Emulsion PCR: a high efficient way of PCR amplification of random DNA libraries in aptamer selection

Aptamers are short RNA or DNA oligonucleotides which can bind with different targets. Typically, they are selected from a large number of random DNA sequence libraries. The main strategy to obtain aptamers is systematic evolution of ligands by exponential enrichment (SELEX). Low efficiency is one of the limitations for conventional PCR amplification of random DNA sequence library in aptamer selection because of relative low products and high by-products formation efficiency. Here, we developed emulsion PCR for aptamer selection. With this method, the by-products formation decreased tremendously to an undetectable level, while the products formation increased significantly. Our results indicated that by-products in conventional PCR amplification were from primer-product and product-product hybridization. In emulsion PCR, we can completely avoid the product-product hybridization and avoid the most of primer-product hybridization if the conditions were optimized. In addition, it also showed that the molecule ratio of template to compartment was crucial to by-product formation efficiency in emulsion PCR amplification. Furthermore, the concentration of the Taq DNA polymerase in the emulsion PCR mixture had a significant impact on product formation efficiency. So, the results of our study indicated that emulsion PCR could improve the efficiency of SELEX.     

shRNA随机文库结合TK自杀基因筛选靶向HIV-1LTR相关宿主因子

构建shRNA随机文库与HIV-1 LTR启动胸苷激酶基因(TK基因)稳定表达的稳定细胞系HEK293/TK,将两者结合起来,筛选靶向HIV-1 LTR相关宿主因子.方法:通过化学合成含有19个随机脱氧核苷酸的发夹结构,将其退火补平后与合成的接头Linker连接进行PCR反应,将PCR产物酶切后置于慢病毒载体pLenti-U6启动子下游由此构建shRNA随机文库;利用重叠PCR将HIV-1 LTR片段和TK基因连接起来,连接产物经酶切后与pcDNA3.1载体连接;将连接正确的质粒转染HEK293细胞同时用G418加压筛选获得稳定细胞系HEK293/TK;将所获得的文库质粒包装成慢病毒后侵染所构建的HEK293/TK细胞系,通过加入药物GCV进行加压筛选获得存活细胞.结果:成功筛选到加药后存活下来的细胞,抽提细胞基因组,采用巢式PCR扩增目的干扰序列并用Western blot对干扰序列进行验证,鉴定获得一个克隆所表达的shRNA能对TK基因的表达起到抑制作用,通过测序分析获得其干扰序列,该序列很有可能针对HIV-1 LTR某宿主相关因子.结论:成功构建了一种筛选HIV-1 LTR相关宿主因子的方法,筛选所得序列可以定位到具体相关宿主因子,为靶向筛选抗HIV-1药物提供了重要手段.     

Methylation profiling using degenerated oligonucleotide primer-PCR specific for genome-wide amplification of bisulfite-modified DNA

DNA methylation is one of the essential epigenetic processes that play a role in regulating gene expression. Aberrant methylation of CpG-rich promoter regions has been associated with many forms of human cancers. The current method for determining the methylation status relies mainly on bisulfite treatment of genomic DNA, followed by methylation-specific PCR (MSP). The difficulty in acquiring a methylation profiling often is limited by the amount of genomic DNA that can be recovered from a given sample, whereas complex procedures of bisulfite treatment further compromise the effective template for PCR analysis. To circumvent these obstacles, we developed degenerated oligonucleotide primer (DOP)-PCR to enable amplification of bisulfite-modified genomic DNA at a genome-wide scale. A DOP pair was specially designed as follows: first 3' DOP, CTCGAGCTGHHHHHAACTAC, where H is a mixture of base consisting of 50% A, 25% T, and 25% C; and second 5' DOP, CTCGAGCTGDDDDDGTTTAG, where D is a mixture of base consisting of 50% T, 25% G, and 25% A. Our results showed that bisulfite-modified DNAs from a cell line, cord blood cells, or cells obtained by laser capture microdissection were amplified by up to 1000-fold using this method. Subsequent MSP analysis using these amplified DNAs on nine randomly selected cancer-related genes revealed that the methylation status of these genes remained identical to that derived from the original unamplified template.     

Generation of shrnas from randomized oligonucleotides

Suppression of gene expression by small interfering RNA (siRNA) has proved to be a gene-specific and cost effective alternative to other gene suppression technologies. Short hairpin RNAs (shRNAs) generated from the vector-based expression are believed to be processed into functional siRNAs in vivo, leading to gene silencing. Since an shRNA library carries a large pool of potential siRNAs, such a library makes it possible to knock down gene expression at the genome wide scale. Although much of research has been focused on generating shRNA libraries from either individually made gene specific sequences or cDNA libraries, there is no report on constructing randomized shRNA libraries, which could provide a good alternative to these existing libraries. We have developed a method of constructing shRNAs from randomized oligonucleotides. Through this method, one can generate a partially or fully randomized shRNA library for various functional analyses. We validated this procedure by constructing a p53-specific shRNA. Western blot revealed that the p53-shRNA successfully suppressed expression of the endogenous p53 in MCF-7 cells. We then made a partially randomized shRNA library. Sequencing of 15 randomly picked cloned confirmed the randomness of the library. Therefore, the library can be used for various functional assays, such as target validation when a suitable screening or selection method is available.     

Identification of the pathogenic Aspergillus species by nested PCR using a mixture of specific primers to DNA topoisomerase II gene

For PCR-based identification of Aspergillus species, a common primer of the DNA topoisomerase II genes of Candida, Aspergillus and Penicillium, and species-specific primers of the genomic sequences of DNA topoisomerase II of A. fumigatus, A. niger, A. flavus (A. oryzae), A. nidulans and A. terreus were tested for their specificities in PCR amplifications. The method consisted of amplification of the genomic DNA topoisomerase II gene by a common primer set, followed by a second PCR with a primer mix consisting of 5 species-specific primer pairs for each Aspergillus species. By using the common primer pair, a DNA fragment of approximately 1,200 bp was amplified from the Aspergillus and Penicillium genomic DNAs. Using each species-specific primer pair, unique sizes of PCR products were amplified, all of which corresponded to a species of Aspergillus even in the presence of DNAs of several fungal species. The sensitivity of A. fumigatus to the nested PCR was found to be 100 fg of DNA in the reaction mixture. In the nested PCR obtained by using the primer mix (PsIV), the specific DNA fragment of A. fumigatus was amplified from clinical specimens. These results suggest that this nested PCR method is rapid, simple and available as a tool for identification of pathogenic Aspergillus to a species level.     

高GC含量DNA模板的PCR扩增

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。     

Single primer-mediated circular polymerase chain reaction for hairpin DNA cloning and plasmid editing

We developed and validated a universal polymerase chain reaction (PCR) method, single primer circular (SPC)–PCR, using single primer to simultaneously insert and amplify a short hairpin sequence into a vector with a high success rate. In this method, the hairpin structure is divided into two parts and fused into a vector by PCR. Then, a single primer is used to cyclize the chimera into a mature short hairpin RNA (shRNA) expression vector. It is not biased by loop length or palindromic structures. Six hairpin DNAs with short 4-nucleotide loops were successfully cloned. Moreover, SPC–PCR was also applied to plasmid editing within 3 h with a success rate higher than 95%.     

优化重叠PCR法进行单链抗体基因扩增和点突变

利用重叠PCR技术扩增单链抗体基因或位点突变是抗体文库构建或稳定表达的关键和难点,国内外文献未见其方法学的系统报道.以不同VH、VL和Linker基因为拼接模板进行重叠PCR,针对影响重叠PCR扩增的拼接类型,引物设计,反应条件等进行优化.结果表明两段重叠连接比三段更容易实现,且扩增效果好;引物的互补序列长度一般应大于15 bp,且在18～24 bp 时扩增效果最好;退火温度在52～60℃,Mg2+浓度在1.5～2.5 mM时对拼接的效果影响较小;直接或间接使用拼接模板均可以实现重叠PCR的扩增.利用优化策略,首次构建了抗除虫菊酯的scFv基因文库并引入抗XAC糖蛋白scFv基因的点突变,为除虫菊酯抗体文库构建和抗XAC重组抗体的稳定表达奠定了基础.     

重叠PCR法构建人心房肌SK2(KCNN2)基因表达质粒及鉴定和序列分析

目的:小电导钙激活钾通道亚型2(SK2)在心房肌功能活动中起重要作用,但是由于其表达密度低,直接进行RT-PCR一步法无法得到该基因(KCNN2)的编码区全长序列,本研究旨在采用Overlapping PCR(重叠PCR)法进行基因全长序列的扩增和表达质粒的构建,探讨其在长片段基因扩增的应用。方法:收集人心房肌标本,采用提取总RNA之后逆转录为cDNA,分三段设计KCNN2基因(AY258141)引物进行分段扩增,同时进行分段测序,然后采用Overlapping PCR得到KCNN2基因编码区全长序列,通过限制性酶切位点定向克隆到表达载体pIRES-hrGFP上。采用酶切法和测序法进行鉴定。结果:三段KCNN2基因扩增产物大小与预测值一致,最后得到的表达质粒测序结果与基因库数据基本一致。结论:成功构建人心房肌SK通道基因表达质粒pIRES-hrGFP-SK2,Overlapping PCR能够很好的用于长片段基因扩增。     

Preservation of Gene Expression Ratios Among Multiple Complex cDNAs After PCR Amplification: Application to Differential Gene Expression Studies

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.     

DNA vector-based RNA interference to study gene function in cancer

RNA interference (RNAi) inhibits gene expression by specifically degrading target mRNAs. Since the discovery of double-stranded small interference RNA (siRNA) in gene silencing, RNAi has become a powerful research tool in gene function studies. Compared to genetic deletion, RNAi-mediated gene silencing possesses many advantages, such as the ease with which it is carried out and its suitability to most cell lines. Multiple studies have demonstrated the applications of RNAi technology in cancer research. In particular, the development of the DNA vector-based technology to produce small hairpin RNA (shRNA) driven by the U6 or H1 promoter has made long term and inducible gene silencing possible. Its use in combination with genetically engineered viral vectors, such as lentivirus, facilitates high efficiencies of shRNA delivery and/or integration into genomic DNA for stable shRNA expression. We describe a detailed procedure using the DNA vector-based RNAi technology to determine gene function, including construction of lentiviral vectors expressing shRNA, lentivirus production and cell infection, and functional studies using a mouse xenograft model. Various strategies have been reported in generating shRNA constructs. The protocol described here employing PCR amplification and a 3-fragment ligation can be used to directly and efficiently generate shRNA-containing lentiviral constructs without leaving any extra nucleotide adjacent to a shRNA coding sequence. Since the shRNA-expression cassettes created by this strategy can be cut out by restriction enzymes, they can be easily moved to other vectors with different fluorescent or antibiotic markers. Most commercial transfection reagents can be used in lentivirus production. However, in this report, we provide an economic method using calcium phosphate precipitation that can achieve over 90% transfection efficiency in 293T cells. Compared to constitutive shRNA expression vectors, an inducible shRNA system is particularly suitable to knocking down a gene essential to cell proliferation. We demonstrate the gene silencing of Yin Yang 1 (YY1), a potential oncogene in breast cancer, by a Tet-On inducible shRNA system and its effects on tumor formation. Research using lentivirus requires review and approval of a biosafety protocol by the Biosafety Committee of a researcher's institution. Research using animal models requires review and approval of an animal protocol by the Animal Care and Use Committee (ACUC) of a researcher's institution.     

Construction of equalized short hairpin RNA library from human brain cDNA

Short hairpin RNA (shRNA) library is a powerful new tool for high-throughput loss-of-function genetic screens in mammalian cells. An shRNA library can be constructed from synthetic oligonucleotides or enzymatically cleaved natural cDNA. Here, we describe a new method for constructing equalized shRNA libraries from cDNA. First, enzymatically digested cDNA fragments are equalized by a suppression PCR-based method modified from suppression subtractive hybridization. The efficiency of equalization was confirmed by quantitative real-time PCR. The fragments are then converted into an shRNA library by a series of enzymatic treatments. With this new technology, we constructed a library from human brain cDNA. Sequence analysis showed that most of the randomly selected clones had inverted repeat sequences converted from different cDNA. After transfecting HEK 293T cells and detecting gene expression, three out of eight clones were demonstrated to significantly inhibit their target genes.     

小麦脱水素基因wzy2表达量实时荧光定量PCR方法的建立和应用

以陕合6号小麦品种为材料,用SYBR GreenⅡ染料,参照小麦脱水素wzy2和-βactin基因序列设计引物,建立小麦wzy2基因的实时荧光定量PCR分析方法.结果表明:通过对标准品标准曲线和熔解曲线分析,其标准曲线的Ct值检测范围为12~30,PCR扩增效率高达111.3%;不同的标准品扩增曲线的间距为3.078,接近于理想值3.32,且可显示产物特异的单峰,引物的特异性扩增强.小麦脱水素基因wzy2表达量实时荧光定量PCR的测定结果表明,小麦脱水素基因wzy2在胁迫24 h的表达量明显高于胁迫12 h的表达量.     

纳米金增强复杂体系中PCR扩增低拷贝基因的反应特异性初步研究

目的：利用纳米金颗粒提高复杂体系基因组低拷贝基因PCR扩增的反应特异性。方法：首先,模拟复杂基因组扩增模式体系,以接近单拷贝的λDNA为模板,在PCR过程中加入纳米金颗粒,设计优化实验,以便模拟建立复杂基因组低拷贝目的基因PCR扩增的模式体系。随后,扩增人类基因组的疾病相关的低拷贝基因模板（如人基因组肿瘤坏死因子基因外显子1的380bp）,以检验纳米金优化增强PCR反应特异性的实际效果。结果：在复杂体系基因组的低拷贝基因PCR扩增中,纳米金颗粒能够较好地增强其PCR反应的特异性。结论：初步表明基于纳米金的纳米粒子PCR方法可以对复杂的实际基因组体系低拷贝基因的PCR扩增起到优化作用,这对于PCR反应优化方法的改进、推广具有重要的参考价值。     

慢病毒载体介导的层黏连蛋白受体稳定抑制细胞株的建立

目的:构建靶向层黏连蛋白受体(LR)基因的小发卡RNA(sh RNA)慢病毒表达载体,鉴定其对LR的抑制效果,并筛选LR稳定抑制的He La细胞株。方法:设计针对LR的sh RNA序列,将此序列和H1启动子克隆入含有EGFP报告基因的p Lenti6/v5慢病毒表达载体,通过病毒包装、细胞感染、抗生素筛选获得稳定细胞株,用real-time PCR和Western印迹检测筛选得到的稳定细胞株中LR的表达水平。结果和结论:构建了含有LR靶向sh RNA的慢病毒表达载体,包装成病毒后感染He La细胞,经抗生素筛选后获得了稳定抑制LR的细胞株;筛选后的细胞均可观察到报告基因EGFP的表达;经m RNA和蛋白水平检测,LR-sh6和LR-sh7均可显著抑制He La细胞株中LR的表达。     

猪FGL2基因cDNA末端序列检测及结构分析

检测猪FGL2基因cDNA末端序列并对该基因结构初步分析。α-32P dCTP放射性同位素标记cDNA探针筛选猪基因组DNA文库;cDNA末端快速扩增(rapid amplification of cDNA end,RACE)。以猪正常小肠及心脏组织提取新鲜总RNA,反转录后作为模板,设计基因特异性引物,采用Advantage 2 聚合酶混合物进行PCR扩增;依据猪与人FGL2基因3′端已知同源序列设计PCR上游引物,以人FGL2基因3′末端序列设计下游引物,以猪基因组DNA为模板采用Advantage 2 聚合酶混合物进行PCR反应;PCR载体重组质粒DNA亚克隆扩增。同位素探针未能筛选到特异阳性克隆,RACE反应检测到特异性转录起始位置及第一个转录终止位置,但仍未检测到第二个转录终止位置。猪基因组DNA行PCR扩增成功检测到猪FGL2基因3′末端未知序列及第二个转录终止位置。     

硅-玻璃聚合酶链式反应微芯片对β-葡糖苷酸酶基因的扩增

聚合酶链式反应（PCR）微芯片是基于微机电系统（MEMS）制作,在微芯片上进行PCR反应,实现生物样品扩增的一项新技术.介绍了硅-玻璃PCR微芯片的设计和制作、微反应腔的清洗和表面处理、借助外置温度控制系统进行PCR扩增反应以及扩增产物在琼脂糖凝胶电泳下的检测分析,实现了对β-葡糖苷酸酶（GUS）基因的有效扩增,扩增时间由原来的90 min缩短到现在的37 min.