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1.
聚合酶链式反应(Polymerase chain reaction,PCR)作为一项基本的分子生物学技术,是DNA序列扩增的强有力工具。水稻作为人类最重要的粮食作物之一被广泛研究,然而由于水稻基因组序列的GC含量相对较高,而高GC含量DNA序列的PCR扩增一般比较困难,使得水稻高GC含量序列的功能研究受阻。通过使用不同的添加剂,发现相比于二甲基亚砜和甘油等,甜菜碱对于水稻高GC含量片段的PCR扩增的增强效果最明显。通过对多个高GC含量的水稻DNA片段进行PCR扩增,发现1-2 mol/L甜菜碱对于增强PCR扩增效果显著。此外,甜菜碱对于多种DNA聚合酶作用下的PCR扩增均有增强效果。  相似文献   

2.
聚合酶链式反应(Polymerase chain reaction,PCR)作为一项基本的分子生物学技术,是DNA序列扩增的强有力工具。水稻作为人类最重要的粮食作物之一被广泛研究,然而由于水稻基因组序列的GC含量相对较高,而高GC含量DNA序列的PCR扩增一般比较困难,使得水稻高GC含量序列的功能研究受阻。通过使用不同的添加剂,发现相比于二甲基亚砜和甘油等,甜菜碱对于水稻高GC含量片段的PCR扩增的增强效果最明显。通过对多个高GC含量的水稻DNA片段进行PCR扩增,发现1-2 mol/L甜菜碱对于增强PCR扩增效果显著。此外,甜菜碱对于多种DNA聚合酶作用下的PCR扩增均有增强效果。  相似文献   

3.
聚合酶链式反应 (PCR)作为一项非常成熟的技术可以用于基因组序列的扩增。普通的PCR技术只适合于短片段DNA的扩增 ,一般在 6kb以下。对于 6kb至十几kb甚至几十kb以上的DNA片段的扩增就非常困难。通过添加不同化学物质 ,发现甜菜碱对长片段PCR的扩增有非常有效的增强作用。通过对玉米总DNA以及质粒DNA的扩增 ,发现 1mol L到 25mol L甜菜碱对改进PCR扩增效果明显。通过添加甜菜碱 ,可以从玉米基因组中扩增出 9kb以上的单拷贝片段 ,从质粒中扩增出 16kb以上片段。经过试验 ,发现不同GC含量的引物需要使用不同浓度的甜菜碱。甜菜碱可以减少甚至消除长片段PCR中的非特异性扩增。同时 ,我们发现其它的添加物 ,如DMSO ,甘油 ,甲酰胺对长片段PCR的作用不明显  相似文献   

4.
甜菜碱增强长片段PCR的扩增   总被引:5,自引:0,他引:5  
聚合酶链式反应(PCR)作为一项非常成熟的技术可以用于基因组序列的扩增。普通的PCR技术只适合于短片段DNA的扩增,一般在6kb以下。对于6kb至十几kb甚至几十kb以上的DNA片段的扩增就非常困难。通过添加不同化学物质,发现甜菜碱对长片段PCR的扩增有非常有效的增强作用。通过对玉米总DNA以及质粒DNA的扩增,发现1mol/L到2.5mol/L甜菜碱对改进PCR扩增效果明显。通过添加甜菜碱,可以从玉米基因组中扩增出9kb以上的单拷贝片段,从质粒中扩增出16kb以上片段。经过试验,发现不同GC含量的引物需要使用不同浓度的甜菜碱。甜菜碱可以减少甚至消除长片段PCR中的非特异性扩增。同时,我们发现其它的添加物,如DMSO,甘油,甲酰胺对长片段PCR的作用不明显。  相似文献   

5.
高GC含量DNA模板的PCR扩增   总被引:1,自引:0,他引:1  
目的:探索高GC含量DNA的PCR扩增条件,为扩增达托霉素生物合成基因簇及拼接奠定基础。方法:在PCR扩增体系中,使用高保真的聚合酶及添加不同浓度的DMSO、7-deaza-dGTP等增强剂,并选择合适的PCR循环程序,优化富含GC的DNA的PCR扩增条件。结果:向反应体系中额外添加1%~4%的DMSO可以显著提高富含GC的DNA的PCR扩增产物量,但会降低其特异性;7-deaza-dGTP可以提高扩增产物的特异性及保真度,但产量会有所下降。应用touch down PCR并在体系中添加7-deaza-dGTP能够提高扩增产物的特异性和产率,增加扩增的保真度。结论:应用优化的PCR扩增条件将所有达托霉素生物合成基因簇分段扩增出来,并可扩增出长达6 kb的片段,且序列完全正确,可以进行后续拼接。  相似文献   

6.
以山茶属(Camellia)植物为实验材料,通过在PCR反应液中加入二甲基亚砜(DMSO)来改进ITS区的扩增效果,并对获得的序列进行了相关的比较分析以及系统发育分析。分析结果表明:(1)PCR反应液中添加4%的DMSO能明显提高ITS的扩增效率,并能有效防止ITS假基因的扩增;(2)与功能拷贝相比,ITS假基因序列的ITS1和ITS2区存在多处碱基缺失,GC含量明显偏低,5.8S区二级结构稳定性降低;(3)应用ITS假基因进行种水平的系统发育分析会对其真实的系统关系造成影响,提示进行系统进化研究时应警惕假基因的干扰。  相似文献   

7.
目的融合PCR是一种常用的构建重组片段或重组质粒的手段,但长片段融合PCR的难度较大。文中将探讨长片段融合PCR过程中引物设计及扩增条件对产物的影响。方法以构建烟曲霉rho 1基因回补株为例,采用融合PCR的方法扩增重组片段(长达6.5 kb),在引物设计时引入不同大小的同源区,并设置不同的扩增体系。结果当设计引物的同源区为35 bp,选用具有高扩增效率、高保真性的DNA聚合酶,以及各片段在融合PCR反应体系中的浓度为15 ng/μL时,实现了长达6.5 kb的片段扩增并完成了烟曲霉rho 1回补株的构建。结论在合适的PCR引物设计、片段浓度配比及聚合酶条件下,长片段融合PCR在丝状真菌的基因敲除及回补株的构建中是一种非常有效的工具。  相似文献   

8.
目的:建立快速、特异检测载脂蛋白E(ApoE)基因型的方法.方法:采用碱裂解法抽提漱口水来源的颊粘膜上皮细胞的基因组DNA;优化各种改善高GC含量的的添加剂种类和浓度,包括二甲亚枫、甘油、甲酰胺、甜菜硷等,PCR产物进行HhaI酶切并DNA垂直电泳从而分析个体的ApoE基因型.结果:漱口水来源的基因组DNA能替代外周血DNA进行PCR扩增.甜菜碱、甲酰胺、甘油等对于ApoE4基因的扩增效果并不明显,而5%DMSO能显著提高ApoE4基因的扩增效率,并显著提高PCR扩增的特异性.结论:无创的简单的ApoE4基因分型被建立,极大易化了对ApoE4相关疾病的分子流行病的研究,对于其它基因的基因型研究提供有益的线索.  相似文献   

9.
重叠延伸PCR是基因定点突变的主要方法,但是以该方法制作长基因定点突变时,往往遇到难以获得第二轮PCR产物或容易引入新的非预期突变等问题。此时,可先以重叠延伸PCR扩增含突变位点的部分基因片段,再将其连入适当载体获得重组质粒。若该扩增片段两侧的酶切位点在质粒载体上不单一,则可采用双片段连接法构建完整质粒。以制作视网膜母细胞瘤基因S780E定点突变为例,直接以重叠延伸PCR扩增全长基因时未能得到理想的目标产物。故先扩增含点突变的F3片段,再将其与源自原始质粒的F2片段一起连入含F1片段的质粒载体而构建完整质粒。两个筛选出的重组质粒经序列检测完全符合目标突变序列特征,验证了该方案的可行性。该方法作为重叠延伸PCR的补充,可为许多长基因定点突变提供解决方案。  相似文献   

10.
在PCR-DGGE研究土壤微生物多样性中应用GC发卡结构的效应   总被引:29,自引:1,他引:29  
罗海峰  齐鸿雁  薛凯  王晓谊  王川  张洪勋 《生态学报》2003,23(10):2170-2175
应用普通细胞裂解法提取 3株实验菌株 (Escherichia coli DH5α,Staphylococcus aureus SA- 1和 A-grobacterium tumerfaciens 1 31 2 9)的基因组 DNA和应用基于高盐和长时高热的细胞裂解法提取 7种不同土壤样品中的微生物的基因组 DNA,两组不同结构的引物 F3 57GC,R51 8(在正向引物的 5′端有 GC发卡结构 )和 F3 57,R51 8,分别对实验菌株和土壤样品中微生物的 1 6Sr RNA基因 V3区进行扩增 ,均得到了目的片段。比较了不同引物扩增的 1 6S r DNA片段在 DGGE中的不同电泳行为 ,结果表明 ,含 GC发卡结构的PCR扩增产物在 DGGE中能够得到很好的分离 ,而无 GC发卡结构的 PCR产物则不能在 DGGE中获得满意分离。引入 GC发卡结构 ,使得对不同微生物的定性和分类更深入细致  相似文献   

11.
BACKGROUND: The composition and sequence of amino acids in a protein may serve the underlying needs of the nucleic acids that encode the protein (the genome phenotype). In extreme form, amino acids become mere placeholders inserted between functional segments or domains, and--apart from increasing protein length--playing no role in the specific function or structure of a protein (the conventional phenotype). METHODS: We studied the genomes of two malarial parasites and 521 prokaryotes (144 complete) that differ widely in GC% and optimum growth temperature, comparing the base compositions of the protein coding regions and corresponding lengths (kilobases). RESULTS: Malarial parasites show distinctive responses to base-compositional pressures that increase as protein lengths increase. A low-GC% species (Plasmodium falciparum) is likely to have more placeholder amino acids than an intermediate-GC% species (P. vivax), so that homologous proteins are longer. In prokaryotes, GC% is generally greater and AG% is generally less in open reading frames (ORFs) encoding long proteins. The increased GC% in long ORFs increases as species' GC% increases, and decreases as species' AG% increases. In low- and intermediate-GC% prokaryotic species, increases in ORF GC% as encoded proteins increase in length are largely accounted for by the base compositions of first and second (amino acid-determining) codon positions. In high-GC% prokaryotic species, first and third (non-amino acid-determining) codon positions play this role. CONCLUSION: In low- and intermediate-GC% prokaryotes, placeholder amino acids are likely to be well defined, corresponding to codons enriched in G and/or C at first and second positions. In high-GC% prokaryotes, placeholder amino acids are likely to be less well defined. Increases in ORF GC% as encoded proteins increase in length are greater in mesophiles than in thermophiles, which are constrained from increasing protein lengths in response to base-composition pressures.  相似文献   

12.
Wada and colleagues have shown that, whether prokaryotic or eukaryotic, each gene has a "homostabilising propensity" to adopt a relatively uniform GC percentage (GC%). Accordingly, each gene can be viewed as a "microisochore" occupying a discrete GC% niche of relatively uniform base composition amongst its fellow genes. Although first, second and third codon positions usually differ in GC%, each position tends to maintain a uniform, gene-specific GC% value. Thus, within a genome, genic GC% values can cover a wide range. This is most evident at third codon positions, which are least constrained by amino acid encoding needs. In 1991, Wada and colleagues further noted that, within a phylogenetic group, genomic GC% values can also cover a wide range. This is again most evident at third codon positions. Thus, the dispersion of GC% values among genes within a genome matches the dispersion of GC% values among genomes within a phylogenetic group. Wada described the context-independence of plots of different codon position GC% values against total GC% as a "universal" characteristic. Several studies relate this to recombination. We have confirmed that third codon positions usually relate more to the genes that contain them than to the species. However, in genomes with extreme GC% values (low or high), third codon positions tend to maintain a constant GC%, thus relating more to the species than to the genes that contain them. Genes in an extreme-GC% genome collectively span a smaller GC% range, and mainly rely on first and second codon positions for differentiation as "microisochores". Our results are consistent with the view that differences in GC% serve to recombinationally isolate both genome sectors (facilitating gene duplication) and genomes (facilitating genome duplication, e.g. speciation). In intermediate-GC% genomes, conflict between the needs of the species and the needs of individual genes within that species is minimal. However, in extreme-GC% genomes there is a conflict, which is settled in favour of the species (i.e. group selection) rather than in favour of the gene (genic selection).  相似文献   

13.
Substitution of Asn for the conserved Ser543 in the thumb subdomain of the Taq DNA polymerase large fragment (Klentaq DNA polymerase) prevents pausing during DNA synthesis and allows the enzyme to circumvent template regions with a complex structure. The mutant enzyme (KlentaqN DNA polymerase) provides specific PCR amplification and sequencing of difficult templates, e.g. those with a high GC% content or strong secondary structure.  相似文献   

14.
通过重叠片段的RT-PCR方法,从人胎盘组织克隆了人全长肝细胞生长因子cDNA片段(约2200bp),经酶切证实和测序分析都表明该片段确为人HGFcDNA。本文所用方法解决了扩增较长目的基因片段时,由于RNA酶及反转录酶的RNA酶H活性和mRNA二级结构等多种因素的影响,使获取长片段cDNA难以成功的难点  相似文献   

15.
Malaria elimination and control require prompt and accurate diagnosis for treatment plan. Since microscopy and rapid diagnostic test (RDT) are not sensitive particularly for diagnosing low parasitemia, highly sensitive diagnostic tools are required for accurate treatment. Molecular diagnosis of malaria is commonly carried out by nested polymerase chain reaction (PCR) targeting 18S rRNA gene, while this technique involves long turnaround time and multiple steps leading to false positive results. To overcome these drawbacks, we compared highly sensitive cytochrome oxidase gene-based single-step multiplex reaction with 18S rRNA nested PCR. Cytochrome oxidase (cox) genes of P. falciparum (cox-III) and P. vivax (cox-I) were compared with 18S rRNA gene nested PCR and microscopy. Cox gene multiplex PCR was found to be highly specific and sensitive, enhancing the detection limit of mixed infections. Cox gene multiplex PCR showed a sensitivity of 100% and a specificity of 97%. This approach can be used as an alternative diagnostic method as it offers higher diagnostic performance and is amenable to high throughput scaling up for a larger sample size at low cost.  相似文献   

16.
一种来源于链霉菌的纤溶酶的纯化及其基因的克隆   总被引:1,自引:0,他引:1  
龚勇  王以光 《微生物学报》2001,41(2):186-190
链霉菌C3662的发酵液上清经 80 %硫酸铵沉淀 ,DEAE Sepharose和CM Sepharose层析分离后纯化出一种纤溶酶。SDS PAGE显示为单一的条带 ,分子量约为 30kD。以 pIJ699为载体 ,S .lividansTK2 4为宿主菌 ,鸟枪法克隆纤溶酶基因 ,从 30 0 0个转化子中挑选到 1个具活性转化子 ,经亚克隆 ,序列测定得到一个 90 3bp的完整ORF ,其GC %为 68.33% ,密码子第三位GC %为 95.6% ,符合链霉菌基因的典型特征。与多种蛋白酶具有较高的同源性  相似文献   

17.
Comparative gene expression studies are often limited by low availability of tissue and poor quality of extractable mRNA. Collective PCR amplification of minute quantities of mRNA has great potential for overcoming these limitations. However, there remains significant concern about the effects of amplification on the absolute and relative abundance of individual mRNAs that could complicate subsequent gene expression studies. To address this problem, we systematically compared the relative abundance of many specific mRNAs from complex cDNA preparations (from tissue and cultured cells) both before and after amplification by PCR. Our results demonstrated that, as expected, the absolute abundance of different mRNAs in a cDNA library is altered in an unpredictable manner by PCR amplification. However, we found that the concentration ratios of specific mRNAs among different cDNA preparations were routinely well conserved after PCR amplification. Thus, for the purpose of comparative expression studies for specific mRNAs in two (or more) complex cDNAs, PCR-amplified cDNA is equally useful as unamplified cDNA. These results provide a rigorous experimental validation and offer a theoretical treatment to support the utility of PCR amplified cDNA for differential gene expression studies. We conclude that the inherent difficulties in performing differential screening studies such as gene chip and array analyses on limited amounts of biological materials can be overcome by a PCR amplification step without compromising data quality. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

18.
Luo P  Su T  Hu C  Ren C 《Molecular biotechnology》2011,47(3):220-228
Acquisition of flanking sequence adjacent to a known DNA site is an important task in microbial genome-related research. In this study, we developed a new method containing two rounds of PCR followed by cloning and sequencing. Firstly, specific primer (SP) is added into the reaction system for primary locus-specific linear amplification, and then a complex long primer (CLP) is added into the cooled reaction system for only one cycle. Amplification products from the first round of PCR are directly purified without electrophoresis, diluted, and used as the templates of the second PCR. Secondly, one long specific primer (LSP) and one long base-fixed primer (LFP) are adopted. The amplicons are purified for cloning and sequencing. The achievement of specific amplification for long flanking region mainly depends on ingenious and precise settings of PCR programs, structure design of CLP primer, adding of CLP primer after specific linear amplification, concentration ratio of CLP and SP primer, applying long primers, etc. Through this method, we successfully performed the long PCR walkings (>1.5 Kb) on rpoB gene of Vibrio vulnificus, transposon-like gene of V. alginolyticus, and sto gene of V. cholerae. The method provides a robust and simple strategy for rapid amplification of long unknown DNA fragments from microbes.  相似文献   

19.
从端粒酶活性呈阳性的永生细胞株人肺腺癌细胞SPC A 1中分离了总RNA ,以此为模板 ,结合RT PCR技术和长模板PCR技术 ,用hTERT基因特异性引物扩增到一长约 2 .2kb的cDNA片段。将该片段纯化后克隆到通用测序载体T easyvector上得到重组质粒。用测序引物SP6和T7对该片段进行部分双向测序。经序列分析和同源比较推测该片段包含了hTERT基因的第 3内含子。该结果提示了RT PCR技术和长模板PCR技术用于真核生物基因内含子克隆的可行性。进一步的分析表明 ,该片段在不同细胞的RT PCR产物中的产量不同 ,提示hTERT基因前体mRNA中的第 3内含子可能在不同细胞中有不同的剪接效率。  相似文献   

20.
To investigate the generation of an abnormally long HIV-1 env PCR DNA product the latter was cloned and sequenced followed by sequence analysis of HIV-1 primer binding sites. We found that the formation of an abnormally long PCR product was due to HIV-1 env sequence alteration (a) in the reverse primer binding site resulting in faulty primer binding and (b) downstream from the forward primer sequence resulting in a new binding site with reverse complementary sequence with respect to the forward primer at the opposite end of the PCR product. Both changes led to amplification of a longer PCR product with forward primer alone. Our results indicate that the HIV-1 genetic diversity in the env gene can lead to amplification of a specific PCR product of unexpected size which can be disregarded in the absence of its cross-validation.  相似文献   

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