黄山地区松树林外生菌根菌资源及生态分布

1998～2003年,对黄山地区松树林下外生菌根菌资源及生态分布进行了调查,鉴定出外生菌根菌43种,隶属于10科17属.其中马尾松林下有43种、黄山松林下有12种.马尾松幼林下的外生菌根菌种类单一,彩色豆马勃、硬皮马勃类为优势菌种;马尾松成熟林下外生菌根菌种类丰富,其优势种类为红菇科、鹅膏菌科、牛肝菌科和鸡油菌科的一些种类.并分析了树种植被对外生菌根菌分布的影响,菌根真菌的分布与温度、湿度及土壤条件的关系.     

广西柳树桑寄生内生真菌的分离鉴定与抗肿瘤活性菌株筛选

该研究从广西钦州市采集健康的柳树桑寄生的根、茎和叶中分离并纯化内生真菌,对真菌进行形态学鉴定,提取内生真菌的DNA,采用真菌ITS序列对内生真菌进行分子鉴定。利用A549和H460细胞作为抗肿瘤活性指示细胞,采用MTT法测定真菌乙酸乙酯提取物的抗肿瘤活性。经过初步分离分析,从柳树桑寄生中纯化出27株内生真菌,经鉴定它们分别属于7个目9个属15个种。拟盘多毛孢属和间座壳属为优势属,其中拟盘多毛孢属全部定植于寄生根;其次为新壳梭孢属、拟茎点霉属和球座菌属,各分离到3株;其他包括青霉属、镰刀菌属、炭疽菌属和派伦霉属,各分离到1株。抗肿瘤活性研究表明,有一株与Pestalotiopsis protearum的ITS序列相似性达100%的拟盘多毛孢属菌株Gen24表现有抑制肿瘤细胞A549和H460生长的特性,在真菌乙酸乙酯浸提物浓度为800μg·mL~(-1)时,对A549细胞的抑制率达到了56.92%,对H460细胞的抑制率达到了70.11%。该研究结果表明广西柳树桑寄生内生真菌较丰富,在寄主中的分布表现了一定的组织特异性,而且还存在一些具有抗肿瘤活性的菌株及其活性物质可供进一步深入研究。     

Bacterial endophytes and their interactions with hosts

Recent molecular studies on endophytic bacterial diversity have revealed a large richness of species. Endophytes promote plant growth and yield, suppress pathogens, may help to remove contaminants, solubilize phosphate, or contribute assimilable nitrogen to plants. Some endophytes are seedborne, but others have mechanisms to colonize the plants that are being studied. Bacterial mutants unable to produce secreted proteins are impaired in the colonization process. Plant genes expressed in the presence of endophytes provide clues as to the effects of endophytes in plants. Molecular analysis showed that plant defense responses limit bacterial populations inside plants. Some human pathogens, such as Salmonella spp., have been found as endophytes, and these bacteria are not removed by disinfection procedures that eliminate superficially occurring bacteria. Delivery of endophytes to the environment or agricultural fields should be carefully evaluated to avoid introducing pathogens.     

松突圆蚧为害对马尾松针叶主要次生物质的影响

对受松突圆蚧不同程度为害的马尾松针叶主要次生物质的测定表明,不同受害程度的马尾松与其针叶内的次生物质含量呈显著的相关性。黄酮、单宁和总酚含量随着为害程度的加重而发生变化,先增加,后降低,这说明了受害程度的强弱对马尾松诱导化学物质变化有影响,次生代谢物质的合成需要消耗能量和物质,影响主要代谢。这是被害松树针叶枯黄、枝干枯死直至植株枯死的原因之一。     

Methylobacterium-Induced Endophyte Community Changes Correspond with Protection of Plants against Pathogen Attack

Plant inoculation with endophytic bacteria that normally live inside the plant without harming the host is a highly promising approach for biological disease control. The mechanism of resistance induction by beneficial bacteria is poorly understood, because pathways are only partly known and systemic responses are typically not seen. The innate endophytic community structures change in response to external factors such as inoculation, and bacterial endophytes can exhibit direct or indirect antagonism towards pathogens. Earlier we showed that resistance induction by an endophytic Methylobacterium sp. in potato towards Pectobacterium atrosepticum was dependent on the density of the inoculum, whereas the bacterium itself had no antagonistic activity. To elucidate the role of innate endophyte communities in plant responses, we studied community changes in both in vitro and greenhouse experiments using various combinations of plants, endophyte inoculants, and pathogens. Induction of resistance was studied in several potato (Solanum tuberosum L.) cultivars by Methylobacterium sp. IMBG290 against the pathogens P. atrosepticum, Phytophthora infestans and Pseudomonas syringae pv. tomato DC3000, and in pine (Pinus sylvestris L.) by M. extorquens DSM13060 against Gremmeniella abietina. The capacities of the inoculated endophytic Methylobacterium spp. strains to induce resistance were dependent on the plant cultivar, pathogen, and on the density of Methylobacterium spp. inoculum. Composition of the endophyte community changed in response to inoculation in shoot tissues and correlated with resistance or susceptibility to the disease. Our results demonstrate that endophytic Methylobacterium spp. strains have varying effects on plant disease resistance, which can be modulated through the endophyte community of the host.     

Diversity,Molecular Phylogeny,and Bioactive Potential of Fungal Endophytes Associated with the Himalayan Blue Pine (Pinus wallichiana)

In this study, we investigated the diversity of fungal endophytes associated with Pinus wallichiana from the Western Himalayas, with emphasis on comparison of endophytic communities harbored by the stem and needle tissues of the host and their antimicrobial potential. A total number of 130 isolates, comprising of 38 different genera, were recovered from 210 fragments of the plant. Among the isolated fungi, only a single isolate, Tritirachium oryzae, belonged to the Phylum Basidiomycota whereas the rest belonged to Ascomycota. Dothideomycetes was the dominant class with the highest isolation frequency of 49.2 %. The most frequent colonizers of the host were Alternaria spp., Pestalotiopsis spp., Preussia spp., and Sclerostagonospora spp. The diversity and species richness were higher in needle tissues than in the stems. Antimicrobial activities were displayed by extracts from a total number of 22 endophytes against one or more pathogens. Endophytes designated as P1N13 (Coniothyrium carteri), P2N8 (Thielavia subthermophila), P4S6b (Truncatella betulae), P7N10 (Cochliobolus australiensis), and P8S4 (Tritirachium oryzae) were highly active against Candida albicans. Broad spectrum antimicrobial activities were obtained with the extracts of P8-S4 (Tritirachium oryzae) and P5-N26 (Coniochaeta gigantospora) that were potentially active against the Gram-positive and Gram-negative bacteria as well as the fungal pathogen, Candida albicans. The most prominent antagonistic activity against fungal pathogens was shown by P8-S4 (Tritirachium oryzae), P5-N31a (Truncatella spadicea), and P5-N20 (Fusarium larvarum). Our findings indicate that Pinus wallichiana harbors a rich endophytic fungal community with potential antimicrobial activities. Further studies are needed to understand the ecology and evolutionary context of the associations between the Himalayan pine and its endophytes.     

贵州马尾松内生真菌多样性

为探究贵州马尾松Pinus massoniana内生真菌的群落组成及多样性.本研究在不同季节,采用组织分离法对30年生健康马尾松的根、茎、叶进行内生真菌的分离,结合形态学和ITS序列进行菌株鉴定,并分析其多样性.结果表明:从1328块马尾松组织块中分离得到1099株内生真菌,其总定殖率为93.98％,总分离率为82.7...     

Effect of the Entomopathogenic Fungus Beauveria bassiana on the Development of Faba Bean (Vicia faba) Diseases in the Field Conditions

Doklady Biochemistry and Biophysics - Several ascomycetous entomopathogenic fungi, including species in the genera Beauveria, are plant symbionts/endophytes and are termed as endophytic...     

An ecological framework for understanding the roles of Epichloë endophytes on plant defenses against fungal diseases

Plants harbor a wide diversity of microorganisms in their tissues. Some of them have a long co-evolutionary history with their hosts, likely playing a pivotal role in regulating the plant interaction with other microbes such as pathogens. Some cool-season grasses are symbiotic with Epichloë fungal endophytes that grow symptomless and systemically in aboveground tissues. Among the many benefits that have been ascribed to endophytes, their role in mediating plant interactions with pathogens has been scarcely developed. Here, we explored the effects of Epichloë fungal endophytes on the interaction of host grasses with fungal pathogens. We made a meta-analysis that covered a total of 18 host grass species, 11 fungal endophyte species, and 22 fungal pathogen species. We observed endophyte-mediated negative effects on pathogens in vitro and in planta. Endophyte negative effects on pathogens were apparent not only in laboratory but also in greenhouse and field experiments. Epichloë fungal endophytes had negative effects on pathogen growth and spores' germination. On living plants, endophytes reduced both severity and incidence of the disease as well as colonization and subsequent infection of seeds. Symbiosis with endophytes showed an inhibitory effect on debilitator and killer pathogens, but not on castrators, and this effect did not differ among biotrophic or necrotrophic lifestyles. We found that this protection can be direct through the production of fungistatic compounds, the competition for a common resource, or the induction of plant defenses, and indirect associated with endophyte-generated changes in the abiotic or the biotic environment. Several mechanisms operate simultaneously and contribute differentially to the reduction of disease within grass populations.     

芒萁植株浸出液对几种植物生长的影响

 芒萁在天然植物群落中具有较强的竞争能力和对其它植物的排斥作用。在研究中必须注意其化学分泌物对其它植物的抑制作用,以利荒山灌木草丛的经济利用。作者选取马尾松、猪屎豆、天兰苜蓿、紫苜蓿、葛藤、红车轴草、白车轴草及禾本科的牛尾草、块茎虉草进行栽培试验证明,芒萁植株的浸出液对马尾松以外的其它试验植物均有抑制作用。     

Fungal entomopathogens: new insights on their ecology

An important mechanism for insect pest control should be the use of fungal entomopathogens. Even though these organisms have been studied for more than 100 y, their effective use in the field remains elusive. Recently, however, it has been discovered that many of these entomopathogenic fungi play additional roles in nature. They are endophytes, antagonists of plant pathogens, associates with the rhizosphere, and possibly even plant growth promoting agents. These findings indicate that the ecological role of these fungi in the environment is not fully understood and limits our ability to employ them successfully for pest management. In this paper, we review the recently discovered roles played by many entomopathogenic fungi and propose new research strategies focused on alternate uses for these fungi. It seems likely that these agents can be used in multiple roles in protecting plants from pests and diseases and at the same time promoting plant growth.     

不同抗性马尾松针叶中营养物质含量与对松突圆蚧抗性关系的判别分析

为了探讨马尾松Pinus massoniana针叶营养物质含量与其对松突圆蚧Hemiberlesia pitysophila Takagi抗性的关系, 选择了不同抗性的10个马尾松家系, 分别测定未受松突圆蚧危害植株与受害植株针叶中可溶性糖、 总糖、 可溶性蛋白、 全N、 游离氨基酸、 粗脂肪等营养物质的含量和总糖/全N等7个指标, 并采用判别分析法分析这7个指标与马尾松家系对松突圆蚧抗性的关系。结果表明：马尾松家系不论是否受松突圆蚧的危害,能明显区别抗性组别的指标都是可溶性蛋白（X₃）、全N（X₄）和游离氨基酸总量（X₇）,随抗性的降低, 它们的含量呈上升趋势, 受害植株中上述3个指标的含量低于未受害植株; 受害后, 各指标变化量中能明显区别抗性组别的是全N（X₄）, 随着植株抗性的降低, 针叶中的可溶性蛋白（X₃）、全N（X₄）和游离氨基酸总量（X₇）的含量变化量减小。据此得出：（1）可溶性蛋白（X₃）、全N（X₄）和游离氨基酸总量（X₇）是与抗性关系最密切的指标, 含量与抗性呈负相关关系,变化量与抗性呈正相关关系;（2）受到危害后, 无论含量或变化量, 7个指标都发生了重要变化, 都表现出与抗性的相关性, 构成了有效判别函数的组成变量;（3）因判别分析方法可以分析各指标的综合作用, 应用该方法分析各营养成分与马尾松对松突圆蚧抗性的关系, 比用方差分析和多重比较方法更有优越性。上述研究结果为抗松突圆蚧马尾松家系的选育及其抗性机理的深入研究, 提供了重要的科学参考价值。     

福建万木林天然马尾松林分特征

福建万木林天然马尾松林为以马尾松占绝对优势的松阀混交林,物种多样性与四周的天然阔叶林相近,林分蓄积量高达９８４．２ｍ３ｈｍ－２,是罕见的、典型的天然马尾松丰产林,为珍贵的自然资源。     

Using direct amplification and next-generation sequencing technology to explore foliar endophyte communities in experimentally inoculated western white pines

Fungal endophytes can influence survivability and disease severity of trees. Here we characterized the endophyte community in Pinus monticola (western white pine), an important species in the northwest USA, largely decimated by pathogenic fungi. We also assessed the ability to successfully inoculate seedlings with desirable endophytes, with the long-term goal of providing a protective microbiome and added defense from pathogens. P. monticola seedlings were inoculated in the field with potential pathogen antagonists and fungi isolated from healthy mature trees. Following inoculations direct amplification and next generation sequencing were used to characterize fungal endophyte communities, and explore interspecific competition, diversity, and co-occurrence patterns in needle tissues. Negative co-occurrence patterns between inoculated fungi and potential pathogens, as well as many other species, suggest early competitive interactions. Our study explores early endophyte community assemblage and shows that fungal inoculations may influence tree growth.     

Study of endophytic Xylariaceae in Thailand: diversity and taxonomy inferred from rDNA sequence analyses with saprobes forming fruit bodies in the field

A study of the diversity, taxonomy, and ecology of endophytic Xylariaceae (Ascomycota) was carried out. In this study, we obtained isolates of Xylariaceae from healthy, attached leaves and teleomorphic stromata on decayed plant materials in a permanent plot at Khao Yai National Park (Thailand). In addition, strains deposited beforehand were selected in which both endophytic strains isolated from living plant tissues and saprobic strains from fruit bodies were included. Consequently, 405 strains of Xylariaceae (273 endophytic and 132 saprobic strains, including identified strains) were studied to reveal the diversity and taxonomy of endophytes and the relationships between those endophytes and saprobic Xylariaceae in Thailand that have been recorded according to fruit-body formation on decayed plant materials. Analysis of 28S rDNA D1/D2 sequences revealed 21 xylariaceous species inhabiting tropical foliage at the site, and several species that are already known as saprobes appear to be among those isolated from living leaves. Furthermore, several clades that consisted of only endophytic strains were found, and some of these have no known matches in public DNA sequence banks.     

Culturable Endophytes Associated with Soybean Seeds and Their Potential for Suppressing Seed-Borne Pathogens

Seed-borne pathogens in crops reduce the seed germination rate and hamper seedling growth, leading to significant yield loss. Due to the growing concerns about environmental damage and the development of resistance to agrochemicals among pathogen populations, there is a strong demand for eco-friendly alternatives to synthetic chemicals in agriculture. It has been well established during the last few decades that plant seeds harbor diverse microbes, some of which are vertically transmitted and important for plant health and productivity. In this study, we isolated culturable endophytic bacteria and fungi from soybean seeds and evaluated their antagonistic activities against common bacterial and fungal seed-borne pathogens of soybean. A total of 87 bacterial isolates and 66 fungal isolates were obtained. Sequencing of 16S rDNA and internal transcribed spacer amplicon showed that these isolates correspond to 30 and 15 different species of bacteria and fungi, respectively. Our antibacterial and antifungal activity assay showed that four fungal species and nine bacterial species have the potential to suppress the growth of at least one seed-borne pathogen tested in the study. Among them, Pseudomonas koreensis appears to have strong antagonistic activities across all the pathogens. Our collection of soybean seed endophytes would be a valuable resource not only for studying biology and ecology of seed endophytes but also for practical deployment of seed endophytes toward crop protection.     

The symbiotic bacteria Alcaligenes faecalis of the entomopathogenic nematodes Oscheius spp. exhibit potential biocontrol of plant- and entomopathogenic fungi

Soil-dwelling entomopathogenic nematodes (EPNs) kill arthropod hosts by injecting their symbiotic bacteria into the host hemolymph and feed on the bacteria and the tissue of the dying host for several generations cycles until the arthropod cadaver is completely depleted. The EPN–bacteria–arthropod cadaver complex represents a rich energy source for the surrounding opportunistic soil fungal biota and other competitors. We hypothesized that EPNs need to protect their food source until depletion and that the EPN symbiotic bacteria produce volatile and non-volatile exudations that deter different soil fungal groups in the soil. We isolated the symbiotic bacteria species (Alcaligenes faecalis) from the EPN Oscheius spp. and ran infectivity bioassays against entomopathogenic fungi (EPF) as well as against plant pathogenic fungi (PPF). We found that both volatile and non-volatile symbiotic bacterial exudations had negative effects on both EPF and PPF. Such deterrent function on functionally different fungal strains suggests a common mode of action of A. faecalis bacterial exudates, which has the potential to influence the structure of soil microbial communities, and could be integrated into pest management programs for increasing crop protection against fungal pathogens.     

拟青霉属虫生真菌核型的脉冲电泳分析

利用钳位均匀电场脉冲电泳系统,从电泳的时间、角度、电压、转换时间间隔等方面优化电泳参数,确定了适宜拟青霉属内4种虫生真菌染色体DNA电泳的最佳条件。根据电泳及软件分析结果,估算出斜链拟青霉和环链拟青霉的染色体数目和染色体组型大小,即核型(karyotype)特征。通过进行拟青霉属内4种7株虫生真菌染色体DNA核型相关的比较和分析,表明拟青霉菌种间染色体数目差异较小,核型差异较大;相同菌种不同菌株间的染色体数、核型大小并不完全相同,存在不同程度的差异;且菌株间核型大小差异程度明显小于菌种间的差异程度。     

Light converts endosymbiotic fungus to pathogen, influencing seedling survival and niche-space filling of a common tropical tree, Iriartea deltoidea

Pathogens are hypothesized to play an important role in the maintenance of tropical forest plant species richness. Notably, species richness may be promoted by incomplete filling of niche space due interactions of host populations with their pathogens. A potentially important group of pathogens are endophytic fungi, which asymptomatically colonize plants and are diverse and abundant in tropical ecosystems. Endophytes may alter competitive abilities of host individuals and improve host fitness under stress, but may also become pathogenic. Little is known of the impacts of endophytes on niche-space filling of their hosts.Here we evaluate how a widespread fungal endophyte infecting a common tropical palm influences its recruitment and survival in natural ecosystems, and whether this impact is modulated by the abiotic environment, potentially constraining host niche-space filling. Iriartea deltoidea dominates many wet lowland Neotropical forests. Diplodia mutila is a common asymptomatic endophyte in mature plants; however, it causes disease in some seedlings. We investigated the effects of light availability on D. mutila disease expression.We found I. deltoidea seedlings to preferentially occur under shady conditions. Correspondingly, we also found that high light triggers endophyte pathogenicity, while low light favors endosymbiotic development, constraining recruitment of endophyte-infested seedlings to shaded understory by reducing seedling survival in direct light. Pathogenicity of D. mutila under high light is proposed to result from light-induced production of H(2)O(2) by the fungus, triggering hypersensitivity, cell death, and tissue necrosis in the palm. This is the first study to demonstrate that endophytes respond to abiotic factors to influence plant distributions in natural ecosystems; and the first to identify light as a factor influencing where an endophyte is placed on the endosymbiont-pathogen continuum. Our findings show that pathogens can indeed constrain niche-space filling of otherwise successful tropical plant species, providing unoccupied niche space for other species.     

益母草内生真菌分离与初步鉴定

利用平板分离法从药用植物益母草(Leonurus heterophyllus Sweet)中分离到15株内生真菌,来源于根、茎、叶分别有2,6,7株。经形态学观察和染色等方法,初步鉴定了益母草内生真菌有3个属,曲霉属(Aspergillus sp.)2株、头孢霉属(Cephalosporiumsp.)3株和囊孢霉属(Capsule sp.)10株。益母草内生真菌生物多样性较为单一,但不同部位内生菌的数量、种类及分布存在明显差异。