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1.
广义虫草属二新记录种 总被引:1,自引:1,他引:0
【背景】广义虫草属是一类重要的虫生真菌资源。【目的】对我国西南地区虫生真菌及其相关真菌资源进行调查。【方法】在贵州省习水县和花溪区进行标本采集,采用含双抗的PDA培养基分离目的菌株;基于形态学特征和ITS rDNA序列系统发育分析相结合的方法进行菌株鉴定。【结果】从采集到的标本中分离获得5个菌株,菌株GY1113、GY90809和GY90810在形态特征上与马拉维白僵菌模式菌株非常相近;系统发育树中二者以高持率(ML/BI为99/1)聚成一个分支。菌株A1997在形态特征上与鳞翅目虫草模式菌株非常吻合;系统发育树中二者以较高支持率(ML/BI为78/0.95)聚成一个分支。菌株A1972在形态上与苏格兰白僵菌模式菌株的形态特征非常相近;系统发育树中二者以高支持率(ML/BI为99/1)聚成一个分支。因此分别鉴定为马拉维白僵菌、鳞翅目虫草及苏格兰白僵菌。【结论】马拉维白僵菌和鳞翅目虫草为中国新记录种。 相似文献
2.
采用真菌核糖体基因转录间隔区(ITS)通用引物,PCR分别扩增了Phytophthora sojae的5个菌株(Pg1、Pg2、Pg3、CN1和S317)和1个P. medicaginis (菌株44390)的ITS1与ITS2,并对PCR产物进行了序列测定。根据Bioedit软件中的neighbour-joining methods分析法将上述序列和Genbank中已登录的P. sojae、P. medicaginis、P. megasperma和P.trifolii等4个形态学种10个登录菌株的ITS1与ITS2碱基序列进行聚类分析。结果是聚类组与形态学种有一定差别,4个种16个菌株分成7个聚类组。结果表明,分别属于同一形态学种且可聚为一组的不同个体之间的ITS碱基序列遗传相似性最高,但是也具有一定的多样性;形态学上属于不同种的个体的ITS可以聚为一组。上述结果提示L41385可能不属于P. sojae, L41380可能属于是P. trifolii,P. megasperma仍是一个复合种。同时提示ITS DNA碱基序列可以区分形态学种。 相似文献
3.
大豆疫霉和苜蓿疫霉rDNA ITS序列分析 总被引:10,自引:0,他引:10
采用真菌核糖体基因转录间隔区(ITS)通用引物,PCR分别扩增了Phytophthora sojae的5个菌株(Pg1、Pg2、Pg3、CN1和S317)和1个P.medicaginis(菌株44390)的ITS1与ITS2,并对PCR产物进行了序列测定。根据Bioedit软件中的neighbour-joining methods分析法将上述序列和Genbank中已登录的P.sojae、P.medicaginis、P.megasperma和P.trifolii等4个形态学种10个登录菌株的ITS1与ITS2碱基序列进行聚类分析。结果是聚类组与形态学种有一定差别,4个种16个菌株分成7个聚类组。结果表明,分别属于同一形态学种且可聚为一组的不同个体之间的ITS碱基序列遗传相似性最高,但是也具有一定的多样性;形态学上属于不同种的个体的ITS可以聚为一组。上述结果提示L41385可能不属于P.sojae,L41380可能属于是P.trifolii,P.megasperma仍是一个复合种。同时提示ITS DNA碱基序列可以区分形态学种。 相似文献
4.
大豆疫霉和苜蓿疫霉rDNA ITS序列分析 总被引:7,自引:1,他引:6
采用真菌核糖体基因转录间隔区(ITS)通用引物,PCR分别扩增了Phytophthora sojae的5个菌株(Pg1、Pg2、Pg3、CN1和S317)和1个P. medicaginis (菌株44390)的ITS1与ITS2,并对PCR产物进行了序列测定。根据Bioedit软件中的neighbour-joining methods分析法将上述序列和Genbank中已登录的P. sojae、P. medicaginis、P. megasperma和P.trifolii等4个形态学种10个登录菌株的ITS1与ITS2碱基序列进行聚类分析。结果是聚类组与形态学种有一定差别,4个种16个菌株分成7个聚类组。结果表明,分别属于同一形态学种且可聚为一组的不同个体之间的ITS碱基序列遗传相似性最高,但是也具有一定的多样性;形态学上属于不同种的个体的ITS可以聚为一组。上述结果提示L41385可能不属于P. sojae, L41380可能属于是P. trifolii,P. megasperma仍是一个复合种。同时提示ITS DNA碱基序列可以区分形态学种。 相似文献
5.
千层塔内生真菌的分离与鉴定 总被引:1,自引:0,他引:1
目的:为从千层塔中分离具有药用价值的内生真菌奠定基础。方法:新鲜千层塔茎段,经酒精和升汞消毒后,接种于PDA平板培养基上进行内生真菌的分离、纯化;根据菌落形态和孢子等形态特征,结合核糖体基因居间序列(ITS序列)进行菌株鉴定。结果:从千层塔的茎中分离出4株内生真菌。内生真菌I菌落形态和孢子特征与枝状枝孢霉属的特征相符合,ITS序列与GenBank中多条属于枝状枝孢霉的ITS序列相似,鉴定该菌株属于枝状枝孢霉;内生真菌II菌落形态和孢子特征与黄青霉的特征相符合,鉴定该菌株属于黄青霉;内生真菌III菌落形态和孢子特征与尖孢镰刀菌的特征相符合,ITS序列与GenBank中多条属于尖孢镰刀菌的ITS序列相似程度高,鉴定该菌株属于尖孢镰刀菌;内生真菌Ⅳ菌落形态与盾壳霉相似,ITS序列与GenBank中6条属于盾壳霉的ITS序列具有较高的相似性,鉴定该菌株属于盾壳霉。结论:从千层塔中分离和鉴定出4株内生真菌,分别属于枝状枝孢霉、黄青霉、尖孢镰刀茵和盾壳霉。 相似文献
6.
7.
采用分离自野生春兰(Cymbidium goeringii)根部的真菌CL-3菌株, 进行了春兰内生菌根真菌的人工接种、再分离及其共生培养研究。通过对CL-3菌株形态学观察和ITS序列同源性分析, 发现该菌株ITS序列与Acremonium strictum的亲缘关系最为接近, 序列同源性为100%。用CL-3菌株接种春兰组培苗, 接种后2个月可从组培苗中再分离获得该菌株, 且CL-3菌株处理苗的鲜重增长率达80.5%, 经方差分析, 与对照相比有显著差异。通过石蜡切片和染色, 在已接种的组培苗的根部组织中可观察到CL-3菌株存在。表明CL-3菌株能与组培幼苗成功建立共生培养体系。 相似文献
8.
目前,我国西施舌群体分子遗传差异研究结果存在争议。分析我国南北沿海(9个群体)、与广西北海毗邻的越南(1个群体)西施舌核DNA的内转录间隔区2(ITS2)和线粒体DNA的16S rRNA基因(16S)片段核苷酸序列及其二级结构,为解决争议问题提供分子生物学资料。扩增获得西施舌ITS2片段和16S序列,其长度分别为389-402 bp和306 bp,加之下载序列共147条;序列分析显示,74个ITS2序列共有17种基因型,73个16S序列有15种单倍型,其中,长乐(CL)群体独享9种ITS2基因型和5种16S单倍型,非长乐群体(nCL)多数为群体间交叉共享1种或几种基因(单倍)型;基因(单倍)型核苷酸变异位点占5.7%(ITS2)和11.8%(16S);基于ITS2和16S的CL群体和nCL群体间的遗传距离与群体内遗传距离之比分别为2.42和11.08,nCL群体间的平均遗传距离均为0.007;二级结构显示CL群体ITS2的9种基因型和16S的5种单倍型均区别于nCL群体,nCL的ITS2和16S二级结构分别相似;ITS2和16S基因的系统发育分析显示,CL西施舌形成支持率很高(98,96)的单系支,而nCL群体则交叉聚为另一支(98,96)。研究结果揭示,福建西施舌是腔蛤蜊属(Coelomactra)的一个新种。 相似文献
9.
以1株分离于北大仓白酒大曲的产纤维素酶真菌M1为材料,对其进行了形态及分子生物学鉴定;纯化并研究了其纤维素酶的酶学性质。以真菌ITS1/ITS4通用引物,扩增真菌M1的rDNA ITS序列,再与GenBank中其他菌株rDNA ITS序列进行比对,使用Mega5.0软件,采用最大似然法进行聚类分析。结果显示,该真菌同已经报道的Fusarium oxysporim strain Bt3聚为一类,一致率达99%,与形态学方法鉴定一致,命名为Fusarium oxysporum M1。该菌具有很高纤维素酶活力,FPA和CMCA分别高达16.84 IU/mL和35.31 IU/mL。经过发酵条件优化酶活性进一步提高。经硫酸铵分级分离、疏水和离子交换层析,纯化了该菌纤维素酶,纯化倍数高达17.97倍,得率为3.676%,SDS-PAGE分析表明,该纤维素酶分子量达60 k Da。本研究为进一步研究该酶高效催化机理及实际应用提供参考。 相似文献
10.
基于ITS序列分析仲彬草属植物的亲缘关系 总被引:2,自引:2,他引:0
以旱雀麦为外类群,用PAUP 4.0b10软件并采用最大简约法和邻接法对11份仲彬草属物种的ITS区序列进行系统发育分析,两种方法得到的系统发育树基本一致。结果表明:(1)整个ITS序列长度变异范围为596~601 bp;G C含量在所有ITS中的变化范围为61.20%~62.44%;序列间的遗传分化距离为0.003~0.033,平均值为0.015;(2)疏花仲彬草和塔克拉干仲彬草2个物种聚为一支,位于系统发育树的底部,在最大简约法和邻接法分析中分别获得78%和82%的自展支持率,它们之间的亲缘关系较近;(3)形态相似、地理分布一致的物种有聚在一起的倾向,表现出较近的亲缘关系;(4)ITS区序列分析的结果与细胞学、形态学的研究结果基本一致,因此ITS区序列分析能反映仲彬草属种间关系。 相似文献
11.
The culturable fungal assemblage associated with hair roots of Rhododendron lochiae (Ericaceae) from a tropical cloud forest in Queensland, Australia was investigated using rDNA internal transcribed spacer (ITS) restriction fragment length polymorphisms (RFLPs) and sequence analysis, and the abilities of the fungi to form ericoid mycorrhizas were tested. DNA was further extracted directly from hair roots and partial fungal ITS products compared with those from the cultured isolate assemblage using denaturing gradient gel electrophoresis (DGGE). A range of ericoid mycorrhizal and non-mycorrhizal fungi was identified using both approaches, with ericoid mycorrhizal fungi found to be taxonomically similar to those associated with Ericaceae in temperate habitats worldwide. Both approaches identified several unique fungi and, although most of the abundant RFLP types identified in the cultured fungal assemblage were also present in DGGE profiles of DNA extracted directly from roots, one the most commonly isolated RFLP types, a putative Xylariaceae taxon, was absent. The data suggest that a combination of culturing and culture-independent approaches may be more efficacious than either method individually. 相似文献
12.
To investigate the diversity of root endophytes in Rhododendron fortunei, fungal strains were isolated from the hair roots of plants from four habitats in subtropical forests of China. In total,
220 slow-growing fungal isolates were isolated from the hair roots of R. fortunei. The isolates were initially grouped into 17 types based on the results of internal transcribed spacer-restriction fragment
length polymorphism (ITS-RFLP) analysis. ITS sequences were obtained for representative isolates from each RFLP type and compared
phylogenetically with known sequences of ericoid mycorrhizal endophytes and selected ascomycetes or basidiomycetes. Based
on phylogenetic analysis of the ITS sequences in GenBank, 15 RFLP types were confirmed as ascomycetes, and two as basidiomycetes;
nine of these were shown to be ericoid mycorrhizal endophytes in experimental cultures. The only common endophytes of R. fortunei were identified as Oidiodendron maius at four sites, although the isolation frequency (3–65%) differed sharply according to habitat. Phialocephala fortinii strains were isolated most abundantly from two habitats which related to the more acidic soil and pine mixed forests. A number
of less common mycorrhizal RFLP types were isolated from R. fortunei at three, two, or one of the sites. Most of these appeared to have strong affinities for some unidentified root endophytes
from Ericaceae hosts in Australian forests. We concluded that the endophyte population isolated from R. fortunei is composed mainly of ascomycete, as well as a few basidiomycete strains. In addition, one basidiomycete strain was confirmed
as a putative ericoid mycorrhizal fungus. 相似文献
13.
Ericoid mycorrhizal fungal endophytes form mycorrhizal associations with Ericaceae plant taxa and are regarded as essential to the ecological fitness of the plants in extremely nutrient-poor soils worldwide. We isolated fungi from roots of Epacris pulchella (Ericaceae) in a south-eastern Australian sclerophyll forest and compared rDNA internal transcribed spacer (ITS) restriction fragment length polymorphisms (RFLPs) and sequences for the cultured isolate assemblage with fungi identified in DNA extracted directly from the same root systems by cloning or denaturing gradient gel electrophoresis (DGGE). The most abundant RFLP types in the cultured isolate assemblage were identified as putative ericoid mycorrhizal ascomycete endophytes, and these also represented the most abundant RFLP types in the cloned assemblage and the most intense bands in DGGE profiles. Each method identified unique taxa, notably putative basidiomycetes in the DNA extracted directly from E. pulchella roots. However, the relative abundance of these was low. 相似文献
14.
Wood-decay fungi in fine living roots of conifer seedlings 总被引:3,自引:3,他引:0
The mycorrhizal basidiomycetes are known to have multiple, independent evolutionary origins from saprotrophic ancestors. To date, a number of studies have revealed functional resemblance of mycorrhizal fungi to free-living saprotrophs, but information on the ability of saprotrophic fungi to perform as mycorrhizal symbionts is scarce. Here, the objective was to investigate the ability of three wood-decay fungi, Phlebiopsis gigantea, Phlebia centrifuga and Hypholoma fasciculare, to colonize fine roots of conifer seedlings. For each fungus, mycorrhizal syntheses were attempted with Picea abies and Pinus sylvestris. After 24 wk, isolation of fungi and direct sequencing of fungal internal transcribed spacer (ITS) rDNA were carried out from healthy-looking surface-sterilized root tips that yielded both pure cultures and ITS sequences of each inoculated strain. Mycelial mantle of P. gigantea was frequently formed on root tips of P. abies, and microscopical examination has shown the presence of intercellular hyphae inside the roots. The results provide evidence of the ability of certain wood-decay fungi to colonise fine roots of tree seedlings. 相似文献
15.
Molecular diversity of fungi from ericoid mycorrhizal roots 总被引:6,自引:0,他引:6
In order to investigate the diversity of fungal endophytes in ericoid mycorrhizal roots, about 150 mycelia were isolated from surface-sterilized roots of 10 plants of Calluna vulgaris. Each mycelium was reinoculated to C. vulgaris seedlings under axenic conditions, and the phenotype of the plant-fungus association assessed by light and electron microscopy. Many isolates that were able in vitro to produce typical ericoid mycorrhizae did not form reproductive structures under our culture conditions, whereas others could be identified as belonging to the species Oidiodendron maius. Morphological and molecular analysis of the fungal isolates showed that the root system of a single plant of C. vulgaris is a complex mosaic of several populations of mycorrhizal and non mycorrhizal fungi. PCR-RFLP techniques, used to investigate the mycorrhizal endophytes, revealed up to four groups of fungi with different PCR-RFLP patterns of the ITS ribosomal region from a single plant. Some of the mycorrhizal fungi sharing the same PCR-RFLP pattern showed high degree of genetic polymorphism when analysed with the more sensitive RAPD technique; this technique may prove a useful tool to trace the spread of individual mycorrhizal mycelia, as it has allowed us to identify isolates with identical RAPD fingerprints on different plants. 相似文献
16.
The diversity of ericoid mycorrhizal fungi isolated from Rhododendron decorum Franch. in Yunnan, southwestern China, was examined for the first time. In total 300 hair-root samples were collected from 13 R. decorum individuals in two adjacent wild population sites and one cultivated population site. Two hundred eighteen slow-growing isolates were obtained; the ability of some to form ericoid mycorrhiza was tested in vitro. One hundred twenty-five isolates formed hyphal structures morphologically corresponding to ericoid mycorrhiza, and these were determined by morphological and molecular means to belong to 12 fungal species. There were hardly any differences in species among the three sampled populations. The sequences of several isolates were similar to those of Oidiodendron maius and ericoid mycorrhizal fungi from Helotiales, accounting respectively for 18.4% and 24.8% of the total culturable ericoid mycorrhizal fungi assemblage. Dark septate endophytes were detected in the sampled hair roots by microscopy. 相似文献
17.
Ericoid mycorrhizal fungi form symbioses with the roots of members of the Ericales. Although only two genera have been identified in culture, the taxonomic diversity of ericoid symbionts is certainly wider. Genetic variation among 40 ericoid fungal isolates was investigated in this study. PCR amplification of the nuclear small-subunit ribosomal DNA (SSU rDNA) and of the internal transcribed spacer (ITS), followed by sequencing, led to the discovery of DNA insertions of various sizes in the SSU rDNA of most isolates. They reached sizes of almost 1,800 bp and occurred in up to five different insertion sites. Their positions and sizes were generally correlated with morphological and ITS-RFLP grouping of the isolates, although some insertions were found to be optional among isolates of the same species, and insertions were not always present in all SSU rDNA repeats within an isolate. Most insertions were identified as typical group I introns, possessing the conserved motifs characteristic of this group. However, other insertions lack these motifs and form a distinct group that includes other fungal ribosomal introns. Alignments with almost 70 additional sequences from fungal nuclear SSU rDNA introns indicate that introns inserted at the same site along the rDNA gene are generally homologous, but they also suggest the possibility of some horizontal transfers. Two of the ericoid fungal introns showed strong homology with a conserved motif found in endonuclease genes from nuclear rDNA introns. 相似文献
18.
Molecular detection,community structure and phylogeny of ericoid mycorrhizal fungi 总被引:12,自引:0,他引:12
Through traditional culturing and molecular characterization, we have determined that five putative species and 2 polyphyletic assemblages of fungi produce ericoid mycorrhizae in Gaultheria shallon, other Ericaceae and Epacridaceae. Using phylogenetic analysis of ITS2 sequences in GenBank, we have confirmed that most of these fungi occur in North America, Europe, and Australia. The low recovery rate of culturable ericoid mycorrhizal fungi from Gaultheria shallon may partly be explained by the fact that most mycorrhizal root segments contain an unculturable basidiomycete, revealed by direct amplification, cloning, and sequencing of LSU fungal DNA from root. Molecular characterization and phylogenetic analysis are powerful tools in revealing the geographic distribution and identity of ericoid mycorrhizal fungi. 相似文献
19.
Ericaceae (the heath family) are widely distributed calcifuges inhabiting soils with inherently poor nutrient status. Ericaceae overcome nutrient limitation through symbiosis with ericoid mycorrhizal (ErM) fungi that mobilize nutrients complexed in recalcitrant organic matter. At present, recognized ErM fungi include a narrow taxonomic range within the Ascomycota, and the Sebacinales, basal Hymenomycetes with unclamped hyphae and imperforate parenthesomes. Here we describe a novel type of basidiomycetous ErM symbiosis, termed 'sheathed ericoid mycorrhiza', discovered in two habitats in mid-Norway as a co-dominant mycorrhizal symbiosis in Vaccinium spp. The basidiomycete forming sheathed ErM possesses clamped hyphae with perforate parenthesomes, produces 1- to 3-layer sheaths around terminal parts of hair roots and colonizes their rhizodermis intracellularly forming hyphal coils typical for ErM symbiosis. Two basidiomycetous isolates were obtained from sheathed ErM and molecular and phylogenetic tools were used to determine their identity; they were also examined for the ability to form sheathed ErM and lignocellulolytic potential. Surprisingly, ITS rDNA of both conspecific isolates failed to amplify with the most commonly used primer pairs, including ITS1 and ITS1F + ITS4. Phylogenetic analysis of nuclear LSU, SSU and 5.8S rDNA indicates that the basidiomycete occupies a long branch residing in the proximity of Trechisporales and Hymenochaetales, but lacks a clear sequence relationship (>90% similarity) to fungi currently placed in these orders. The basidiomycete formed the characteristic sheathed ErM symbiosis and enhanced growth of Vaccinium spp. in vitro, and degraded a recalcitrant aromatic substrate that was left unaltered by common ErM ascomycetes. Our findings provide coherent evidence that this hitherto undescribed basidiomycete forms a morphologically distinct ErM symbiosis that may occur at significant levels under natural conditions, yet remain undetected when subject to amplification by 'universal' primers. The lignocellulolytic assay suggests the basidiomycete may confer host adaptations distinct from those provisioned by the so far investigated ascomycetous ErM fungi. 相似文献
20.
Three hundred and twenty-seven fungal endophyte isolates were obtained from hair roots of neighbouring Woollsia pungens Cav. (Muell.) and Leucopogon parviflorus (Andr.) Lindl. (both Ericaceae) plants at an Australian dry sclerophyll forest site and mapped according to the root segments from which they were obtained. Restriction fragment length polymorphism (RFLP) analysis of the rDNA internal transcribed spacer (ITS) region indicated that the isolate assemblage comprised 21 RFLP-types (= putative taxa), five of which were shown in gnotobiotic culture experiments to be ericoid mycorrhizal endophytes. While two mycorrhizal RFLP-types were exclusive to either W. pungens or L. parviflorus, RFLP-type VI was isolated from both hosts. This putative taxon had strong ITS sequence identity with Helotiales ericoid mycorrhizal ascomycetes, comprised ca. 75% of all isolates from each plant and was spatially widespread in both root systems. Inter-simple sequence repeat PCR analysis indicated that two and four genotypes of RFLP-type VI were present in the W. pungens and L. parviflorus root systems respectively, however single genotypes appeared to dominate each root system. One genotype was present in both root systems. The data suggest that assemblages of ericoid mycorrhizal fungi from hair roots of individual Ericaceae plants in dry sclerophyll forest habitats are characterised by relatively low genetic diversity. 相似文献