青藏高原食草动物粪栖真菌的多样性

分别利用真菌通用引物和厌氧真菌特异引物构建了西藏地区3种反刍动物和1种单胃动物共8份新鲜粪样的ITS克隆文库,以通过系统发育分析解析其中好氧真菌与厌氧真菌的多样性。通用引物ITS文库测得324条真菌序列,分别属于子囊菌门Ascomycota 3个目、担子菌门Basidiomycota 2个目、接合菌门Zygomycota的1个目和严格厌氧的新丽鞭毛菌门Neocallimastigomycota,共24个OTUs。其中,子囊菌门相对丰度最高,占80.6%;新丽鞭毛菌门相对丰度最低,仅占0.6%。大部分OTUs与已知真菌属、种关系较远。厌氧真菌特异引物文库测得661条序列,全部属于新丽鞭毛菌门,包括所有已知的厌氧霉属Anaeromyces、盲肠菌属Caecomyces、肠霉属Cyllamyces、新丽鞭毛属Neocallimastix、奥式霉属Orpinomyces、胃梨囊霉属Piromyces 6个属和3个未培养的属级类群(NG9、NG10、NG11),共29个OTUs。其中3个已知的单中心属存在于所有反刍动物样品中,并以Piromyces相对丰度最高(37.4%)。单胃动物马粪样中全部为NG9类群。NG9是本研究新发现的属级类群,研究中同时揭示有多个未培养种和潜在的新种。研究结果证明青藏高原反刍动物粪栖真菌多样性较高,并存在丰富的未培养种和潜在的新属及新种。     

Internal Transcribed Spacer Sequence Analysis of Puccinia helianthi Schw. and Its Application in Detection of Sunflower Rust

Two basidiomycete‐specific primers ITS1‐F and ITS4‐B were used in identification of the genus Puccinia. The primers showed good specificity for the genus with an 816‐bp product that was amplified exclusively. Twenty sequences of internal transcribed spacer (ITS) regions of Puccinia helianthi isolates from China remain unchanged. The whole ITS length (including ITS1 sequence 194 bp, 5.8S rRNA gene 156 bp, ITS2 sequence 206 bp) was 556 bp. By comparing the aligned ITS sequences of several Puccinia isolates from China, Spain and the United States, ITS homogeneity among these sunflower rust isolates was >99%. Genetic homology and phylogeny of P. helianthi with other Puccinia spp. was investigated. Nineteen sequences of rDNA ITS1 and ITS2 were determined and used as phylogenetic markers. Phylogenetic analysis of ITS regions showed that Puccinia spp. of sunflower was clustered in one clade with P. komarovii and P. violae, divergent from Puccinia spp. of Chrysanthemum, P. tenaceti of tansy (Tanacetum vulgare) and Puccina spp. of big sagebrush (Artemisia tridentate) indicating sunflower rust had distant phylogenetic relationships with other Compositae rusts. With the specified primers SR‐1 and SR‐2, either from purified urediniospores or symptomless (but infected) sunflower leaves could be examined specifically. Therefore, results of this study help in detection and polygenetic study of rust fungi occurring on sunflower.     

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。     

A proposed taxonomy of anaerobic fungi (class neocallimastigomycetes) suitable for large-scale sequence-based community structure analysis

Anaerobic fungi are key players in the breakdown of fibrous plant material in the rumen, but not much is known about the composition and stability of fungal communities in ruminants. We analyzed anaerobic fungi in 53 rumen samples from farmed sheep (4 different flocks), cattle, and deer feeding on a variety of diets. Denaturing gradient gel electrophoresis fingerprinting of the internal transcribed spacer 1 (ITS1) region of the rrn operon revealed a high diversity of anaerobic fungal phylotypes across all samples. Clone libraries of the ITS1 region were constructed from DNA from 11 rumen samples that had distinctly different fungal communities. A total of 417 new sequences were generated to expand the number and diversity of ITS1 sequences available. Major phylogenetic groups of anaerobic fungi in New Zealand ruminants belonged to the genera Piromyces, Neocallimastix, Caecomyces and Orpinomyces. In addition, sequences forming four novel clades were obtained, which may represent so far undetected genera or species of anaerobic fungi. We propose a revised phylogeny and pragmatic taxonomy for anaerobic fungi, which was tested and proved suitable for analysis of datasets stemming from high-throughput next-generation sequencing methods. Comparing our revised taxonomy to the taxonomic assignment of sequences deposited in the GenBank database, we believe that >29% of ITS1 sequences derived from anaerobic fungal isolates or clones are misnamed at the genus level.     

Taxon-specific oligonucleotide primers for detection of Glomus etunicatum

The 5.8S subunit and flanking internal transcribed spacer (ITS) regions in nuclear ribosomal DNA (rDNA) from spores of Glomus etunicatum MD107, MD127, TN101, and FL329 were amplified by polymerase chain reaction (PCR) using ITS1Kpn and ITS4Pst as primers. The amplification products (597, 599, 598, and 613 bp, respectively) were cloned and sequenced. The similarity among ITS region sequences from MD107, MD127, and TN101 was 99%, whereas the sequence similarity between the ITS regions of these three DNAs and that from FL329 was 91%. The 5.8S rDNA sequences of all four G. etunicatum isolates were identical. In contrast, major dissimilarities in the corresponding rDNA sequence regions of other glomalean taxa were observed. Oligonucleotide sequences unique to G. etunicatum were tested for their specificity in PCR amplification of genomic DNA from spores of 55 isolates comprising 29 glomalean fungi: 18 isolates of G. etunicatum, five G. intraradices, three G. claroideum, 16 other Glomus isolates, and 11 other glomalean taxa from each of four other genera. The G. etunicatum isolates were from a broad range of geographic regions and soils. The oligonucleotide pair GETU1:GETU2 primed specific amplification of an oligonucleotide sequence (approximately 400 bp) present in all G. etunicatum. This primer pair did not prime PCR when template consisted of DNA from any of the other glomalean fungi or any of the non-mycorrhizal controls, including roots of corn (Zea mays). In addition, the pair successfully detected G. etunicatum in nested PCR using a primary PCR product amplified from highly diluted extracts of colonized corn roots using modified ITS1:ITS4 primers. In the phylogenetic analysis of Glomus 5.8S and ITS2 rDNA region sequences, which included 500 bootstrap data sets, confidence in the G. etunicatum branch was very strong (90%) and clearly independent of G. claroideum and G. intraradices, to which it is very closely related. Accepted: 15 October 2000     

Determination of genetic diversity among Indian isolates of Rhizoctonia bataticola causing dry root rot of chickpea

Genetic diversity among 27 isolates (23 from chickpea and 4 from other host crops) of Rhizoctonia bataticola representing 11 different states of India was determined by random amplified polymorphic DNA (RAPD), internal transcribed spacer restriction fragment length polymorphism (ITS-RFLP) and ITS sequencing. The isolates showed variability in virulence test. Unweighted paired group method with arithmetic average cluster analysis was used to group the isolates into distinct clusters. The clusters generated by RAPD grouped all the isolates into six categories at 40% genetic similarity. High level of diversity was observed among the isolates of different as well as same state. Some of the RAPD (OPN 4, OPN 12, and OPN 20) markers clearly distinguished majority of the isolates into the area specific groups. The ITS I, 5.8rDNA and ITS II regions of 11 isolates representing different RAPD groups were amplified with primers ITS 1 and ITS 4 and digested with seven restriction enzymes. The restriction enzymes DraI, MboI, RsaI, and AluI were found to be suitable for differentiating the isolates into five categories by showing isolate specific ITS-RFLP patterns. The isolates were variable in their nucleotide sequences of the ITS regions. This is the first study on genetic diversity among chickpea isolates of R. bataticola.     

INTER‐ AND INTRASPECIFIC COMMUNITY STRUCTURE WITHIN THE DIATOM GENUS PSEUDO‐NITZSCHIA (BACILLARIOPHYCEAE)1

Pseudo‐nitzschia‐specific PCR primers (PnAll F/R) were designed to amplify a polymorphic region of the internal transcribed spacer 1 (ITS1) from at least 11 Pseudo‐nitzschia species. The primers were used to generate environmental clone libraries from Puget Sound, Washington, and Vancouver Island, British Columbia, to confirm that the primers were specific for Pseudo‐nitzschia and to determine the extent of ITS1 sequence diversity within individual species. All environmental ITS1 sequences generated with PnAll primers displayed the greatest similarity to known Pseudo‐nitzschia ITS1 sequences. The length of cloned ITS1 fragments differed among species but was conserved within a species. Intraspecific genotypes exhibited <3% sequence divergence for seven of the 10 species detected in clone libraries. Several ITS1 genotypes unique to the Pacific Northwest were identified in environmental samples, and other genotypes were more broadly distributed. The Pseudo‐nitzschia primers were also used to develop an automated ribosomal intergenic spacer analysis (ARISA) to rapidly identify Pseudo‐nitzschia species in environmental samples based on species‐specific variation in the length of the targeted ITS1 region. The ARISA peaks were then associated with the environmental clone sequences for Pseudo‐nitzschia species. Surveying the genetic composition of communities at both the inter‐ and intraspecific levels will enhance our understanding of Pseudo‐nitzschia bloom dynamics.     

Community dynamics of Neocallimastigomycetes in the rumen of yak feeding on wheat straw revealed by different primer sets

Anaerobic fungi (Neocallimastigomycetes) play an important role in fermenting lignin-rich plant biomass into sugars in the rumen of animals, representing a very promising enzyme resource to contribute to the conversion of plant biomass into biofuels. However, current studies about their functions mainly focus on limited species, and little is known about the coordination of different members of the anaerobic fungi in the digestion process of plant fibres. In this study, the community composition of anaerobic fungi in the rumens of yaks at five different time points (1, 3, 5, 7.5 and 24 h after feeding wheat straw) was investigated employing a cultivation-independent method using ITS clone libraries. Comparison of five pairs of primers showed that PCR primer sets could have clear amplification bias and therefore potentially affect the interpretation of the resulting fungal community structure; then two primer sets GM1/MNGM2 and ITS1/ITS4 were selected. Among the 398 sequences from 10 clone libraries, 18 operational taxonomic units (OTUs) of Neocallimastigomycetes were obtained, covering five known genera and one yet uncultured lineage. OTUs belonging to the bulbous-type morphotype (Caecomyces- or Cyllamyces-related) and the rhizoidal genus Neocallimastix were abundant and predominantly present, representing 62.7% and 19.3% OTUs respectively. In all the later samples taken from 3 h to 24 Neocallimastigomycetes h after feeding, a relatively stable community composition was revealed: members of Neocallimastix increased to represent 43.4–49.4% and the bulbous-type morphotype declined to represent 39.5–42.7%. This implies a substantial turnover and synergy between bulbous and rhizoidal morphotypes of anaerobic fungi during the process of fibre digestion. Our study provided the first insight into the in vivo temporal change in the anaerobic fungal community, and the role of Neocallimastigomycetes with a bulbous morphotype in the degradation of plant cell wall in the yak rumen.     

基于DNA复合条形码技术的蝗虫肠道共生真菌多样性研究

利用DNA复合条形码技术,研究了11个样本的蝗虫肠道共生真菌的多样性。结果显示:ITS在所研究的物种中鉴定了5门16纲29目40属2786 OTU真菌。肠道真菌群落组成分析结果显示:所有物种肠道真菌类群中含量最高的是木耳菌目和银耳目,其中斑翅蝗科的真菌类群多样性相对最高,斑腿蝗科的真菌类群多样性相对最低,表明各蝗虫肠道之间存在着明显的菌群多样性变化。α多样性分析结果显示:斑翅蝗科的共生真菌群落丰富度和多样性最高,斑腿蝗科的则最低。β多样性分析结果显示:(1)同科的各个种的肠道真菌群落结构差异性较小,不同科的种的肠道真菌群落结构差异性较大;(2)剑角蝗科的肠道真菌群落结构与其他物种的相似性均相对较低,而且在两个不同取样地得到的中华剑角蝗的真菌群落结构相似性也相对较低。聚类分析结果显示:(1)同科的蝗虫肠道真菌首先聚到一起,且群落相似性也相对较高;(2)布勒掷孢酵母属、内疣衣属和外瓶霉属3个属在蝗虫肠道真菌中是优势菌属。     

The rpb2 gene represents a viable alternative molecular marker for the analysis of environmental fungal communities

Although the commonly used internal transcribed spacer region of rDNA (ITS) is well suited for taxonomic identification of fungi, the information on the relative abundance of taxa and diversity is negatively affected by the multicopy nature of rDNA and the existence of ITS paralogues. Moreover, due to high variability, ITS sequences cannot be used for phylogenetic analyses of unrelated taxa. The part of single‐copy gene encoding the second largest subunit of RNA polymerase II (rpb2) was thus compared with first spacer of ITS as an alternative marker for the analysis of fungal communities in spruce forest topsoil, and their applicability was tested on a comprehensive mock community. In soil, rpb2 exhibited broad taxonomic coverage of the entire fungal tree of life including basal fungal lineages. The gene exhibited sufficient variation for the use in phylogenetic analyses and taxonomic assignments, although it amplifies also paralogues. The fungal taxon spectra obtained with rbp2 region and ITS1 corresponded, but sequence abundance differed widely, especially in the basal lineages. The proportions of OTU counts and read counts of major fungal groups were close to the reality when rpb2 was used as a molecular marker while they were strongly biased towards the Basidiomycota when using the ITS primers ITS1/ITS4. Although the taxonomic placement of rbp2 sequences is currently more difficult than that of the ITS sequences, its discriminative power, quantitative representation of community composition and suitability for phylogenetic analyses represent significant advantages.     

PCR-based Specific Detection of Ustilaginoidea virens and Ephelis japonica

A PCR‐based technique for detection of clavicipitaceous pathogens in rice and related grasses was developed. The target pathogens were Ustilaginoidea virens, which causes rice false smut, and Ephelis japonica, which causes rice udbatta disease and black choke in grasses. To design specific primers, a comparison was made on genetic diversity on the rDNA internal transcribed spacers (ITS1 and ITS2) and the 5.8S rRNA gene of U. virens, Ephelis japonica, as well as some other clavicipitaceous fungi. Each fungus was successfully detected by using a specific primer set with high sensitivity. Species‐specific primers designed here were capable of detecting these pathogens in plant tissues. The PCR detection was consistent with conventional histological observation. This nested PCR assay was sensitive and reliable for the detection of U. virens and E. japonica, and thus can be a used to study disease cycles and early prediction of false smut and udbatta‐disease incidence in fields.     

Analysis of fungal diversity in <Emphasis Type="Italic">Orchis tridentata</Emphasis> Scopoli

We have assessed the identities of fungi associated with Orchis tridentata, an endangered orchid species growing in open woodland and poor grassland of Central and Southern Europe. Fungal diversity in ten O. tridentata adult individuals collected in two protected areas of Central Italy was analysed by means of morphological and molecular methods. Sequencing of the cloned ITS fungal inserts corresponding to the dominant PCR products obtained from amplification of total root DNA with ITS1F and ITS4 primers revealed a variety of fungal species occurring in O. tridentata roots. Among them, members of the basidiomycete families Ceratobasidiaceae, Tulasnellaceae and Hymenogastraceae were recovered, together with ascomycetes belonging to Leptodontidium and Terfezia. The implications of these results in the understanding of O. tridentata biology and for the conservation of this threatened orchid species are discussed.     

三种红树林植物健康与非健康叶片中真菌的比较

红树林叶片感染真菌后可能会向非健康状态变化,为了比较三种红树林植物海漆、秋茄和桐花树健康与非健康叶片真菌类群,明确其中真菌类群的差异,该研究从广西茅尾海红树林自然保护区采集海漆、秋茄和桐花树健康与非健康叶片,对叶片中真菌分离纯化并进行形态学鉴定,提取真菌的DNA,采用RAPD多样性、ITS序列对真菌进行分子鉴定。经过初步分析,从海漆、秋茄和桐花树中共分离到157株真菌,经过形态学和RAPD分析,可能为19种不同的真菌。采用真菌ITS序列对19种真菌代表性菌株进行分析,结果表明:19种真菌都属于子囊菌门,有15株与已有的真菌ITS序列相似性在97%以上;有4株相似性低于95%,可能为新种。海漆健康和非健康叶片分别分离到真菌7种和5种,健康叶片含了非健康叶片中所有真菌;秋茄健康和非健康叶片分离到真菌1种和9种,且健康叶片中分离到的内生真菌Dothiorella aegiceri也包含于非健康叶片分离的真菌中;桐花树健康和非健康叶片分离到真菌1种和3种,且桐花树分离的内生真菌也是Dothiorella aegiceri,其包含于非健康叶片中分离到的真菌。该研究证明,海漆内生真菌同时也可能是植物病原菌,内生真菌与植物病原菌没有明显界限;另一方面,该研究发现秋茄和桐花树叶片的病变是由外部的病原真菌感染引起,感染的原因可能是昆虫叮咬红树林植物后留下了创口,这些创口有利于真菌的感染。     

Molecular biological detection of anaerobic gut fungi (Neocallimastigales) from landfill sites

Oligonucleotide primers were designed for the 18S rRNA genes of members of the Neocallimastigales and used in a nested PCR protocol to amplify 787-bp fragments of DNA from landfill site samples. The specificities of the primers were confirmed by phylogenetic analysis of the environmental clone sequences, and this method can therefore now be used to investigate the ecology of the obligately anaerobic fungi. To our knowledge, this is the first demonstration of the occurrence of members of the Neocallimastigales outside the mammalian gut, and their distribution across the landfill samples examined here suggests that they are actively involved in cellulose degradation.     

Polyclonal antibody‐based ELISA in combination with specific PCR amplification of internal transcribed spacer regions for the detection and quantitation of Lasiodiplodia theobromae,causal agent of gummosis in cashew nut plants

Members of Botryosphaeriaceae family are associated with serious diseases in different plants across the world. In cashew nut plants (Anacardium occidentale), the fungus Lasiodiplodia theobromae causes a severe group of symptoms related to gummosis that results in decreased nut production. The aim of this work was to develop an indirect enzyme‐linked immunosorbent assay (ELISA) with sufficient sensitivity and specificity to detect the fungus both in vitro and in planta (artificially and naturally infected) and to increase the detection specificity within the fungi group using primers specific for the internal transcribed spacer (ITS) sequences. A collection of L. theobromae isolates was obtained, and antisera against the fungus were raised in rabbits. Cross‐reactivity against Neofusicoccum sp., Colletotrichum gloeosporioides, Phomopsis anacardii and Pestalotiopsis guepinii was examined. Naturally and artificially infected vegetal material were employed in the ELISAs. The fungi ITS sequences were determined, and single nucleotide polymorphisms were identified and used for primer design. For the naturally infected plants, there was an approximately fourfold variation in the absorbance values. Some positive readings for asymptomatic samples were detected. For the artificially infected samples, an ELISA‐based weekly time‐course analysis was conducted, and the values for samples from 0 and 7 days were lower than the threshold value. Beginning on day 14, the infection could be detected, with rates varying from 40% on day 14 to 80% on day 21 and 100% by the end of the experiment. The ITS sequencing revealed few polymorphisms among the L. theobromae isolates, but for C. gloeosporioides, P. anacardii, P. guepinii and Neofusicoccum sp., the sequences were sufficient to permit reliable discrimination. The feasibility of ELISA as an early detection technique to assist in gummosis management was demonstrated. PCR amplification based on ITS regions increases and complements serological specificity.     

Trypanosome Diversity in Wildlife Species from the Serengeti and Luangwa Valley Ecosystems

Background

The importance of wildlife as reservoirs of African trypanosomes pathogenic to man and livestock is well recognised. While new species of trypanosomes and their variants have been identified in tsetse populations, our knowledge of trypanosome species that are circulating in wildlife populations and their genetic diversity is limited.

Methodology/Principal Findings

Molecular phylogenetic methods were used to examine the genetic diversity and species composition of trypanosomes circulating in wildlife from two ecosystems that exhibit high host species diversity: the Serengeti in Tanzania and the Luangwa Valley in Zambia. Phylogenetic relationships were assessed by alignment of partial 18S, 5.8S and 28S trypanosomal nuclear ribosomal DNA array sequences within the Trypanosomatidae and using ITS1, 5.8S and ITS2 for more detailed analysis of the T. vivax clade. In addition to Trypanosoma brucei, T. congolense, T. simiae, T. simiae (Tsavo), T. godfreyi and T. theileri, three variants of T. vivax were identified from three different wildlife species within one ecosystem, including sequences from trypanosomes from a giraffe and a waterbuck that differed from all published sequences and from each other, and did not amplify with conventional primers for T. vivax.

Conclusions/Significance

Wildlife carries a wide range of trypanosome species. The failure of the diverse T. vivax in this study to amplify with conventional primers suggests that T. vivax may have been under-diagnosed in Tanzania. Since conventional species-specific primers may not amplify all trypanosomes of interest, the use of ITS PCR primers followed by sequencing is a valuable approach to investigate diversity of trypanosome infections in wildlife; amplification of sequences outside the T. brucei clade raises concerns regarding ITS primer specificity for wildlife samples if sequence confirmation is not also undertaken.     

A taxon-specific oligonucleotide probe for temperate zone soil isolates of Glomus mosseae

 The 5.8 S subunit and flanking internal transcribed spacer (ITS) regions in nuclear ribosomal DNA (rDNA) from spores of Glomus mosseae FL156 and UK118 were amplified by polymerase chain reaction (PCR) using ITS1 and ITS4 as primers. The amplification product from template DNA of UK118 was cloned and sequenced (569 bp); the amplified DNA from FL156 was sequenced directly (582 bp). There was a 95% sequence similarity between DNAs amplified from the two isolates; in contrast, major dissimilarities with partial sequences of seven other glomalean taxa were observed. Four oligonucleotide sequences unique to Glomus mosseae were identified as potential primers. Their specificity to Glomus mosseae was assessed by PCR amplification of genomic DNA from spores from 36 glomalean fungi: 13 isolates of Glomus mosseae, two Glomus monosporum, 10 other Glomus isolates, and 11 other glomalean taxa from each of four other genera. The Glomus mosseae isolates were from a broad range of temperate zone agricultural soils. Oligonucleotide pair GMOS1 : GMOS2 primed specific amplification of an oligonucleotide sequence (approximately 400 bp) present in all Glomus mosseae isolates and two isolates of the closely related Glomus monosporum. This primer pair did not prime PCR when the template consisted of DNA from any of the other glomalean fungi or any of the nonmycorrhizal controls. In addition, a 24-mer oligonucleotide, designated GMOS5, hybridized with Glomus mosseae and Glomus monosporum DNA amplified by PCR using primer pairs ITS1 : ITS4 and GMOS1 : GMOS2. Colony-blot assays showed that GMOS5 hybridized to 100% and 97% of E. coli pUC19 clones of amplification products from Glomus mosseae FL156 and UK118 DNA templates, respectively, indicating that nearly all clones contained an homologous sequence. GMOS5 was used successfully to detect specifically Glomus mosseae in DNA extracted from colonized sudan grass (Sorghum sudanense L.) roots and amplified by PCR using the primer pair GMOS1 : GMOS2. The results confirm several previous indications that Glomus mosseae and Glomus monosporum are indistinguishable taxonomic entities. Accepted: 14 February 1998     

盐角草内生真菌分离鉴定及抑制水产腐败细菌菌株的筛选

盐角草是一种耐盐植物,有重要的食用、药用价值.为研究盐角草的内生真菌及其活性次生代谢产物的多样性,该文对采集于广西北部湾沿海盐角草的内生真菌进行分离纯化,采用RAPD对内生真菌多样性进行分析,采用ITS基因序列对内生真菌进行鉴定,并对内生真菌提取物抑制等3种水产腐败细菌的活性进行筛选.结果表明:(1)从北部湾盐角草植物...     

Diversity of arbuscular mycorrhizal fungi colonising roots of the grass species<Emphasis Type="Italic"> Agrostis capillaris</Emphasis> and<Emphasis Type="Italic"> Lolium perenne</Emphasis> in a field experiment

Analysis of arbuscular mycorrhizal (AM) fungal diversity through morphological characters of spores and intraradicular hyphae has suggested previously that preferential associations occur between plants and AM fungi. A field experiment was established to investigate whether AM fungal diversity is affected by different host plants in upland grasslands. Indigenous vegetation from plots in an unimproved pasture was replaced with monocultures of either Agrostis capillaris or Lolium perenne. Modification of the diversity of AM fungi in these plots was evaluated by analysis of partial sequences in the large subunit (LSU) ribosomal RNA (rDNA) genes. General primers for AM fungi were designed for the PCR amplification of partial sequences using DNA extracted from root tissues of A. capillaris and L. perenne. PCR products were used to construct LSU rDNA libraries. Sequencing of randomly selected clones indicated that plant roots were colonised by AM fungi belonging to the genera Glomus, Acaulospora and Scutellospora. There was a difference in the diversity of AM fungi colonising roots of A. capillaris and L. perenne that was confirmed by PCR using primers specific for each sequence group. These molecular data suggest the existence of a selection pressure of plants on AM fungal communities.