磁珠法快速提取基因组DNA的实验研究

针对临床标本基因组DNA的提取方法缺乏广泛适用性,提取步骤繁琐,需要进行离心操作,并且提取过程中会用到苯酚、氯仿等有机试剂,会对操作人员有一定的危害性等不足,本研究拟建立一种适用于临床标本的基因组DNA快速提取方法。在传统的基因组DNA提取试剂和方法的基础上,本研究采用二氧化硅修饰的超顺磁珠设计了一种基因组DNA快速提取方法;探讨磁珠用量、裂解液p H、盐酸胍浓度等因素对基因组DNA提取效率的影响并采用凝胶电泳实验进行验证。当磁珠用量在50~100μg/100 mg样品,裂解液p H约为6,盐酸胍的浓度为6 mol/L时基因组DNA提取效果好、效率高,且磁珠的用量与吸附表面积成正比,但达到一定用量后不会增加提取量,对于100 mg肺组织,适宜的磁珠用量为80μg。此基因组DNA提取方法高效省时,简便快捷,性价比高,适用临床大量样本基因组DNA提取。     

利用改良CTAB法快速小量提取微胚乳玉米基因组DNA

为了能快速小量提取微胚乳玉米基因组DNA,以微胚乳玉米幼叶为试材,采用改良CTAB法和传统CTAB法提取微胚乳玉米基因组DNA,并对所提取的DNA通过紫外分光光度计、琼脂糖凝胶电泳和PCR扩增等方法进行检测。两种方法所得基因组DNA的OD260/OD280在1.8~1.9之间,电泳条带清晰,无蛋白质和RNA污染,DNA无明显降解,其浓度和纯度都适合基因工程实验操作的条件。改良CTAB法与传统CTAB法相比更简便快捷,可实现大批量的不同样本基因组DNA的同时提取,提供了一种简便、快捷、有效和实用的微量提取微胚乳玉米基因组DNA方法,可满足以PCR为基础的分子生物学研究。     

一种简单、有效的适于PCR操作的放线菌DNA提取方法

目的:利用改良酶法发展了一种从微量(几百微升)发酵液中快速安全的提取放线菌基因组DNA的方法。方法:利用溶菌酶破壁,蛋白酶K和SDS除蛋白,成功提取较高质量的放线菌基因组DNA,所得的DNA可作为PCR反应的模板进行16SrRNA等基因有效扩增。结果:能从海绵和土壤分离的放线菌中成功提取基因组DNA。结论:该方法操作简单、费用低廉、不使用酚、氯仿等有毒害作用有机试剂,非常适于长期从事放线菌操作的研究人员。为大量放线菌菌株的快速鉴别、高通量筛选和系统分类研究创造了条件。     

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。     

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。     

一种适于PCR反应的快速提取食用菌基因组DNA的方法

目的:建立一种以食用菌菌丝体和子实体为原材料的快速提取其基因组DNA的方法,从而提高基因组DNA的提取效率,为食用菌分子生物学提供便利.方法:分别以平菇黑平王的菌丝体和子实体为材料,快速提取其基因组DNA,并以此为模板进行ITS序列扩增.结果:采用方法提取的基因组DNA结构完整,无明显拖尾现象,浓度大约为10ng/μl,以此为模板能够获得预期的ITS条带.结论:该方法具有简便、快速、经济、无污染等优点,提取的基因组DNA适用于PCR反应等分子生物学研究,提高了提取效率,可作为高通量的提取方法.     

一种简单有效的去除植物DNA中多糖等杂质的方法

目的：寻找一种经济、快速、简便的去除多糖等杂质并获得高质量DNA的、适于不同植物而又便于一般实验室操作的基因组DNA提取方法。方法：使用1mol/LNaCl溶液溶解常规方法提取的DNA,离心后弃沉淀,从而使多糖等杂质去除。结果：提取DNA纯化之后经电泳检测以及OD260nm和OD280nm比值的测定,限制性内切酶反应,PCR扩增的结果表明,基因组DNA条带清晰,亮度均一,DNA片段大小一致,无降解弥散,用改进方法提取的DNA,无论在纯度上还是在完整性上都比用常规方法要好。结论：该方法能较好的去除DNA中色素、多糖等干扰物质。     

木棉基因组DNA提取方法的比较研究

木棉组织细胞含有多酚类、糖类、萜类化合物和其他次生代谢物质,很难得到高质量的基因组DNA。为了获得高质量的木棉基因组DNA,本实验以两个不同地方采集的木棉成熟叶片为材料,采用CTAB法、SDS法、普通试剂盒、磁珠法试剂盒以及对以上4种方法进行改良后的4种方法,提取总的木棉DNA。通过微量紫外-分光光度计、琼脂糖电泳对所提取DNA的纯度、得率,毒害及耗时等方面进行了比较。结果表明:经改良后提取的DNA质量都有所提高,且改良的磁珠法试剂盒效果最佳,可直接用于下游分子生物学实验。     

一种自制DNA提取剂在微量细胞和单个囊胚上的应用

目前微量DNA的提取方法,不仅操作繁琐耗时,而且所需试剂价格昂贵。为了解决这个问题,本研究旨在开发一种快速、经济的微量DNA提取剂。用自制提取剂快速提取50个、100个、500个、5 000个、50 000个猪胎儿成纤维细胞的基因组DNA。经PCR扩增,电泳结果显示:自制提取剂可有效提取数量低至50个的猪胎儿成纤维细胞。分别采用自制提取剂、酚氯仿以及试剂盒3种方法提取猪单个囊胚基因组DNA,结果显示:酚氯仿方法提取的单个囊胚基因组DNA,经PCR扩增后,并没有检测到目的条带;而自制提取剂提取模板DNA,能直接扩增出清晰的目的条带,与试剂盒扩增效果相当。自制提取剂能够快速、有效地提取少量细胞和单个囊胚的基因组DNA,满足下游分子生物学研究需要,因此,本研究为微量样本基因组DNA提取提供帮助。     

木棉基因组DNA提取方法的比较研究

木棉组织细胞含有多酚类、糖类、萜类化合物和其他次生代谢物质,很难得到高质量的基因组DNA。为了获得高质量的木棉基因组DNA,本实验以两个不同地方采集的木棉成熟叶片为材料,采用CTAB法、SDS法、普通试剂盒、磁珠法试剂盒以及对以上4种方法进行改良后的4种方法,提取总的木棉DNA。通过微量紫外-分光光度计、琼脂糖电泳对所提取DNA的纯度、得率,毒害及耗时等方面进行了比较。结果表明:经改良后提取的DNA质量都有所提高,且改良的磁珠法试剂盒效果最佳,可直接用于下游分子生物学实验。     

一种快速、经济提取外周凝血基因组DNA方法的建立

目的：建立一种经济、快速且高质量提取人体外周凝血DNA的方法。方法：摸索最佳的匀浆条件,对外周凝血块进行匀浆,采用Ⅺ法对匀浆液进行基因组DNA的提取,通过凝胶电泳、单重PCR和多重PCR检测凝血基因组DNA的提取产量和质量。并分别与常规的凝血基因组DNA提取方法,即蛋白酶K消化法,以及提取抗凝血基因组DNA的Ⅺ法进行比较分析。结果：最佳的匀浆条件为：39000map,15秒。在此条件下提取的基因组DNA完整性好,纯度和产量与蛋白酶K消化法提取凝血DNA和KI法提取抗凝血DNA的结果相比,没有统计学差异。单重PCR和多重PCR也获得了理想的扩增结果。结论：与常规的外周凝血提取方法相比（蛋白酶K消化法）,本方法节省了时间和成本,能快速、经济、有效地提取外周凝血基因组DNA,可用于后续的科研和临床诊断需要,解决了部分科研机构血液基因组DNA的样本来源问题。     

Rapid and simple methodology for isolation of high quality genomic DNA from coniferous tissues (<Emphasis Type="Italic">Taxus baccata</Emphasis>)

Various investigations have been so far performed for extraction of genomic DNA from plant tissues, in which the extracted intact DNA can be exploited for a diverse range of biological studies. Extraction of high quality DNA from leathery plant tissues (e.g., coniferous organs) appears to be a critical stage. Moreover, for some species such as Taxus trees, bioprocess engineering and biosynthesis of secondary metabolites (e.g., paclitaxel) is a crucial step due to the restrictions associated with extinction of these species. However, extraction of intact genomic DNA from these plants still demands a rapid, easy and efficient protocol. To pursue such aim, in the current work, we report on the development of a simple and highly efficient method for the extraction of DNA from Taxus baccata. Based upon our protocol, interfering phenolic compounds were removed from extraction using polyvinylpyrrolidone and RNA contamination was resolved using LiCl. By employing this method, high quality genomic DNA was successfully extracted from leaves of T. baccata. The quality of extracted DNA was validated by various techniques such as RAPD marker, restriction digestions and pre-AFLP. Upon our findings, we propose this simple method to be considered for extraction of DNA from leathery plant tissues.     

Purification of human genomic DNA from whole blood using sodium perchlorate in place of phenol

We have developed a new, rapid method for the extraction of human genomic DNA from whole blood samples. Traditionally, genomic DNA has been extracted from blood by overnight proteinase K digestion of lysed peripheral lymphocytes followed by phenol/chloroform extraction. In addition to being time consuming, the use of phenol involves inherent risks due to the toxic nature of the reagent. Our method for the extraction of DNA from whole blood uses sodium perchlorate and chloroform instead of phenol with a significant time savings realized as well as fewer hazards to the technician. Furthermore, DNA prepared by this new method is an excellent substrate for restriction endonuclease digestion and Southern hybridization analysis.     

A rapid PCR-based approach for molecular identification of filamentous fungi

In this study, a novel rapid and efficient DNA extraction method based on alkaline lysis, which can deal with a large number of filamentous fungal isolates in the same batch, was established. The filamentous fungal genomic DNA required only 20 min to prepare and can be directly used as a template for PCR amplification. The amplified internal transcribed spacer regions were easy to identify by analysis. The extracted DNA also can be used to amplify other protein-coding genes for fungal identification. This method can be used for rapid systematic identification of filamentous fungal isolates     

Extremely Rapid Extraction of DNA from Bacteria and Yeasts

A very simple and rapid method for extracting genomic DNA from Gram-negative bacteria, Gram-positive bacteria and yeasts is presented. In this method, bacteria or yeasts are lysed directly by phenol and the supernatant is extracted with chloroform to remove traces of phenol. The supernatant contains DNA that is suitable for molecular analyses, such as PCR, restriction enzyme digestion and genomic library construction. This method is reproducible and simple for the routine DNA extraction from bacteria and yeasts.     

CTAB法提取野野村菌基因组DNA

针对用常规方法难以提取野野村菌基因组DNA的问题,通过选用添加甘氨酸的不同培养基和不同培养时间获得的菌丝体,采用液氮研磨结合CTAB法提取野野村菌DNA,电泳检测及计算OD260/OD280值。结果表明,在添加0.3%甘氨酸的麦芽汁-酵母膏(YE)培养基中振荡培养培养3d的菌丝体适合于DNA提取,用CTAB法获得的基因组DNA,长度约为20kb,且OD260/OD280在1.8左右,达到基因组DNA-DNA杂交的要求。     

大青杨基因组DNA的提纯及鉴定

由于各种林木在组织结构和化学成分上的差异,核酸的提取方法将不尽相同。高质量的DNA是林木分子生物学研究的关键因素。探索一种科学的、合适的DNA提取方法尤为重要。本文对大青杨基因组DNA的提取方法进行了优化。通过电泳检测、紫外分析、限制性内切酶消化和随机引物PCR扩增鉴定所获得的基因组DNA,证明其完全可以满足分子生物学实验的要求。     

A simple method for DNA extraction from marine bacteria that produce extracellular materials

We present a simple method for extracting DNA from the marine bacteria Hahella chejuensis, a Streptomyces sp., and a Cytophaga sp. Previously, DNA purification from these strains was hindered by the presence of extracellular materials. In our extraction method, the marine bacteria are lysed by freezing and grinding in liquid nitrogen, and treated with SDS. The extracted DNA is purified using a phenol/chloroform mixture, and precipitated in isopropanol. The extracted DNA is of high quality and suitable for molecular analyses, such as PCR, restriction enzyme digestion, genomic DNA blot hybridization, and genomic DNA library construction. We used this method to extract genomic DNA from several other marine bacteria. Our method is a reproducible, simple, and rapid technique for routine DNA extractions from marine bacteria. Furthermore, the low cost of this method makes it attractive for large-scale studies.