内生真菌香柱菌及其次级代谢

两千年以前人们就已经知道一些牧草对牲畜等动物有毒。 1 90 4年Ｆｒｅｅｍａｎ从这些牧草中分离到了一类内生真菌 ,后被称为Ｎｅｏｔｙｐｈｏｄｉｕｍｏｃｃｕｌｔａｎｓ,人们才知晓造成这些动物中毒的真正元凶恰恰是这类微生物[1] 。在 2 0世纪 30年代 ,Ｓａｍｐｓｏｎ对一些植物的内生真菌作了比较性研究[2 ] ,这些内生真菌包括Ｎｅ ｏｔｙｐｈｏｄｉｕｍｌｏｉｉ和香柱菌属 (Ｅｐｉｃｈｌｏｅ)的一些种 ,其中香柱菌可以导致一些草类干死病 (ｃｈｏｋｅ)。而在大多数情况下 ,香柱菌及其相关的内生真菌长期生存于它们的宿主植物中 ,并不使…     

云南、浙江、内蒙古禾本科植物内生真菌多样性研究

从云南、浙江和内蒙古的30属禾本科植物分离到1 821株内生真菌,根据ITS rDNA系统发育分析和ITS预测真菌的阈值,将这些菌株鉴定为3门10纲34目216属,其中子囊菌门5纲26目192属,担子菌门3纲6目21属,毛霉门2纲2目3属。粪壳菌纲和座囊菌纲为主要优势纲,相对频率分别为54.8%和30.9%;座囊菌纲的格孢腔菌目和粪壳菌纲的肉座菌目、巨座壳目、小丛壳目、炭角菌目是主要优势目,相对频率分别为26.7%、12.6%、12.1%、11.3%和9.9%。主要优势纲和主要优势目在不同纬度地区的分布有明显差异。在鉴定的216个属级分类单元中,7个已知属Colletotrichum、Alternaria、Fusarium、Diaporthe、Penicillium、Arthrinium、Trichoderma和1个分类地位未定的属Pleosporales incertae sedis type 12的相对频率大于2%,除了这个分类地位未定的属以外,7个已知属都是广泛分布的真菌;云南、浙江和内蒙古的内生真菌组成和多样性差异明显,二地或三地共有的属仅58个,且云南禾本科植物的内生真菌多样性程度最高,内蒙古禾本科植物的内生真菌多样性程度最低;根部和地上部组织的内生真菌组成和多样性差异明显,两者共有的属仅53个,地上部组织的内生真菌多样性高于根部组织。因此,进一步深入调查不同区域,特别是热带和亚热带的禾本科植物内生真菌将丰富我们对禾本科植物内生真菌多样性的认识。     

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。     

兰科植物黄花白及Bletilla ochracea内生真菌多样性分析

黄花白及Bletilla ochracea是一种地生兰科植物,也是中国传统中药材之一。以黄花白及为实验材料,对其叶和根组织中内生真菌类群组成及多样性进行分析。结果表明,从黄花白及植株的叶片和根组织块(段)中分离到可培养内生真菌140株,根据形态特征将它们鉴定为16个分类单元,其中包括10种子囊菌和6种担子菌。从叶片组织中分离的内生真菌有6种,其中刺盘孢属Colletotrichum真菌为叶片组织中的优势种类;从根组织中分离内生真菌有10种,瘤菌根菌属Epulorhiza和腊壳菌属Sebacina真菌构成了根组织内生真菌的优势类群。根组织可培养内生真菌的多样性(H′=1.968)要高于叶片组织(H′=1.459)。     

中国种子植物内生真菌资源及菌植协同进化

综述了中国种子植物内生真菌资源研究概况,比较了裸子植物和被子植物内生真菌种类,它们都具有肉座菌目(Hypocreales),粪壳菌目(Sordariales),散囊菌目(Eurotiales),毛霉目(Mucorales)及不产孢类(Myceliasterilia)内生真菌。裸子植物内生真菌涉及52个属,既包括高等的子囊菌和担子菌,也包括低等的卵菌(Oomycetes)和接合菌(Zygomycetes)类。被子植物涉及60个属,主要为高等的子囊菌(Ascomycetes)和担子菌(Basidiomycetes),低等的卵菌和接合菌报道很少。双子叶植物涉及40个属,单子叶植物内生真菌涉及30个属,两类被子植物所报道的内生真菌只有11个属相同。裸子植物与双子叶植物内生真菌相似程度较高,都具有炭角菌目(Xylariales)、格孢腔菌目(Pleosporales)、柔膜菌目(Helotiales)和白粉菌目(Erysiphales),刺盘孢菌属(Colletotrichum)、拟茎点霉属(Phomopsis)、枝孢霉属(Cladosporium)、地霉属(Geotrichum)等内真菌,共20个属相同。各类种子植物具有自己独特的一些内生真菌。还对植物与其内生真菌的协同进化关系进行了分析。     

五味子根内生真菌的分离及其抑菌活性的研究

采用组织块分离方法对五味子根内生真菌进行分离鉴定,并以人参疫病病菌[Phytophthora cactorum(Leb.et Coh.)Schroet.]、人参黑斑病病菌(Alternaria panax Whetz.)为供试病原菌对分离的内生真菌进行了抑菌活性筛选。试验共分离得到74株内生真菌,根据形态特征鉴定出33株,分别隶属于半知菌亚门丛梗孢科的轮枝孢属(Verticillium)、柱隔孢属(Ramularia)和瘤座孢科的镰刀菌属(Fusarium)。通过抑菌试验筛选出5个内生真菌有抑制作用,其中3个内生真菌的发酵产物、乙醇提取液对2种病原菌均有一定的抑菌活性。     

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。     

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.     

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。     

感染羽茅的香柱菌属内生真菌对丛枝菌根真菌孢子萌发的影响

内生真菌与丛枝菌根(AM)真菌是构成草原生态系统的重要组成部分.内生真菌会抑制其宿主植物的AM真菌侵染率.本研究以感染2种香柱菌属内生真菌[Epichloё gansuensis(Eg)和E. sibirica(Es)]的天然禾草羽茅为供试材料,进行体外纯培养的内生真菌培养滤液、感染内生真菌的羽茅叶片(包括鲜叶和枯叶)浸提液,以及根系分泌物对摩西球囊霉(Gm)和幼套球囊霉(Ge)2种AM真菌孢子萌发影响试验.结果表明: 香柱菌属内生真菌的培养滤液会显著抑制2种AM真菌孢子的萌发,而感染香柱菌属内生真菌的羽茅根系分泌物只对Ge孢子萌发有显著抑制作用,且上述抑制作用与内生真菌种类无关;鲜叶浸提液对Gm和Ge的孢子萌发率均无显著影响,而枯叶浸提液对Ge的孢子萌发有显著抑制作用.在自然生态系统中,香柱菌属内生真菌通常存在于宿主植物体内,可能通过影响宿主植物的根系分泌物来影响AM真菌孢子的萌发.     

When looks can kill: the evolution of sexually dimorphic floral display and the extinction of dioecious plants

Dioecious plants (with separate male and female individuals) more often have drab, inconspicuous flowers than related bisexual plants. Models indicate, however, that similar conditions favour the evolution of showy floral displays in dioecious and bisexual plants. One difference, however, is that dioecious plants may evolve floral displays that are sexually dimorphic. We show that males are more likely to evolve showy flowers than females in animal-pollinated plants, especially when pollinators are abundant. We demonstrate that this dimorphism places showy dioecious plants at a much higher risk of extinction during years of low pollinator abundance because pollinators may fail to visit female flowers. The higher extinction risk of showy dioecious plants provides an explanation for the fact that dioecious plants that do persist tend to have inconspicuous flowers and are more often wind pollinated. It may also help explain why dioecious plants are less species-rich than related bisexual plants.     

Is extrafloral nectar production induced by herbivores or ants in a tropical facultative ant–plant mutualism?

Many plants use induced defenses to reduce the costs of antiherbivore defense. These plants invest energy in growth when herbivores are absent but shunt energy to defense when herbivores are present. In contrast, constitutive defenses are expressed continuously regardless of herbivore presence. Induction has been widely documented in temperate plants but has not been reported from tropical plants. Most tropical plants have higher, more constant herbivore pressure than temperate plants. In this situation, it is hypothesized that constitutive defenses rather than induced defense would be favored. Using natural herbivores of four species of Inga saplings on Barro Colorado Island, Panama, herbivore presence was crossed with ant presence to determine their effects on extrafloral nectar production. Analysis of nectar samples revealed that Inga species do not induce nectar production in response to herbivores. This result is not due to an inability of the plants to respond, as the plants in this study increased nectar production in response to light and ant presence. Contrary to most induction experiments with temperate ecosystem plants, these results demonstrate that tropical plants do not induce one type of defense, and they suggest that the most adaptive defense strategies are different for the two ecosystems.     

中国西南纵向岭谷区外来入侵植物对生物多样性的影响

论述中国西南纵向岭谷区外来入侵植物对生物多样性的影响。中国西南纵向岭谷区是我国生物多样性保护的关键地区。目前,该区域已成为外来植物入侵的重灾区,外来入侵植物种类多达70余种,其中,紫茎泽兰Ageratina adenophora（Eupatoriumadenophorum）、飞机草Chromolaena odorata（Eupatorium odoratum）和肿柄菊Tithonia diversifolia等在该区域危害严重,该区域的生态系统的结构与功能遭受破坏,本地物种面临灭绝,农、林、牧生产乃至区域的生态安全受到威胁。该区域的外来入侵植物的危害居全国之冠。研究该区域的外来入侵植物,揭示其危害规律,遏制其危害速度,最终清除该区域的外来入侵植物,恢复该区域的生态平衡,具有十分重要的现实意义和科学价值。文中详细论述了外来入侵植物对植物物种多样性、植物群落多样性、生态系统多样性、农牧业及林业的影响,最后指出消除和控制外来入侵植物的途径。     

Modulating flowering time and prevention of pod shatter in oilseed rape

Floral induction is a key developmental switch in plants that leads to the production of flowers, fruits and seeds, which are of paramount importance for human life. To meet the demands of several crop harvests per year, or the growth of crop plants in regions with short vegetation times and for the production of ornamental plants, the timing of the floral transition is very important. The discovery of genes that are involved in flowering time control in model plants should allow the modulation of this developmental switch also in plants with economic value. By using a transgenic approach, we showed that a single MADS box gene accelerated flowering and seed ripening in summer rape plants. The MADSB transgene also partially substituted for the strict temperature requirements for flowering in winter rape plants. Transgenic winter rape plants expressing the MADSB transgene also produced more rigid siliques than wild type winter rape plants, and this prevented precocious seed dispersal.     

Yucatec Maya Medicinal Plants Versus Nonmedicinal Plants: Indigenous Characterization and Selection

Medicinal plants are an important part of the environment as it is perceived by Mexican indigenous groups. The aim of this study, which was conducted over a period of 18 months in three Yucatec Mayan communities, is to better understand the selection criteria for medicinal plants. An important group of selection criteria are the flavor and aroma of plants. The absence of smell or taste indicates that the taxon has no potential medical value. Medicinal plants are more often considered to be sweet or aromatic (to smell good) or astringent, while a similar percentage of medicinal and nonmedicinal plants are considered bitter, spicy, acidic, or bad smelling. The relationship between the ethnobotanical data obtained for the individual plants and the secondary plant products (natural products) prominent in each species is specifically addressed in this paper. It shows that an understanding of the indigenous concepts used to distinguish medicinal from nonmedicinal species has considerable heuristic value.     

“To dryness and beyond” – Preparation for the dried state and rehydration in vegetative desiccation-tolerant plants

The ability of vegetative plant tissues to survive desiccation is an uncommon trait, although plants that are able to do this represent all major classes of plants. Two classes of vegetative desiccation-tolerant plants exist; those that are modified desiccation-tolerant and can only survive desiccation if drying rates are slow, and those that are fully desiccation-tolerant and can survive even rapid drying rates. Investigations into the cellular level responses of these two types of plants has lead to an understanding of the underlying mechanisms of desiccation-tolerance. The following proposed mechanisms for desiccation-tolerance are presented. Modified desiccation-tolerant plants utilize inducible cellular protection systems supplemented in part by a minor rehydration induced repair component. Fully desiccation-tolerant plants utilize a rehydration induced repair system that is complemented by a constitutive protection component. This minireview explores the evidence for these proposed mechanisms in an attempt to lay the theoretical ground work for future work in this area.     

Chloroplasts ofArabidopsis thaliana homozygous for the ch-1 locus lack chlorophyllb,lack stable LHCPII and have stacked thylakoids

We are interested in the mechanism of insertion of proteins into the chloroplast thylakoid membrane and the role that accessory pigments may play in this process. For this reason we have begun a molecular analysis of mutant plants deficient in pigments that associate with thylakoid membrane proteins. We have characterized plants that are homozygous for the previously isolated, recessive mutation chlorina-1 (ch-1) or Arabidopsis thaliana. Despite the lack of chlorophyll b and light-harvesting proteins of photosystem II (LHCPII) near normal levels of LHCPII mRNA are found in the mutant, in contrast to LHCPII mRNA levels in carotenoid-deficient mutants. The LHCPII mRNA of chlorina-1 plants can be translated in vitro so it is likely that LHCPII is not stable in ch-1 plants. Moreover, the thylakoid membranes of ch-1 plants remain appressed even though LHCPII levels are drastically reduced.     

大米草对有机汞的耐性、吸收及转化

大米草对营养液中氯化甲基汞(MeHgCl)毒性的临界浓度为15 uml/L,是烟草的3倍.氯化甲基汞处理后,植株体内有机汞总量在增加,而营养液中有机汞总量在减少,无机汞总量则明显增加.这些结果表明,大米草可以吸收有机汞,将有机汞部分地转化为无机汞,并且无机汞较多地积累在植株的地下部,同时有一部分通过扩散或分泌进入营养液中.大米草对汞的积累作用和把有机汞转化为无机汞的转化作用在环境污染的植物修复方面有重要的利用价值.     

The relationship between endophyte transition and plant species coexistence

The survival possibilities of terrestrial plant species are determined by their competitive abilities. One factor that affects competitive ability is the community of microorganisms that lives in association with the plants. Microorganisms affect the competitive dominance among plants by means of their metabolites. In this paper, we study the multiple plant species coexistence mediated by interactions with endophytes (fungi). The population dynamics are described by a revised lottery competition model for multiple plant species, each of which is divided into two classes: plants with endophytes (denoted EP) and plants without endophytes (NEP). The model includes the transition of seeds from EP to NEP. We show multiple species of plants cannot coexist in a steady state if this transition is density independent, but can coexist in a steady state if this transition is an increasing function of population density.