几种水稻田土壤微生物总DNA提取方法的比较

目的:使人们在提取土壤总DNA时,可以根据不同的要求选用不同的方法。方法:选用了5种现在较常用的土壤微生物总DNA提取方法从水稻田土壤中提取总DNA,并对5种方法提取的DNA的质量和数量进行比较评价。结果:5种方法都可以从土壤中提取到长度大于48 kb的DNA片段,但不同方法提取的DNA的产量存在明显差异。土壤总DNA都不需要纯化就可以用于PCR扩增,使用细菌16S rDNA基因的引物可以扩增得到相应的片段。结论:Bourrain法和M artin-Laurent法可以较快地提取出DNA,M artin-Laurent法提取的DNA的量最多,Tied je法和Jans-sen法提取的DNA片段最大,Janssen法提取的DNA纯度最高,Reddy法提取的DNA的完整性和PCR扩增效果最好。

山核桃基因组DNA提取及RAPD引物筛选

分别用SDS法、CTAB法、简易CTAB法及高盐低pH法提取山核桃干叶的基因组DNA并进行了检测比较。结果显示,SDS法更适合于山核桃基因组DNA的提取;对 600条 10碱基的随机引物进行了初筛和复筛,结果筛选出了 20条扩增多态性强、稳定性好的引物,作为全部基因组的扩增引物。

提取植物和微生物DNA的SDS-CTAB改进法

该文介绍了一种简便快速地提取植物和微生物细胞总ＤＮＡ的方法，该法是对提取真菌ＤＮＡ的ＳＤＳＣＴＡＢ法进行改进而成，经过修改后的ＳＤＳＣＴＡＢ法可在数小时内高效地提取细胞总ＤＮＡ．制备物经琼脂糖凝胶电泳检测到大于２０ｋｂ的ＤＮＡ主带，基本无ＤＮＡ碎带；不用ＲＮａｓｅ处理，就已经无ＲＮＡ的干扰．ＯＤ２６０／２８０值显示产物纯度较高。

利用多重PCR和快提DNA结合快速鉴定甜瓜杂种纯度

纯度是决定种子质量的重要指标之一。以众天10号和其父母本为研究材料,将快提DNA法与多重PCR法相结合,成功建立一套三重PCR甜瓜杂种纯度快速鉴定体系。采用碱裂解快速提取DNA的方法,可以在5 min内提取96个DNA;采用三重PCR,能有效克服单一PCR在种子纯度鉴定中速率慢的缺陷。试验中SSR分子鉴定众天10号杂交种纯度为100%,与田间鉴定结果一致。为甜瓜乃至作物杂种种子的纯度鉴定提供了一套精度更高、速度更快、成本更低的技术体系。

几种DNA粗提取与鉴定的最佳试验材料

[目的]对DNA粗提取与鉴定试验的材料和试验条件进行探索,为该试验在中学生物教学中得到普及推广提供帮助。[方法]以鲜茼蒿叶、鲜芍药叶、鲜芹菜叶、鲜枣树叶、干枣树叶、鲜龙爪槐叶、鲜月季叶等多种常见植物叶片为材料,进行DNA的粗提取与鉴定试验。[结果]在所选择的试验材料中,以鲜龙爪槐叶、鲜月季叶效果最佳;鲜芹菜叶、鲜枣树叶、干枣树叶次之;鲜茼蒿叶、鲜芍药叶亦可以。[结论]该研究提供了几种DNA粗提取与鉴定的最佳试验材料,为该试验简便高效的进行提供了帮助。

A Method Suitable for Extracting Genomic DNA from Animal and Plant——Modified CTAB Method

[Objective] The study aimed to introduce a rapid and effective method that is suitable for extracting genomic DNA from animal and plant. [ Method ] The genomic DNAs were extracted from tender leaves of 24 peanut cuhivars and from the liver, lung and kidney of white mouse through the specifically modified CTAB method. The DNAs were run on agarose gel, next detected by DNA/Protein analyzer. Finally PCR amplification was conducted to detect the quality of DNAs extracted using the modified CTAB method. [ Result] The clear and orderly bands were observed in gel detection, and the values of OD200/OD200 for DNAs extracted via modified CTAB method were between 1.77 - 1.83. The DNAs performed well in PCR amplification. [ Conclusion] The DNAs extracted by modified CTAB method could satisfy the requirement of PCR amplification.

Modified CTAB Method for Extracting Genomic DNA from Wheat Leaf

ObjectiveThe aim was to seek for a rapid DNA minipreparation method from wheat leaf. MethodThe total DNA of wheat leaf was extracted using CTAB, SDS and boiling water, separately, with some modifications. Integrity and purity of nucleic acids were detected through agarose gel electrophoresis, ultraviolet absorption and PCR. ResultThe DNA extracted by the modified CTAB method had high quality and purity, and was not degraded. Two hundreds of DNA samples could be extracted each workday by per capita using this method; and the PCR detection of wheat transgenic plants showed that amplified bands of target gene were clear, without false-positive, and the test results were satisfactory. The DNA purity and concentration extracted by modified SDS method were not as good as that extracted by modified CTAB method, but it also met the DNA requirements of major molecular research. The DNA quantity extracted by modified boiling method was small and there were a lot of impurities in it, PCR detection of this DNA showed no amplified band. ConclusionModified CTAB method is a simple and rapid method for DNA minipreparation from wheat leaf, and was suitable for PCR amplification and other molecular biology researches.

A Simple and Quick Method of Extracting Genomic DNA from Wheat Leaves

[ Objective] The aim was to seek a simple and quick method of extracting genomic DNA from wheat leaves. [ Method] Taking tender leaves of wheat as test materials, total DNA of transgenic wheat was extracted by using modified CTAB method. The extracted DNA was detected by 0.8% agarose gel electrophoresis. [ Result] DNA purity of extracted genome DNA from wheat was high and no degradation phenomenon using modified CTAB method, and was suitable for carrying out normal PCR amplification. [ Conclusion] This study provides a simple and quick method for extracting DNA from wheat with a spot of material.

Comparison of Genomic DNA Extraction Methods for Chenopodium quinoa Willd

To rapidly obtain high-quality genomic DNA from Chenopodium quinoa Willd, the genomic DAN in different tissues （leaves, stems and roots） of Chenopodi- um quinoa Willd was extracted by modified CTAB method, SDS method and high- salt Iow-pH method, respectively. The quality and yield of extracted DNA was deter- mined using agarose gel electrophoresis and UV spectrophotometry. At the same time, the PCR-SSR and SSCP molecular detection was also performed. The results showed that the gel test strips, without obvious decomposition, of all the extraction methods were relatively obvious; the genomic DNA yield extracted by modified CTAB method was highest, followed by that by SDS method, and the genomic DNA extracted by high-salt Iow-pH method was lowest： the genomic DNA yields extracted by different methods from Chenopodium quinoa Wiltd leaves were all high- er than those from roots and stems; the quality of Chenopodium quinoa Willd ge- nomic DNA extracted by modified CTAB method and high-salt Iow-pH method was better, and polyphenols, polysaccharides and other impurities were removed more completely. The PCR-SSR and SSCP detection results showed that the genomic DNA extracted by different methods from different tissues of Chenopodium quinoa Willd all could be better amplified, and high-quality strips could be obtained. So the Chenopodium quinoa Willd genomic DNA extracted by the three methods all can be used for subsequent molecular biology research.

An Improved Method of Extracting Artemisia abrotanum Genomic DNA

[ Objective ] The objective of this study is to explore a rapid and efficient method of extracting genomic DNA from Artemisia abrotanum. [ Method] Three methods of Cutting Method, Liquid Nitrogen Method and Quartz Sand Method based on SDS method were employed to extract Artemisia abrotanum genomlc DNA from tender leaf at seedling stage, tender spike and old leaf at heading stage. The obtained DNAs were detected by absorbance detection, agarose gel and PCR amplification. [ Result ] Cutting Method performed better than the other two methods compared in purity, extracting cycle and cost, accordingly more suitable for PCR amplification. The results also show that young spike is the best material for extracting genomic DNA from Artemisia Annua.

Comparison on Four Extraction Methods of Genomic DNA from Clematis fasciculiflora Franch

[Objective] This study aimed at comparing the four extraction methods of genomic DNA from Clematis fasciculiflora Franch and determining the optimal extraction method for extracting the genomic DNA from Clematis fasciculiflora Franch.[Method] Leavies of Clematis fasciculiflora Franch were used as materials for comparing the purity and concentration of extracted DNA and extracting time among the four extraction methods of genomic DNA including improved CTAB method Ⅰ,improved CTAB method Ⅱ,improved CTAB method Ⅲ and improved SDS method.[Result] The four extraction methods could all be successfully used for extracting the genomic DNA from Clematis fasciculiflora Franch.The purity of genomic DNA was the highest using improved CTAB method Ⅰ,with the longest extracting time;while the concentration of genomic DNA was the maximum using the improved SDS method,with the shortest extracting time and relatively low purity;the extracting time of improved CTAB method Ⅲ was the shortest.[Conclusion] This study had established the optimal extraction method for extracting the genomic DNA from Clematis fasciculiflora Franch and supported for the further research using molecular biological methods.

Genetic Polymorphism in GDF8 Region of HU Sheep Based on Microsatellite DNA

[ Objective ] This study was to analyze the genetic polymorphism in GDF8 Region of HU sheep. [Method] Four microsatellite loci including BMS1591, TEXAN-2, FCB128 and BM81124 mapped on GDF8 region of chromosome No. 2 of sheep that may be correlated with growth performance were chosen to detect the molecular genetics foundation of growth performance of Hu sheep. [ Result] Four microsatellite loci detected were high in heterozygosity, more in effective alleles number and rich in polymorphic information, all the three indices passed through the high polymorphic level （PIC 〉0.5）. [ Conclusion ] The four microsatellite loci detected could be used to estimate the genetic polymorphism of growth performance of Hu sheep.

Genomic DNA Isolation by Phenol/Chloroform Extracting Method from Sheep Blood Clot

[ Objective] The aim was to establish the method of extracting genomic DNA from sheep blood clot on the basis of the improvement of method for extracting genomic DNA from tissues. [Method]The genomic DNA with complete primary structure and high purity was obtained from the sheep blood clot after the steps of cutting the sheep blood clot with ophthalmic scissors, cell lysis with tissue DNA extracts and digested by proteinase K, extracting with phenol/chloroform and precipitating with ethanol were performed. [ Result] The concentration of the extracted DNA was 159.90 ±0.70 ng/μl and the ratio of the A260/A280 was 1.80 ＋0.01. The sheep microsatellite locus of BM203 was amplified by using the extracted DNA from the sheep blood clot as template of PCR, and the PCR result was perfect. [Conclusion]This method is simple and feasible, the quantity and quality of the extracted DNA can satisfy the demands for the subsequent researches. It is worth to extending and using for reference.

A Rapid DNA Extraction Method for PCR Detection of Arabidopsis thaliana

[Objective] The aim was to introduce a rapid DNA extraction method for PCR detection of Arabidopsis thaliana.[Method] Through the improvement of conventional DNA extraction method,a rapid Arabidopsis thaliana DNA extraction method was obtained.With randomly selected Arabidopsis thaliana transgenic strains and mutants as samples,the method was verified.[Result] After electrophoresis,UV absorption detection,it was found that DNA samples are complete and less pollution,and the result of PCR amplification objective fragment was good which proved DNA is suitable as a template for PCR reaction.After PCR detection,positive plants gene amplified bands were clear,without false-positive,and the test results were satisfactory.[Conclusion] The method is suitable for rapid extraction of Arabidopsis thaliana DNA and PCR detection.

Comparison on Methods.for Extracting DNA from Pteridophyta

[ Objective] The aim was to study method for extracting DNA from pteridophyta and provide basis for further study on genetic diversity and taxonomy. [ Method] By changing the dosage of reagent and operating method, CTAB method for extracting DNA was improved. [ Result] The results showed that the improved CTAB method could extract high-quality DNA from pteridophyta. [ Conclusion] The study improved method for extracting DNA from pteridophyta.

Extraction of Total DNA from Populus euphratica Oliv. and Populus pruinosa Schrenk. by Improved CTAB Method

This study presented an improved CTAB method for extracting DNA from leaves of Populus euphratica Oliv. and Populus pruinosa Schrenk. based on the conventional CTAB method. The results showed that preventing DNA from browning is a key step to obtain the high-quality DNA during DNA extraction, and under the condition of grinding in the presence of liquid nitrogen, adding such three antioxidants as PVP dry powder, Vc and β-mercaptoethanol could prevent DNA from browning effectively. The total DNA extracted by the improved CTAB method was subjected to PCR detection which proved that it totally satisfied the requirements of subsequent study.

Comparison on Several Methods for Extracting DNA from Raccoon Dog Hair Follicle

[Objective] This study aimed to investigate a reliable method for DNA ex- traction from Wusuli raccoon dog＇s hair. [Method] Several DNA extraction methods were used to extract DNA from Wusuli raccoon dog hair, including Chelex-100 method, PCR buffer method, organic phenol-chloroform method and centrifugal col- umn type kit method. The extracted DNA was analyzed by using PCR amplification and electrophoresis to compare these four DNA extraction methods. [Result] Accord- ing to the results of spectrophotometer detection and gel electrophoresis, nucleic acid extracted by Chetex-100 method had proteins and other impurities; nucleic acid ex- tracted by PCR buffer method was low in concentration; however, DNA extracted by organic phenol-chloroform method and centrifugal column type kit was high in con- centration with no impurity band. [Conclusion] This study had laid the strong founda- tion of scientific theory to further explore the efficient and simple method for extracting DNA from Wusuli raccoon dog hair follicle.

Rapid DNA Extraction Method from Amorphophallas.konjac and ISSR-PCR Amplification

[Objective]The research aimed to study the total DNA extraction methods of Amorphophallas.konjac.[Method]To investigate the optimum DNA extraction method,CTAB,SDS and new modified methods for isolating genomic DNA from Amorphophallas.konjac leaf were studied and the isolated DNAs were examined by ultraviolet absorption test,agarose gel electrophoresis and ISSR-PCR test for comparative analysis.[Result]The results showed that the new modified method was suitable for DNA isolation from Amorphophallas.konjac plants with high purity and yield;quality of DNA could meet ISSR-PCR requirement even extracted once by the new modified method.[Conclusion]The study provided basis for extracting high quality DNA sample,and offered the molecular genetics reference for exploring the genetic diversity of Amorphophallas.konjac.

A Rapid Metagenomic DNA Extraction from Sediments: Potassium Dichromate SDS Method

[Objective] The objective of this study was to report an improved method for rapid DNA extraction from black-order sediments, without any purification step. [Methods] Sediments in eutrophic lake are complex ecosystems and soil microbes involved in anthropogenic nutrient cycling are very important. DNA-based molecular methods offer new tools for characterization of these mixed communities of mi- croorganisms. However, it is very difficult to remove humic substances, heavy met- als that co-existed with genome DNA representing the microbial community directly from these complex systems and can interfere with subsequent genetic analysis. The potassium dichromate solution was firstly used to remove humic substances. [Results] The steps of removing humic substances and DNA extraction were per- formed simultaneously that improved the speed of extraction to approximately 1 hour and the nucleic acids that were obtained with this method did not need to be washed with 70% ethanol and dissolved directly in sterile water for total bacterial 16S rDNA, nosZ gene of denitrifying bacteria, pmoA of methanotrophs, nifH of nitro- gen-fixing bacteria, amoA of ammonia-oxidizing bacteria and ammonia-oxidizing ar- chaea molecular ecology analyses. [Conclusion] This method could provide a plat- form for preparing a fast sediments DNA extraction.

Comparative Study on Four Methods for Quick Extraction of Sorghum Genomic DNA

[Objective] This study was to find out a quick,simple,and low-cost method for the extraction of sorghum genomic DNA.[Method] Four plant genomic DNA extraction methods based on CTAB,including liquid nitrogen grinding method（method I）,buffer grinding method（method II）,drying grinding method（method III）and directly grinding method（method IV）,were used to extract the sorghum genomic DNA from leaves;further the quantity and quality of the yielded DNA were detected by gel electrophoresis,SSR-PCR and SRAP-PCR.[Result] These four methods performed no remarkable difference in DNA product.The method I and method II produced DNA with higher purity and better integrity,which,especially from method I,is effective for SRAP-PCR and SSR-PCR.While the DNA extracted via method III and method IV had less integrality and lower purity,and only effective in SSR-PCR.[Conclusion] Enough amount of sorghum genomic DNA to perform tens of PCR could be quickly extracted using all these four methods.The DNA obtained via method I and method II had a broader application spectrum（SRAP,RAPD,ISSR and SSR）than that via method III and method IV which is only proper for PCR targeting small DNA fragments（SSR）.