禾草内生真菌的遗传多样性及其共生关系

 近百年的禾草内生真菌研究历经了由浅入深的过程,从最初的家畜中毒事件认识到是一种共生内生真菌存在的缘故,到如今利用分子生物学技术揭示其共生机制,人类发现这类植物内生真菌并非想象中的对生态系统无足轻重。Epichloë及其无性型Neotyphodium与禾本科植物是系统发生的互利共生关系,尤其是Neotyphodium可提高宿主抵抗环境胁迫的能力和抵御动物的取食,增强植物的竞争力。禾草内生真菌有3种生活史：有性生活史、无性生活史和兼性生活史,后者表明真菌在不同的宿主及环境下既能营有性生殖也可营无性繁殖,是一种更灵活而有效的生活史对策。对内生真菌分子系统学、生活史以及与宿主禾草协同进化的研究发现,Neotyphodium起源于禾草致病真菌Epichloë的某些种,或是Epichloë与Neotyphodium的种间杂交后代。植物和内生真菌各异的生活史策略,真菌的种间杂交,两者的协同进化亦或种群间基因流的差异,都促成了共生体多样化的基因组合（Genetic combination ）,也是其共生关系多样化的根源。内生真菌对宿主的有益作用只在特定基因型真菌、宿主和一定环境条件下才起作用,自然生态系统的共生关系要比农业系统复杂得多,是一个从互利共生至寄生关系的连续系统。未来对于更多共生体的遗传背景和基因与环境相互作用的阐明将有助于对禾草内生真菌共生关系本质更加深入的认识。     

内生真菌提高禾草抗盐碱性研究进展

盐碱会导致植株生长缓慢甚至抑制其正常发育,如何降低高盐和高p H对植物的不利影响,已成为农业持续发展的重大课题。近年来,内生和共生真菌对宿主植物在抗盐碱方面的有益作用也引起了研究人员的广泛兴趣。本综述评述了内生真菌对宿主禾草植物抗盐碱性影响的研究成果,首先评述了内生真菌对宿主禾草在盐碱胁迫下种子萌发和生长发育影响:表现在提高种子发芽率;促进胚芽和胚根生长;提高宿主禾草的分蘖数、叶片数、株高、生物量、根冠比、成熟花序长度、种子数和种子产量。但也有感染内生真菌对宿主在盐胁迫下无促进作用的。其次,评述了内生真菌在减少禾草盐碱胁迫的原初盐害方面作用:表现为影响膜透性、提高光合作用、增加水分利用效率、改变营养代谢和离子毒害、影响植物激素代谢。最后综述了内生真菌在减少禾草次生盐害方面作用,内生真菌具有促进禾草分泌抗氧化剂、增加抗氧化酶活性、调节有机渗透物质的作用。系统的归纳了内生真菌与宿主禾草抗盐碱性相关研究成果,提出未来可能的研究问题和方向为后期的科研提供参考。     

内生真菌提高禾草抗盐碱性研究进展

盐碱会导致植株生长缓慢,甚至抑制其正常发育,如何降低高盐和高p H对植物的不利影响,已成为农业持续发展的重大课题。近年来,内生和共生真菌对宿主植物在抗盐碱方面的有益作用也引起了研究人员的广泛关注。综述了内生真菌对宿主禾草植物抗盐碱性影响的研究成果,首先评述了内生真菌对宿主禾草在盐碱胁迫下种子萌发和生长发育影响表现在:提高种子发芽率;促进胚芽和胚根生长;提高宿主禾草的分蘖数、叶片数、株高、生物量、根冠比、成熟花序长度、种子数和种子产量。但也有感染内生真菌对宿主在盐胁迫下无促进作用的。其次,评述了内生真菌在减少禾草盐碱胁迫的原初盐害方面作用表现为:影响膜透性、提高光合作用、增加水分利用效率、改变营养代谢和离子毒害、影响植物激素代谢。最后综述了内生真菌在减少禾草次生盐害方面作用,内生真菌具有促进禾草分泌抗氧化剂、增加抗氧化酶活性、调节有机渗透物质的作用。系统的归纳了内生真菌与宿主禾草抗盐碱性相关研究成果,提出未来可能的研究问题和方向为后期的科研提供参考。     

禾草内生真菌对其它微生物的影响研究进展

禾草内生真菌在宿主植物的茎叶等地上组织中普遍存在,不仅能够提高禾草对生物与非生物逆境的抗性,而且能够对周围环境中的不同微生物类群产生影响。主要总结了禾草Neotyphodium/Epichlo内生真菌对病原真菌、丛枝菌根真菌和土壤微生物的影响及其作用机理。发现禾草内生真菌普遍存在对病原真菌的抑制作用,而对丛枝菌根真菌存在不对称的竞争作用,且因种类而异。禾草内生真菌对土壤微生物群落的作用则会随着土壤类型和时间等外界因素发生变化。禾草内生真菌对不同类群微生物的影响机制主要包括:通过生态位竞争、抑菌物质分泌、诱导抗病性等对病原真菌造成影响;通过根系化学物质释放、营养元素调节、侵染条件差异等对丛枝菌根真菌造成影响;通过根际沉积物和凋落物等对土壤微生物群落造成影响。禾草内生真菌产生的生物碱能提高宿主植物对包括昆虫在内草食动物采食的抗性,影响病原菌的侵入、定殖和扩展;根组织分泌物中包含次生代谢产物能够抑制菌根真菌、土传病原真菌及其它土壤微生物的侵染与群落组成;也可能通过次生代谢物影响禾草的其它抗性。因此,禾草内生真菌在植物-微生物系统中的作用应该给予更多的关注和深入研究。     

植物与内生真菌互作的生理与分子机制研究进展

在自然生态系统中,植物组织可作为许多微生物定居的生态位.内生真菌普遍存在于植物组织内,与宿主建立复杂的相互作用(互惠、拮抗和中性之间的相互转化),并且存在不同的传播方式(垂直和水平传播).内生真菌通过多样化途径来增强植物体的营养生理和抗性机能.但这种生理功能的实现有赖于双方精细的调控机制,表明宿主和真菌双方都进化形成特有的分子调控机制来维持这种互惠共生关系.环境因子(如气候、土壤性质等)、宿主种类和生理状态、真菌基因型的变化都将改变互作结果.此外,菌根真菌和真菌病毒等也可能普遍参与植物-内生真菌共生体,形成三重互作体系,最终影响宿主的表型.研究试图从形态、生理和分子水平阐述内生真菌与植物互作的基础.     

印度梨形孢(Piriformospora indica)增强植物抗逆境胁迫能力的研究进展

印度梨形孢是一种可在多种植物根部定殖的内生真菌,能与多种植物形成共生体,提高植物对外界营养的吸收能力,促进次生代谢产物的积累,提高植物对生物及非生物胁迫的抵抗能力,同时可增加植物的生物产量,对宿主植物产生许多有益影响。因此,印度梨形孢作为优良的生物防治和土壤改良因子,在农业生产方面显示出巨大的应用前景。本文结合本课题组近年研究结果及近10年间相关科学工作者的研究,系统总结了印度梨形孢在增强植物抗生物胁迫与非生物胁迫方面的研究进展,旨在为更好地发挥其潜在价值提供参考。     

醉马草内生真菌共生体研究进展

有关醉马草(Achnatherum inebrians)内生真菌(Epichloë gansuensis, E. inebrians)共生体的研究, 代表了我国禾草内生真菌研究领域的重要方向, 使中国的醉马草-内生真菌与美国的苇状羊茅(Festuca arundinacea)-内生真菌(E. coenophiana)和新西兰的多年生黑麦草(Lolium perenne)-内生真菌(E. festucae var. lolii)成为禾草内生真菌国际三大研究分支。该文综述了近30年来对醉马草内生真菌共生体的系统研究, 包括: 内生真菌的分布、带菌率、检测方法、多样性, 内生真菌提高宿主的抗旱、耐寒、耐盐碱、耐重金属、抗虫、抗病等抗逆性及其机理, 共生体产生的生物碱等次生代谢物, 对草食动物的毒性, 及其在草地生态系统中的作用等。研究者实验证实了醉马草本身无毒, 只有当内生真菌与醉马草共生并产生麦角新碱和麦角酰胺等麦角类生物碱后才能导致采食醉马草家畜中毒。文章展望了醉马草内生真菌基因组学和功能分析, 利用杀菌剂杀死内生真菌进行醉马草脱毒, 利用无毒内生真菌菌株进行饲用醉马草新品种选育, 利用有毒醉马草内生真菌共生体进行抗虫防鸟的机场绿化新品种选育及生物源农药与医药开发等。     

Advances in research of Achnatherum inebrians-Epichloë endophyte symbionts

有关醉马草(Achnatherum inebrians)内生真菌(Epichloë gansuensis, E. inebrians)共生体的研究, 代表了我国禾草内生真菌研究领域的重要方向, 使中国的醉马草-内生真菌与美国的苇状羊茅(Festuca arundinacea)-内生真菌(E. coenophiana)和新西兰的多年生黑麦草(Lolium perenne)-内生真菌(E. festucae var. lolii)成为禾草内生真菌国际三大研究分支。该文综述了近30年来对醉马草内生真菌共生体的系统研究, 包括: 内生真菌的分布、带菌率、检测方法、多样性, 内生真菌提高宿主的抗旱、耐寒、耐盐碱、耐重金属、抗虫、抗病等抗逆性及其机理, 共生体产生的生物碱等次生代谢物, 对草食动物的毒性, 及其在草地生态系统中的作用等。研究者实验证实了醉马草本身无毒, 只有当内生真菌与醉马草共生并产生麦角新碱和麦角酰胺等麦角类生物碱后才能导致采食醉马草家畜中毒。文章展望了醉马草内生真菌基因组学和功能分析, 利用杀菌剂杀死内生真菌进行醉马草脱毒, 利用无毒内生真菌菌株进行饲用醉马草新品种选育, 利用有毒醉马草内生真菌共生体进行抗虫防鸟的机场绿化新品种选育及生物源农药与医药开发等。     

印度梨形孢-植物共生关系的建立及共生体对重金属胁迫的响应

重金属污染土壤的治理一直是全球热点问题,植物-微生物联合修复技术因其高效、经济和减少二次污染而被广泛关注.印度梨形孢是一种能够与植物共生的真菌,它能够通过与植物建立共生关系的方式来提高宿主植物的生长和耐胁迫能力.本文系统总结了印度梨形孢-植物体共生关系的建立过程,以及重金属胁迫下共生体的生长、光合作用、抗性生理指标、防...     

内生真菌与宿主植物协同调控砷胁迫作用机制研究进展

丛枝菌根真菌(arbuscular mycorrhizal fungi,AMF)和深色有隔内生真菌(dark septate endophytes, DSE)是植物根系中最主要的两大类内生真菌,均可与植物根系形成菌根共生体,在促进植物生长,提高重金属等胁迫抗性方面发挥着重要作用。砷(arsenic, As)及砷化合物具有较强的毒性,可在植物中富集,造成生物链毒害。本团队一直致力于内生真菌与药用植物生长、活性物质合成,砷吸收、积累关系的研究,并取得了一定的进展。结合团队现有研究和前人研究成果,本文分析归纳了砷胁迫条件下,AMF定殖对宿主植物生长和砷吸收、积累的影响;详细阐述了砷胁迫条件下,宿主植物生理活动、抗氧化系统、激素水平、转录水平响应AMF调控的变化。其后,从宿主植物细胞内、外两个方面总结内生真菌与宿主植物协同调控砷胁迫的作用机制,归纳为“生长稀释效应”“菌丝隔离”“螯合过滤”“菌根固定化(mycorrhizal immobilization)”“转运体抑制效应”“生物转化作用”和“保宿主、降氧化”等7项作用机制,并绘制了不同机制之间的作用关系图。DSE-宿主植物调控砷胁迫的研究相...     

Potential analysis of grass endophytes Neotyphodium as biocontrol agents

Many grasses in the subfamily Pooideae develop symbioses with Neotyphodium fungal endophytes, which exist widely in nature. The stably symbiotic relationship not only ensures accessible nutrients required by Neotyphodium fungal endophytes, but also significantly increases the resistance of host grasses to biological stresses through the production of secondary metabolites. Previous studies show that infected grasses with endophytic fungi have prominently enhanced resistance to pests, plant diseases, companion plants and other biological stresses. Grass endophytic fungi show remarkable resistant to at least 79 species of pests from three classes; arachnida, nematode and insecta, and to at least 22 species of pathogenic fungi. Although the biotechnological application of endophytic fungi in grass breeding for variety selection and quality improvement has progressed well, opportunities remain for further exploring the use of fungal endophytes among different host grasses coupled with the examination of genetic stability of Neotyphodium in novel host grasses. In the future application of endophytic fungi as a bio-control method, researchers should not only consider specificities of host grasses, but also need to have comprehensive analysis and knowledge about the mutual relationships among grasses, endophytic fungi and ecological environments, which will help use endophytic fungi to better serve humanity.     

内生真菌对羽茅抗病性的影响

为探讨不同种类内生真菌对宿主植物羽茅(Achnatherum sibiricum)抗病性的影响, 以感染不同内生真菌的天然禾草羽茅为实验材料, 进行了体外纯培养的内生真菌、感染内生真菌的离体叶片和在体叶片对3种植物病原真菌的抑菌实验。结果表明: 体外纯培养条件下, 分离自羽茅的内生真菌Neotyphodium sibiricum、Neotyphodium gansuensis和Epichloë gansuensis对新月弯孢霉(Curvularia lunata)、根腐离蠕孢(Bipolaris sorokiniana)和枝孢霉(Cladosporium sp.)等3种病原真菌都具有抑制作用, 其中N. sibiricum的抑制作用最强, 对新月弯孢霉、根腐离蠕孢和枝孢霉的抑菌率分别为47.8%、40.1%、39.4%; 内生真菌培养滤液也可以有效抑制这3种病原真菌的孢子萌发, 其中N. gansuensis的抑制作用最强, 新月弯孢、根腐离蠕孢和枝孢霉的孢子萌发率分别为9.8%、8.7%、8.5%。对于离体叶片, N. sibiricum和N. gansuensis感染可以有效降低叶片受3种病原真菌侵染后的病斑数和孢子浓度, 其中N. sibiricum对根腐离蠕孢的抑制作用显著高于N. gansuensis, 而E. gansuensis只降低新月弯孢和枝孢霉侵染的病斑数以及枝孢霉侵染的孢子浓度。在体条件下, 内生真菌均可以显著降低病原真菌侵染羽茅后的病斑数、病斑长度和孢子浓度, 其中E. gansuensis的抑菌作用趋于最弱, 而N. sibiricum的抑菌作用趋于最强。     

植物内生菌及其防治植物病害的研究进展

综述了植物内生菌及其防治植物病害的研究进展.植物内生菌分布广,种类多,几乎存在于所有目前已研究过的陆生及水生植物中,目前全世界至少已在80个属290多种禾本科植物中发现有内生真菌,在各种农作物及经济作物中发现的内生细菌已超过120种.感染内生菌的植物宿主往往具有生长快速、抗逆境、抗病害、抗动物危害等优势,比未感染内生菌的植株更具生存竞争力.植物内生菌的防病机理主要表现在通过产生抗生素类,水解酶类,植物生长调节剂和生物碱类物质,与病原菌竞争营养物质,增强宿主植物的抵抗力以及诱导植物产生系统抗性等途径抑制病原菌生长.另外,对植物内生真菌和内生细菌的分离、筛选和检测方法;利用植物内生菌控制植物病害的途径如人工接种内生菌,利用内生菌代谢产生的抗生素以及将内生菌作为基因工程的载体菌等进行了综述.同时,对植物内生菌作为生物防治因子未来发展前景及存在的问题进行了讨论.利用植物内生菌作为生物防治因子进行大田防病,需要考虑它的病理学、生态学和形态学等方面的影响.     

Effect of different species of endophytes on fungal disease resistance of Achnatherum sibiricum

AimsAchnatherum sibiricum, a native grass species, is widely distributed in the steppe of Nei Mongol, China. In this study, three endophytic fungi, i.e., Neotyphodium sibiricum, N. gansuensis and Epichloë gansuensis, were isolated from A. sibiricum and examined the effect of the endophytes on the resistance of A. sibiricum to fungal disease.
Methods Three fungi: Curvularia lunata, Bipolaris sorokiniana and Cladosporium sp. were chosen as the target pathogens. Three experiments were carried out to evaluate the effects of endophytic inoculation of A. sibiricum on its pathogen resistance: 1) endophye in vitro, 2) inoculated detached leaves and 3) intact plants. They were infected with the three pathogens above mentioned, separately. Seven days later, inhibition rates, the number of lesions, lesion length and concentration of spores were measured.
Important findings The results showed that all endophytes significantly reduced the growth of pathogens fungi in vitro, and N. sibiricums had the strongest effect: its bacteriostasis rate to Curvularia lunata, B. sorokiniana and Cladosporium sp. were 47.8%, 40.1% and 39.4%, respectively. Culture filtration of three endophytes also effectively reduced pathogen spore germination, in which N. gansuensis showed the strongest impact. The germination rates of Curvularia lunata, B. sorokiniana and Cladosporium sp. were only 9.8%, 8.7% and 8.5%, respectively. Neotyphodium sibiricum and N. gansuensis could reduce lesion number and spore concentration of detached host leaves after the pathogens inoculation. Epichloë gansuensis reduced lesion number of detached leaves after inoculation with Curvularia lunata and Cladosporium sp., and decreased spore concentration of the pathogens fungi of Cladosporium sp. In the intact leaves, three endophytes reduced lesion number, lesion length and spore concentration as well after inoculation of the pathogens with those infected with N. sibiricum showing the strongest resistance, while with Epichloë gansuensis, the weakest resistance.     

Evolutionary origins and ecological consequences of endophyte symbiosis with grasses

Over the past 20 yr much has been learned about a unique symbiotic interaction between fungal endophytes and grasses. The fungi (Clavicipitaceae, Ascomycota) grow intercellularly and systemically in aboveground plant parts. Vertically transmitted asexual endophytes forming asymptomatic infections of cool-season grasses have been repeatedly derived from sexual species that abort host inflorescences. The phylogenetic distribution of seed-transmitted endophytes is strongly suggestive of cocladogenesis with their hosts. Molecular evidence indicates that many seed-transmitted endophytes are interspecific hybrids. Superinfection may result in hyphal fusion and parasexual recombination. Most endophytes produce one or more alkaloid classes that likely play some role in defending the host plant against pests. Hybridization may have led to the proliferation of alkaloid-production genes among asexual endophytes, favoring hybrids. The ergot alkaloid ergovaline, lolitrems, and lolines are produced by only a single sexual species, Epichlo? festucae, but they are common in seed-transmitted endophytes, suggesting that E. festucae contributed genes for their synthesis. Asexual hybrids may also be favored by the counteracting of the accumulation of deleterious mutations (Muller's rachet). Endophyte infection can provide other benefits, such as enhanced drought tolerance, photosynthetic rate, and growth. Estimates of infection frequency have revealed variable levels of infection with especially high prevalence in the subfamily Pooideae. Longitudinal studies suggest that the prevalence of seed-transmitted endophytes can increase rapidly over time. In field experiments, infected tall fescue suppressed other grasses and forbs relative to uninfected fescue and supported lower consumer populations. Unlike other widespread plant/microbial symbioses based on the acquisition of mineral resources, grass/endophyte associations are based primarily on protection of the host from biotic and abiotic stresses.     

Non-systemic fungal endophytes of grasses

Many fungi behave as endophytes in grasses. Unlike the well known Epichloë/Neotyphodium species, most other endophytes are not capable of systemic colonization of plant organs, or seed transmission. The species diversity of the non-systemic endophytic mycobiota of grasses is large, dominated by ascomycetes. The relative abundance of species is very unequal, a few dominant taxa like Acremonium, Alternaria, Cladosporium, Epicoccum and Penicillium spp., occur in many grasses and locations. In contrast, many rare species are isolated only once in endophyte surveys. The possible ecological functions of endophytes are diverse, and often unknown. Latent pathogens represent a small fraction of endophytic mycobiotas, indicating that many non-pathogenic fungal taxa are able to enter plants overriding defence reactions. Some dominant species behave as latent saprotrophs, sporulating when the host tissue dies. Endofungal viruses and bacteria occur among endophytic species, but their effect in their hosts is largely unknown.     

内生真菌感染对宿主羽茅及邻生植物抗病性的影响

Epichloë内生真菌能够影响宿主植物的抗病性, 但目前关于内生真菌感染对宿主邻生植物抗病性影响的研究很少。该研究首先调查了内蒙古呼伦贝尔天然草地中植物病害发生情况, 发现在常见牧草中禾本科植物病害最为严重, 其中感染内生真菌的羽茅(Achnatherum sibiricum)的总病情指数最低。进一步比较了与羽茅邻生及非邻生植物的病害差异, 结果显示羽茅显著降低了邻生羊草(Leymus chinensis)、狼针草(Stipa baicalensis)和冰草(Agropyron cristatum)的褐斑病病情指数。为探究羽茅对邻生植物病害的影响是否与其内生真菌有关, 分别从内生真菌发酵液、离体叶片和植株层面进行了室内验证试验。结果表明: 羽茅的2种内生真菌Epichloë gansuensis和Epichloë sibiricum发酵液显著抑制了新月弯孢(Curvularia lunata)、根腐离蠕孢(Bipolaris sorokiniana)、核盘菌(Sclerotinia sclerotioru)和三叶草核盘菌(Sclerotinia trifoliorum)的生长; 对于离体叶片, E. gansuensis和E. sibiricum显著减小了宿主叶片受4种病原真菌侵染后的病斑长度。在新月弯孢和根腐离蠕孢的植株接种条件下, 内生真菌显著降低了宿主羽茅及邻生植物羊草的病害程度。该研究首次发现并验证了羽茅内生真菌对邻生禾草抵御褐斑病有一定的增益作用。     

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。     

Can seed-borne endophytes promote grass invasion by reducing host dependence on mycorrhizas?

Symbiotic interactions between plants and microorganisms have recently become the focus of research on biological invasions. However, the interaction between different symbionts and their consequences in host-plant invasion have been seldom explored. Here, we propose that vertically transmitted fungal endophytes could reduce the dependency of invasive grasses on mycorrhizal fungi allowing host establishment in those environments where the specific mutualist may be not present. Through analyzing published studies on nine grass species, we evaluated the effect of seed-borne Epichloë endophytes on the relationship of invasive and non-invasive grasses with arbuscular mycorrhizal fungi (AMF), a symbiosis known to be fundamental for plant fitness and invasion success. The endophyte effect on AMF colonization differed between invasive and non-invasive grasses, reducing mycorrhization only on invasive species but with no impact on their biomass. These results allowed us to propose that Epichloë endophytes could reduce the dependency of host plants on the mutualism with AMF, promoting host grass establishment and subsequent invasion. Simultaneous interactions with different types of mutualists may have profound effects on the host-plant fitness facilitating its range expansion. Our findings suggest that some specific mutualistic fungi such as epichloid endophytes facilitate host invasion by reducing the requirements of the benefits derived from other mutualisms.     

Endophytic fungi assemblages from 10 <Emphasis Type="Italic">Dendrobium</Emphasis> medicinal plants (Orchidaceae)

Dendrobium is the largest genus of tropical epiphytic orchid, some of which are traditional Chinese medicinal plants. The therapeutic components varied significantly among species. Endophytic microbes (fungi) hidden in medicinal plants may play an important effect on the overall quality of herb. Investigation of fungal composition in host plants is the first step toward elucidating the relationship endophyte-therapeutic content of herbal medicine. In this study, 401 culturable fungal endophytes were isolated and identified from 10 species of medicinal Dendrobium based on morphological and molecular techniques. The results showed that endophytic fungi from Dendrobium plants exhibited high biodiversity (37 genera, about 80 species). Acremonium, Alternaria, Ampelomyces, Bionectria, Cladosporium, Colletotrichum, Fusarium, Verticillium and Xylaria were the dominant fungal endophytes. Tropical epiphytic orchids appear to vary in degree of host specificity in their endophytic fungi.