested roles in niche adaptation. We have used a degenerate PCR approach to identify members of the NRPS gene family from symbiotic fungi of the Neotyphodium/Epichloë complex, and have shown that collectively, at least 12 NRPS genes exist within the genomes examined. This suggests that secondary metabolites are important during the life cycles of these fungi with their hosts. Indeed, both the ergovaline and peramine biosynthetic pathways, which confer competitive abilities to Neotyphodium and Epichloë symbioses, contain NRPS genes at their core. The distribution of these genes among different Neotyphodium/Epichloë lineages suggests that a common ancestor contributed most of the complement of NRPS genes, which have been either retained or lost during the evolution of these fungi.