重复序列PCR(rep-PCR)指纹分析技术在病原真菌鉴定和分型中的应用

随着医学科学的发展及人们对深部真菌感染的重视,越来越多的新技术用于临床真菌的检测和鉴定。重复序列PCR(rep-PCR)指纹分析技术因其高分辨力、快速、简便、经济等优势,已成为分析真菌基因组、明确菌属间克隆来源的重要方法。本文就rep-PCR指纹技术及其自动化DiversiLab System在病原真菌分类鉴定和流行病学研究中的应用加以综述。     

分子生物学技术在侵袭性真菌感染诊疗中的应用进展

侵袭性真菌感染近年来呈上升趋势,临床分离真菌的构成比有所变化,耐药菌株的增加亦给临床的诊断、治疗和预防带来一定困难。因此,建立快速、准确的分子生物学鉴定方法,对侵袭性真菌感染的早期诊断有着重要意义。该文就分子生物学技术在侵袭性真菌感染早期诊疗中的应用研究作一综述。     

多重PCR对真菌性角膜炎主要致病菌的菌属鉴定

目的:建立多重PCR体系对真菌性角膜炎主要致病真菌进行快速诊断并同时进行菌属鉴定的方法。方法:建立两个多重PCR体系(体系1和体系2),对真菌性角膜炎九种主要致病真菌DNA进行检测,观察该体系对真菌临床菌株、人类基因组及其他眼部常见致病微生物DNA的检测结果。结果:体系1对镰孢菌属扩增均产生约360bp的特异产物,对曲霉菌属、牵连青霉菌和新月弯孢菌扩增均产生约470bp的特异产物。体系2对镰孢菌属、曲霉菌属均无特异产物,而对牵连青霉菌产生了360bp的特异产物,对新月弯孢霉产生了300bp的特异产物。根据DNA模板在两个多重PCR体系中扩增出的不同特异条带可将九种真菌分为四个菌属。57株真菌临床菌株中55株的鉴定结果与常规鉴定结果一致。两体系对人类基因组及其他眼部常见致病微生物DNA的扩增结果均为阴性。结论:通过两个多重PCR体系检测可将真菌性角膜炎在菌属水平进行诊断及鉴定。该方法具有快速、简便、特异、灵敏的特点,具有较好的临床应用前景。     

石耳属ITS条形码物种的快速鉴定

生物DNA条码是利用一个短的DNA标记进行生物的快速鉴定。以真菌界的石耳目、石耳科中的石耳属地衣的部分种类为材料,应用地衣共生菌的rDNA-ITS序列,对29种石耳属地衣进行鉴定,并初步探究其中部分种类特异的微型条码,为石耳属地衣的快速鉴定提供依据。     

真菌DNA条形码研究进展

DNA条形码（DNA barcode）是通过一段短的标准DNA片段实现物种的快速、准确和标准化鉴定。线粒体细胞色素C氧化酶亚基I（COI）基因作为动物的DNA条形码已广泛应用于物种鉴定中,在植物上已选定叶绿体rbcL和matK基因作为基本的DNA条形码。目前世界各国真菌学家正对不同的真菌类群进行不同基因片段的筛选与评价,并在第四届国际生命条形码大会上正式推荐了ITS作为真菌的首选DNA条形码。对国内外真菌DNA条形码的研究进展进行总结与分析,并展望真菌DNA条形码的应用前景。     

真菌通用引物Its1和Its4在丝状真菌鉴定中的价值评价

目的 对真菌通用引物Its1和Its4在丝状真菌鉴定中的价值进行评价.方法 收集中山大学附属第一医院2012年1月至2012年8月间分离的丝状真菌11株,使用真菌通用引物Its1和Its4采用PCR法扩增核糖体基因,对PCR产物进行序列测定,将测序结果与GenBank中已知标准或临床菌株DNA序列比对,确定丝状真菌的菌种;同时与传统形态学鉴定方法进行比较,从而对真菌通用引物Its1和Its4在丝状真菌鉴定中的价值进行评价.结果 从DNA提取到序列测定结束,在2个工作日内即可完成.所有菌株均测序成功,测序结果与GenBank中的序列比对,烟曲霉、杂色曲霉、橘青霉、溜曲霉可以鉴定到种;黄曲霉和米曲霉、阿姆斯特丹散囊菌和冠突散囊菌由于高度同源性无法区分鉴定到种.结论 利用真菌通用引物Its1和Its4结合PCR技术和测序技术,可快速、准确将大部分丝状真菌鉴定到种.     

rDNA ITS序列在ACCC真菌鉴定中的应用

【目的】真菌无处不在,并与人类生活紧密相关。真菌的鉴定是科学研究和资源开发利用的基础。本研究从中国农业微生物菌种保藏管理中心(ACCC)随机选取已经定名的112株库藏真菌菌株作为实验材料,通过DNA测序,评估核糖体DNA内转录间隔区(rDNA ITS)序列在真菌属级鉴定上的应用。【方法】采用真菌DNA条形码rDNA ITS的序列测定和在GenBank中查寻比对的方法,对这些菌株进行属水平的鉴定复核。【结果】通过研究,供试菌株中有80株的属名与原鉴定相符,同时表明序列中套峰的情况降低与Gen Bank中序列比对的相似性。【结论】rDNA ITS序列测定法可以用于真菌菌株进行属水平的鉴定复核,国家菌种保藏机构应对已入库保藏和即将入库的所有真菌菌株都进行属水平的鉴定复核,并对菌株鉴定结果作审慎处理,原定名的名称及其变更历史应以"曾用名"在数据库中保留。     

297例浅部真菌病临床及病原菌菌种分析

目的 探讨皮肤浅部真菌病致病真菌菌种的构成.方法 对297例真菌涂片阳性和培养阳性的浅部真菌病患者,取标本进行分离培养及菌种鉴定,培养阳性标本在形态学上不能准确鉴定的,进行梅里埃API 20C AUX酵母菌鉴定试剂盒或核糖体DNA （rDNA） ITS区序列测定,确切鉴定菌种.使用SPSS 17.0统计软件对于结果进行统计分析.结果 共分离培养出致病菌13种,其中红色毛癣菌86株（29.0％）,须癣毛癣菌68株（22.9％）,念珠菌属59株（19.9％）,暗色真菌属13株（4.4％）,曲霉菌属13株（4.4％）,红酵母菌12株（4.0％）,青霉菌属9株（3.0％）,毛霉菌9株（3.0％）,犬小孢子菌5株（1.7％）,浅白隐球菌3株（1.0％）,毛孢子菌属2株（0.7％）,絮状表皮癣菌1株（0.3％）,混合感染17株（5.7％）.结论 本地区浅部真菌病以甲癣为主,主要致病真菌是红色毛癣菌,但其他种类真菌感染尤其是念珠菌属有明显上升趋势.     

一种快速高效提取病原真菌DNA作为PCR模板的方法

真菌rDNA-ITS序列分析适合于较高等级水平的生物群体间的系统分析。真菌DNA的提取采用传统的方法,步骤繁琐,需要较长时间。采用Chelex-100法提取真菌DNA,使用PCR扩增rDNA-ITS序列评价提取核酸的质量。结果显示,该方法具有经济、简便、快速、高效的特点,是一种比较理想的提取真菌基因组DNA作为PCR模板的方法。     

皮肤及皮肤结构真菌感染研究现状与展望

皮肤及皮肤结构真菌感染(SSSFI)是影响国民健康的重要疾病,常迁延不愈,甚至威胁生命。目前很多临床表型未被充分认识。一方面原因是对致病真菌种类认识不够、分离困难和鉴定不准确;另一方面是临床表型及物种多样性研究不全面。传统观念认为浅部SSSFI致病菌多为皮肤癣菌,深部为念珠菌等已知属种。经典分离方法造成许多真菌不能成功分离,或被鉴定为污染菌。扩展SSSFI临床表型及其致病真菌种类研究,不但可以促进疾病的诊断研究,进而使得原本不可治愈的疑难重症的治愈成为可能,还可以发现新物种。     

Evaluating multilocus Bayesian species delimitation for discovery of cryptic mycorrhizal diversity

The increasing availability of DNA sequence data enables exciting new opportunities for fungal ecology. However, it amplifies the challenge of how to objectively classify the diversity of fungal sequences into meaningful units, often in the absence of morphological characters. Here, we test the utility of modern multilocus Bayesian coalescent-based methods for delimiting cryptic fungal diversity in the orchid mycorrhiza morphospecies Serendipita vermifera. We obtained 147 fungal isolates from Caladenia, a speciose clade of Australian orchids known to associate with Serendipita fungi. DNA sequence data for 7 nuclear and mtDNA loci were used to erect competing species hypotheses by clustering isolates based on: (a) ITS sequence divergence, (b) Bayesian admixture analysis, and (c) mtDNA variation. We implemented two coalescent-based Bayesian methods to determine which species hypothesis best fitted our data. Both methods found strong support for eight species of Serendipita among our isolates, supporting species boundaries reflected in ITS divergence. Patterns of host plant association showed evidence for both generalist and specialist associations within the host genus Caladenia. Our findings demonstrate the utility of Bayesian species delimitation methods and suggest that wider application of these techniques will readily uncover new species in other cryptic fungal lineages.     

An Evaluation of 18S rDNA Approaches for the Study of Fungal Diversity in Grassland Soils

Fungal community structure and diversity in two types of agricultural grassland soil were investigated by amplified 18S ribosomal DNA restriction analysis (ARDRA) and 18S ribosomal DNA sequence analysis. These two grassland sites represent a species-rich old hay meadow and an agriculturally improved site with low floristic diversity. Two primer sets were used in combination to amplify approximately 550 bp of rDNA from three major fungal groups, the zygomycetes, basidiomycetes, and ascomycetes, and clone libraries were created for each site. 18S ARDRA was used to analyze 170 rDNA clones, and three diversity indices were calculated. A small-scale culturing analysis was also carried out and the most common isolates analyzed using ARDRA and sequence analysis. The soil fungal community revealed by the rDNA approaches was significantly different from that produced by this limited culture-based analysis. Twenty-eight soil-derived clones were sequenced, and many represented fungal taxa rarely reported in culture-based studies. The PCR-based techniques detected differences in diversity between the two fungal communities and changes in patterns of dominance that paralleled higher plant diversity. The results suggest that 18S rDNA-based approaches are a useful tool for initial screening of fungal communities, and that they represent a more comprehensive picture of the community than plate culturing.     

Clustering of fungal community internal transcribed spacer sequence data obscures taxonomic diversity

Next‐generation DNA sequencing has enabled a rapid expansion in the size of molecular fungal ecology studies employing the nuclear internal transcribed spacer (ITS) region. Many sequence‐processing pipelines and protocols require sequence clustering to generate operational taxonomic units (OTUs) based on sequence similarity as a step to reduce total data quantity and complexity prior to taxonomic assignment. However, the consequences of ITS sequence clustering in regard to sample taxonomic coverage have not been carefully examined. Here we demonstrate that typically used clustering thresholds for fungal ITS sequences result in statistically significant losses in taxonomic coverage. Analyses using environmentally derived fungal sequences indicated an average of 3.1% of species went undetected (P < 0.05) if the sequences were denoised and clustered at a 97% threshold prior to taxonomic assignment. Additionally, an in silico analysis using a reference fungal ITS database suggested that approximately 25% of species went undetected if the sequences were clustered prior to taxonomic assignment. Finally, analysis of sequences derived from pure‐cultured fungal isolates of known identity indicated sequence denoising and clustering were not critical in improving identification accuracy.     

Estimating biodiversity of fungi in activated sludge communities using culture-independent methods

Fungal diversity of communities in several activated sludge plants treating different influent wastes was determined by comparative sequence analyses of their 18S rRNA genes. Methods for DNA extraction and choice of primers for PCR amplification were both optimised using denaturing gradient gel electrophoresis profile patterns. Phylogenetic analysis revealed that the levels of fungal biodiversity in some communities, like those treating paper pulp wastes, were low, and most of the fungi detected in all communities examined were novel uncultured representatives of the major fungal subdivisions, in particular, the newly described clade Cryptomycota. The fungal populations in activated sludge revealed by these culture-independent methods were markedly different to those based on culture-dependent data. Members of the genera Penicillium, Cladosporium, Aspergillus and Mucor, which have been commonly identified in mixed liquor, were not identified in any of these plant communities. Non-fungal eukaryotic 18S rRNA genes were also amplified with the primer sets used. This is the first report where culture-independent methods have been applied to flocculated activated sludge biomass samples to estimate fungal community composition and, as expected, the data obtained gave a markedly different view of their population biodiversity compared to that based on culture-dependent methods.     

In vivo rearrangement of foreign DNA by Fusarium oxysporum produces linear self-replicating plasmids.

Particular combinations of fungal strains and transformation vectors allow for fungal rearrangement of normally integrative plasmids, resulting in the creation of linear self-replicating plasmids in Fusarium oxysporum. The rearrangement results in the addition of fungal DNA, including telomere consensus sequences, to plasmid termini. The mechanism by which this rearrangement occurs is unclear, but it has similarities to extrachromosomal gene amplification. A DNA fragment which allows for linear autonomous replication upon reintroduction to the fungus was subcloned and sequenced. This DNA sequence contains the repeated telomeric sequence TTAGGG flanked by a region of twofold symmetry consisting primarily of pUC12 DNA. Isolation and identification of this sequence is the first step toward development of vectors that function as artificial chromosomes in filamentous fungi. This sequence was shown to promote autonomous replication and enhance transformation in several strains of F. oxysporum, Nectria haematococca, and Cryphonectria parasitica.     

核糖体DNA的内转录间隔区序列标记在真菌分类鉴定中的应用

传统的真菌分类主要根据真菌菌株的形态特征、生长特性与生理生化指标进行,而分子生物学技术的发展提升了真菌分类鉴定研究的手段。真菌核糖体DNA内转录间隔区(ITS)在进化上比编码区快,种内的不同菌株之间高度保守,但在种间变化极大,故可为真菌学的研究提供丰富的遗传信息。简要综述了ITS序列分析技术在真菌分类鉴定中的应用现状、相关问题及前景。     

Organization of genes of ribosomal RNA from the mushroom Verticillium dahliae

Using yeast probe, a complete ribosomal DNA unit from a plant pathogenic fungus, Verticillium dahliae, was cloned into a plasmid vector pTZ19R. Partial DNA sequence of the clones, when compared to the yeast ribosomal DNA sequence, allowed to establish the physical map of the fungal rDNA. The overall organization was shown to be similar to other fungal rDNAs previously known.     

Differential effect of sample preservation methods on plant and arbuscular mycorrhizal fungal DNA

A wide range of methods are commonly used for preserving environmental samples prior to molecular analyses. However, the effect of these preservation methods on fungal DNA is not understood. The objective of this study was to test the effect of eight different preservation methods on the quality and yield of DNA extracted from Bromus inermis and Daucus carota roots colonized by the arbuscular mycorrhizal (AM) fungus, Glomus intraradices. The total DNA concentration in sample extracts was quantified using spectrophotometry. Samples that were frozen (− 80 ºC and − 20 ºC), stored in 95% ethanol, or silica gel dried yielded total (plant and fungal) DNA concentrations that were not significantly different from fresh samples. In contrast, samples stored in CTAB solution or freeze-dried resulted in significantly reduced DNA concentrations compared with fresh samples. The preservation methods had no effect on the purity of the sample extracts for both plant species. However, the DNA of the dried samples (silica gel dried, freeze-dried, heat dried) appeared to be slightly more degraded compared with samples that remained hydrated (frozen, stored in ethanol or CTAB solutions) during storage when visualized on a gel. The concentration of AM fungal DNA in sample extracts was quantified using TaqMan real time PCR. Methods that preserved samples in hydrated form had similar AM fungal DNA concentrations as fresh samples, except D. carota samples stored in ethanol. In contrast, preservation methods that involved drying the samples had very low concentrations of AM fungal DNA for B. inermis, and nearly undetectable for D. carota samples. The drying process appears to be a major factor in the degradation of AM fungal DNA while having less of an impact on plant DNA. Based on these results, samples that need to be preserved prior to molecular analysis of AM fungi should be kept frozen to minimize the degradation of plant and AM fungal DNA.