一种褐飞虱病原真菌的分子生物学鉴定

从田间褐飞虱Nilaparvata lugens( St(a)l)罹病虫体分离得到一株绿僵菌,以该菌为供试菌体,采用氯化苄法、CTAB法以及裂解液法分别提取了该菌的基因组DNA;以ITS1和ITS4为绿僵菌通用引物,对供试菌株的rDNA ITS序列进行PCR扩增、琼脂糖凝胶电泳检测和序列分析,并在核酸序列数据库中进行同...     

4种黑曲霉基因组DNA提取方法的比较

目的:筛选适合提取曲霉DNA的方法.方法:比较2个菌落培养时间段(3d内和10d左右)提取DNA质量的差异;运用氯化苄法、石英砂+CTAB法、Biospin法和微波法分别提取黑曲霉基因组DNA,然后用直接电泳、浓度测定、PCR扩增等方法比较所提DNA的浓度和质量.结果:培养3d内的菌落提取的DNA纯度较高,无需纯化即可用于后续实验;4种方法制备的DNA均可用于PCR等后续实验,其中以石英砂+CTAB法提取的DNA纯度好,产率最高.结论石英砂+CTAB法是一种适用于曲霉DNA提取的简便方法.     

一种快速制备丝状真菌PCR反应模板的方法

为建立一种快速、简便制备丝状真菌PCR反应模板的方法,提高丝状真菌菌株鉴定与转化子筛选效率,本试验以10种不同种丝状真菌为材料,比较了3种不同试剂微波法制备丝状真菌PCR反应模板的效果,并优化了微波处理的时间。试验结果表明,取少量菌丝,加入50mmol/L NaOH,无菌吸头将菌丝打散,微波炉高火处理30s,离心取上清,即可获得用作PCR反应的模板。该方法制备的10种不同种丝状真菌PCR反应模板用ITS引物进行扩增,都可得到与传统CTAB法提取的DNA模板同样清晰明亮的扩增条带。该法制备的PCR模板可用于不同引物和不同公司的PCR反应产品扩增。将该方法制备的PCR模板用于囊状匍柄霉Stemphyliumvesicarium转化子的筛选,其结果与传统CTAB法提取的DNA结果一致。此法为丝状真菌提供了更加快速简便的PCR模板制备方法,极大减少了DNA提取的人力和物力成本。     

氯化苄法提取染色体DNA

本文介绍了一种简便、快速提取细菌和真菌的基因组DNA的方法一氯化苄法。使用氯化苄法抽提基因组DNA,不仅具有快迅、简便、耗资少的优点;而且得到的基因组DNA纯度高,质量好,可直接用于酶切、杂交和PCR扩增等用途。该法可用于多种细菌和真菌基因组DNA的提取。     

煮沸裂解法和试剂盒法提取浸矿菌基因组DNA的比较

目的：在生物浸出中,微生物群落结构分析有着重要意义,而群落分析的基础是提取纯度高、损失少的基因组DNA。为了解决这一问题,本实验通过比较两种较常用的DNA提取方法,煮沸裂解法和试剂盒法,寻找一种灵敏、快速、经济实用的制备浸矿细菌基因组DNA的方法。方法：分别用煮沸裂解法和试剂盒法提取6种浸矿菌的基因组DNA,从所提取的基因组DNA浓度、纯度、回收率和对PCR扩增反应的影响方面比较了两种方法的提取效果;用两种方法来处理不同浓度梯度的一种菌,通过实时定量PCR来比较两种方法的灵敏性。结果：相同处理量（108个）的革兰氏阳性菌（1株）、革兰氏阴性菌（4株）、古菌（1株）经两种方法提取的基因组DNA差异较大,煮沸裂解法所得的6组基因组DNA更纯,其OD260／OD280的值更接近1．8-2．0（纯DNA的OD260／OD280在1．8—2．0之间）,前者所提DNA回收率最大可达后者的16．7倍;煮沸裂解法只需较少菌（102个）便能让实时定量PCR检测到所提DNA模板浓度,比试剂盒法灵敏。结论：两种方法提取的基因组DNA均可用于后续的PCR扩增,此外,前者提取的DNA浓度随细菌浓度增加而呈线性增大,而后者随茵浓度增大,所提DNA量增加有限,因此,在生物浸出中微生物基因组DNA的提取可直接采用简单快速的煮沸提取法,为实验节约成本和时间。     

三种人全血基因组DNA提取方法的比较

目的：比较改良酚一氯仿抽提法、盐析法、试剂盒法从人全血中提取基因组DNA的效果,以期建立一种快速、经济的提取高质量基因组DNA的方法。方法：分别用上述三种方法从人全血中提取基因组DNA,通过紫外分光光度计、琼脂糖凝胶电泳、聚合酶链式反应（PCR）、限制性内切酶酶切检测提取的基因组DNA的产量、纯度和质量。结果：改良酚一氯仿抽提法与试剂盒法提取的基因组DNA相比,DNA的产量有统计学差异,DNA的纯度无统计学差异,但试剂盒法提取的基因组DNA有较明显的降解现象：盐析法与改良酚．氯仿抽提法、试剂盒法相比,基因组DNA的产量和纯度都存在统计学差异,并且基因组DNA聚合酶链式反应（PCR）扩增的稳定性也明显劣于另外两种方法;三种方法提取基因组DNA均能进行限制性内切核酸消化。结论：改良酚一氯仿抽据取法是一种经济、快速、高效、稳定提取人全血基因组DNA的方法,适用于批量临床标本处理。     

一种快速高效获取丝状真菌PCR反应模板的方法

建立一种快速高效获取丝状真菌PCR反应模板的方法,提高丝状真菌PCR鉴定效率。通过单因素法对机械破壁联合微波法进行条件优化,利用优化后的方法获取13株不同种属丝状真菌的PCR反应模板,同时与Chelex-100法、机械破壁法作对比,以试剂盒抽提法作为阳性对照,进行ITS序列扩增,琼脂糖凝胶电泳检测扩增结果。机械破壁联合微波法获取丝状真菌PCR反应模板的最佳条件为40 Hz机械破壁1 min、微波700 W高温裂解3 min,采取该法与试剂盒抽提法获得的模板均成功扩增13株不同种属丝状真菌ITS序列,且PCR鉴定结果一致;Chelex-100法获得的模板成功扩增6株丝状真菌ITS序列;机械破壁法获得的模板虽成功扩增9株丝状真菌ITS序列,但扩增效果欠佳。机械破壁联合微波法能够有效获取丝状真菌PCR反应模板,与试剂盒抽提法相比具有操作简便、快速高效的优点,提高丝状真菌PCR鉴定效率。     

应用RAPD技术鉴定地霉的实验研究

目的探讨RAPD技术在快速鉴定地霉中应用。方法用E.Z.N.A.yeastDNAkit提取地霉菌基因组DNA,采用随机引物AP3(5'-TCGTAGCCAA-3')、ATG(5'-ATGGATCGGC-3')、RP2(5'-AAGGATCAGA-3')、OPA-10(5'-GTGATCGCAG-3')对临床上致病性白地霉、林生地霉皮损株和血液株的基因组DNA进行扩增,对各病原菌的DNA指纹的特征进行分析。结果成功提取了地霉的基因组DNA,其纯度和浓度均能满足PCR反应的要求。利用4种引物对基因组DNA进行扩增,不同种真菌的DNA显示不同的DNA带型,分离自不同感染部位的同种不同株真菌的DNA显示的主要DNA带型基本一致。结论采用E.Z.N.A.yeastDNAkit提取的地霉基因组DNA可以用于PCR反应。RAPD法鉴定地霉菌简单、快速、特异,可用于临床诊断。     

红色毛癣菌菌株的特异性PCR鉴定方法研究

目的建立一种快速的红色毛癣菌分子生物学鉴定方法。方法根据红色毛癣菌保守区域-真菌核糖体DNA（rDNA）的转录间隔区（ITS）设计特异性引物,采用上游：ITS19865＇GAC ACC AAG AAA AAA TTC TCT GAA GA3＇,下游：ITS24415＇GTC CTG AGG GCG CTG AA3＇为引物对45株红色毛癣菌、5株须癣毛癣菌和1株紫色毛癣菌菌株的DNA进行PCR扩增,观察产物电泳带型的差异。结果 45株红色毛癣菌均能扩增出目的片段,5株须癣毛癣菌和1株紫色毛癣菌均无目的片段扩增出。结论红色毛癣菌可用特异引物PCR方法快速鉴定。     

小鼠胚胎胃肠道细菌基因组DNA提取方法比较

目的:筛选能均衡地提取小鼠胚胎胃肠道微生物区系各种细菌总DNA的方法.方法:分别采用反复冻融法、CTAB -SDS法、柱式基因组DNA提取试剂盒法提取小鼠胚胎胃肠道细菌基因组DNA,对其进行琼脂糖凝胶电泳、紫外分光光度计测定、PCR扩增等质量检测.结果:CTAB -SDS方法提取的基因组DNA纯度较高,OD260/OD280平均值最高,为1.845,电泳条带清晰,能满足下游的PCR扩增等分子操作.结论:确定CTAB -SDS方法为提取小鼠胚胎胃肠道细菌基因组DNA的最佳方法,为研究不同种动物胚胎的肠道菌群的结构和多样性奠定了基础.     

PCR法在小鼠早期念珠菌病诊断中的应用研究

目的探讨PCR法对早期念珠菌病的诊断价值。方法采用Biospin真菌基因组DNA提取试剂盒提取感染小鼠全血白色念珠菌DNA,并与血培养和脾脏、肾脏组织病理检查结果比较。结果白色念珠菌标准菌株和两株临床分离菌株经PCR测定后,均可扩增到分子量大小约为500bp的特异性条带。在小鼠早期念珠菌病的感染中,运用PCR法较血培养和组织病理检查敏感性高。结论PCR法是一种快速、灵敏且特异性高的检查手段,为临床早期检测真菌病提供实验依据。     

Simple and efficient genomic DNA extraction protocol for molecular characterisation of Phytophthora colocasiae causing taro leaf blight

Genomic DNA extraction protocol with relatively high quantity and purity is prerequisite for the successful molecular identification and characterisation of plant pathogens. Conventional DNA extraction methods are often time-consuming and yield only very poor quantity of genomic DNA for samples with higher mycelial age. In our laboratory, we have aimed at establishing an efficient DNA isolation procedure, exclusively for the oomycete pathogen Phytophthora colocasiae causing serious leaf blight disease in taro. For this a phenol free protocol was adopted, which involves SDS/Proteinase K-based inactivation of protein contaminants, extraction of nucleic acids using chloroform: isoamyl alcohol and later precipitation of genomic DNA using isopropanol and sodium acetate. The purity of the isolated DNA was analysed by A_260/280 and A_260/230 spectrophotometric readings and confirmed by restriction digestion with restriction enzyme Eco RI. In this study, a comparative assessment was done with CTAB method and the commercial genomic DNA purification kit (Thermo Fisher Scientific, Fermentas, EU). The extracted DNA was found to be suitable for further downstream applications like ITS amplification of the rDNA ITS region and PCR amplification with species-specific primers.     

煮沸裂解法和试剂盒法提取浸矿菌基因组DNA的比较

目的:在生物浸出中,微生物群落结构分析有着重要意义,而群落分析的基础是提取纯度高、损失少的基因组DNA。为了解决这一问题,本实验通过比较两种较常用的DNA提取方法,煮沸裂解法和试剂盒法,寻找一种灵敏、快速、经济实用的制备浸矿细菌基因组DNA的方法。方法:分别用煮沸裂解法和试剂盒法提取6种浸矿菌的基因组DNA,从所提取的基因组DNA浓度、纯度、回收率和对PCR扩增反应的影响方面比较了两种方法的提取效果;用两种方法来处理不同浓度梯度的一种菌,通过实时定量PCR来比较两种方法的灵敏性。结果:相同处理量(108个)的革兰氏阳性菌(1株)、革兰氏阴性菌(4株)、古菌(1株)经两种方法提取的基因组DNA差异较大,煮沸裂解法所得的6组基因组DNA更纯,其OD260/OD280的值更接近1.8-2.0(纯DNA的OD260/OD280在1.8-2.0之间),前者所提DNA回收率最大可达后者的16.7倍;煮沸裂解法只需较少菌(102个)便能让实时定量PCR检测到所提DNA模板浓度,比试剂盒法灵敏。结论:两种方法提取的基因组DNA均可用于后续的PCR扩增,此外,前者提取的DNA浓度随细菌浓度增加而呈线性增大,而后者随菌浓度增大,所提DNA量增加有限,因此,在生物浸出中微生物基因组DNA的提取可直接采用简单快速的煮沸提取法,为实验节约成本和时间。     

A rapid and inexpensive method for isolation of total DNA from Trichoderma spp (Hypocreaceae)

Extraction of high-quality genomic DNA for PCR amplification from filamentous fungi is difficult because of the complex cell wall and the high concentrations of polysaccharides and other secondary metabolites that bind to or co-precipitate with nucleic acids. We developed a modified sodium dodecyl sulfate/phenol protocol, without maceration in liquid nitrogen and without a final ethanol precipitation step. The A(260/280) absorbance ratios of isolated DNA were approximately 1.7-1.9, demonstrating that the DNA fraction is pure and can be used for analysis. Additionally, the A(260/230) values were higher than 1.6, demonstrating negligible contamination by polysaccharides. The DNA isolated by this protocol is of sufficient quality for molecular applications; this technique could be applied to other organisms that have similar substances that hinder DNA extraction. The main advantages of the method are that the mycelium is directly recovered from culture medium and it does not require the use of expensive and specialized equipment.     

Identification of Clinically Relevant Fungi and Prototheca Species by rRNA Gene Sequencing and Multilocus PCR Coupled with Electrospray Ionization Mass Spectrometry

Background

Multilocus PCR coupled with electrospray ionization mass spectrometry (PCR/ESI-MS) is a new strategy for pathogen identification, but information about its application in fungal identification remains sparse.

Methods

One-hundred and twelve strains and isolates of clinically important fungi and Prototheca species were subjected to both rRNA gene sequencing and PCR/ESI-MS. Three regions of the rRNA gene were used as targets for sequencing: the 5′ end of the large subunit rRNA gene (D1/D2 region), and the internal transcribed spacers 1 and 2 (ITS1 and ITS2 regions). Microbial identification (Micro ID), acquired by combining results of phenotypic methods and rRNA gene sequencing, was used to evaluate the results of PCR/ESI-MS.

Results

For identification of yeasts and filamentous fungi, combined sequencing of the three regions had the best performance (species-level identification rate of 93.8% and 81.8% respectively). The highest species-level identification rate was achieved by sequencing of D1/D2 for yeasts (92.2%) and ITS2 for filamentous fungi (75.8%). The two Prototheca species could be identified to species level by D1/D2 sequencing but not by ITS1 or ITS2. For the 102 strains and isolates within the coverage of PCR/ESI-MS identification, 87.3% (89/102) achieved species-level identification, 100% (89/89) of which were concordant to Micro ID on species/complex level. The species-level identification rates for yeasts and filamentous fungi were 93.9% (62/66) and 75% (27/36) respectively.

Conclusions

rRNA gene sequencing provides accurate identification information, with the best results obtained by a combination of ITS1, ITS2 and D1/D2 sequencing. Our preliminary data indicated that PCR/ESI-MS method also provides a rapid and accurate identification for many clinical relevant fungi.     

SDSC-TAB和高盐沉淀法提取香蕉枯萎病菌基因组DNA的比较

以香蕉枯萎病菌菌株为试验材料,采用SDS- CTAB法和高盐沉淀法提纯香蕉枯萎病菌基因组DNA。结果表明:高盐沉淀法是适合于香蕉枯萎病菌基因组DNA提取的方法。该方法提取的DNAOD2 60 2 80值显示产物纯度较高;经琼脂糖凝胶电泳得到一条带型较宽且清晰的DNA谱带,DNA浓度较高,基本无DNA碎带;不用RNase处理,已无RNA的干扰,无需任何纯化处理即可用于PCR扩增和RAPD分析。同时对DNA提取过程中的细节问题进行了探讨与分析。     

木本植物基因组DNA提取及鉴定

采用改良后的CTAB法,对山葡萄、软枣猕猴桃、蒙古栎、核桃楸、西伯利亚红松和偃松基因组DNA进行提取。结果表明,所提基因组DNA分子量与λDNA（48 kb）接近,其紫外吸收比在1.66～1.89之间。第3次和第4次上清提取的DNA质量优于第1次和第2次。从提取产量看,每克鲜重提取DNA量最小为15 μg·g^-1（核桃楸第4次上清）,最高的为272 μg·g^-1（山葡萄第3次上清）。西伯利亚红松和偃松第1次和第2次上清基本未提出DNA,第3次和第4次上清中得到了较高质量的DNA。经酶切鉴定和PCR扩增,所提的基因组DNA可以用于进一步研究。     

A rapid and simple method for DNA extraction from yeasts and fungi isolated from Agave fourcroydes

A simple and easy protocol for extracting high-quality DNA from different yeast and filamentous fungal species is described. This method involves two important steps: first, the disruption of cell walls by mechanical means and freezing; and second, the extraction, isolation, and precipitation of genomic DNA. The absorbance ratios (A₂₆₀/A₂₈₀) obtained ranged from 1.6 to 2.0. The main objective of this procedure is to extract pure DNA from yeast and filamentous fungi, including those with high contents of proteins, polysaccharides, and other complex compounds in their cell walls. The yield and quality of the DNAs obtained were suitable for micro/minisatellite primer-polymerase chain reaction (MSP-PCR) fingerprinting as well as for the sequence of the D1/D2 domain of the 26S rDNA.     

一种快速提取基因组DNA的方法

采采用氧化硅超顺磁性纳米磁珠和自己设计的试剂体系及提取流程,建立了一种基因组DNA的快速提取方法,该方法以氧化硅磁珠为固相吸附载体,盐酸胍、 -巯基乙醇和SDS为主要裂解吸附试剂。以全血或培养细胞为实验材料进行基因组DNA的提取结果显示用本文建立的方法提取100 L小鼠抗凝血,可得2～3 g基因组DNA, OD260/OD280为1.8 ± 0.05,其纯度可满足后续的酶切和PCR生物操作要求。该方法整个提取过程只需12分钟,不需特殊实验条件同时可省略蛋白酶K的消化过程和离心操作,适用于一般实验室的需求,是一种操作简便、快速高效的提取方法。