Rapid and Efficient Gene Splicing Using Megaprimer-Based Protocol

Megaprimer-based methodology has been widely applied in site-directed mutagenesis, but rarely used in gene splicing. In this article, we describe a modification of the megaprimer PCR method, which can efficiently create and amplify a specific ligated chimeric gene segment in a PCR reaction and under a common PCR program that is widely used by researchers. More importantly, this modified method for splicing two or more gene fragments together revealed the mechanism of the megaprimer PCR method, by elucidating the key factor in the megaprimer-based protocol. In this method, the denatured megaprimer divided into two strands. One strand was used as template DNA to regenerate megaprimer and the other strand was used as an oligonucleotide primer to create a ligated chimeric gene product. In this article, we detail the modified megaprimer protocol for creating and amplifying these chimeric gene products, including a specific protocol for large chimeric gene products. We also provide additional tips to increase specificity and efficiency of the protocols. In conclusion, the improved megaprimer PCR protocol is a simple, broadly applicable protocol for splicing two different gene fragments together without relying on restriction sites. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

融合酶表达载体的构建及出现问题的初探

目的:将限制性内切酶FokⅠ催化区域基因(631bp)和PI-SceⅠ识别区域的基因(546bp)连接到一起,克隆入载体质粒pET28a+中,为表达新的限制性内切酶融合酶做准备。方法:分别以啤酒酵母和海床黄杆菌作模板,PCR扩增PI-SceⅠ和FokⅠ基因片段,再将它们克隆入载体质粒pET28a+,然后对整合质粒进行双酶切检测。结果:整合过程中,无论是PI-SceⅠ还是FokⅠ基因片段,都能单独成功插入载体,但当插入第二段基因片段时,酶切结果显示大约600bp的基因片段缺失了。结论:缺失可能因为两段连在一起的新基因在转化过程中对宿主细胞有毒性,宿主细胞对其进行了剪切;也可能这两段基因会形成某种高级结构而导致其不能很好的连接,产生缺失现象。     

蛋白质剪切及其应用

蛋白质剪切是一种翻译后修饰事件 ,它将插入前体蛋白的中间的蛋白质肽段 (Intein ,internalproteinfrag ment)剪切出来 ,并用正常肽键将两侧蛋白质多肽链 (Extein ,flankingproteinfragments)连接起来。在此过程中不需要辅酶或辅助因子的作用 ,仅需四步分子内反应。Intein及其侧翼序列可以通过突变产生高度特异性的自我切割用于蛋白质纯化、蛋白质连接和蛋白质环化反应 ,在蛋白质工程方面有广泛的应用前景。     

一种高效构建同源重组DNA片段的方法——融合PCR

融合PCR技术（fusion PCR）采用具有互补末端的引物,形成具有重叠链的PCR产物,通过PCR产物重叠链的延伸,从而将不同来源的任意DNA片段连接起来,此技术在不需要内切酶消化和连接酶处理的条件下实现DNA片段的体外连接,为同源重组片段的构建提供了快速简捷的途径。对原有的融合PCR技术进行改进,以三个同源重组线性DNA片段的构建为例,详细论述了改进的融合PCR技术的反应过程及技术体系。结果表明,改进的融合PCR技术可以同时进行三个片段及四个片段的融合反应,产物长度均在4.5kb以上,各同源重组片段在扩增过程中均无突变发生,获得的片段可以用于后续实验分析。     

A simple and universal ligation mediated fusion of genes based on hetero-staggered PCR for generating immunodominant chimeric proteins

We developed a simple T4 DNA ligase mediated strategy for inframe splicing of two or more cohesive genes generated by hetero-staggered PCR and directionally cloning the spliced product bearing sticky overhangs in to a correspondingly cut vector. For this, two pairs of primers are used in two different parallel PCRs, for generation of each cohesive gene product. We exemplified this strategy by splicing two major super-antigen genes of Staphylococcus aureus, namely, staphylococcal enterotoxin A (sea), and toxic shock syndrome toxin (tsst-1) followed by its directional cloning into pre-digested pRSET A vector. The fusion gene encoding chimeric recombinant SEA-TSST protein (32 kDa) was expressed in E. coli BL21(DE3) host strain. The recombinant chimeric protein retained the antigenicity of both toxins as observed by the strong immunoreactivity with commercial antibodies against both SEA and TSST-1 toxin components by Western blot analysis. We observed that the present method for gene splicing with cohesive ends is simple since it does not require elaborate standardization and a single fusion product is obtained consistently during nested PCR with forward primer of first gene and reverse primer of second gene. For comparison, we fused the same genes using splicing by overlap extension PCR (SOE-PCR) and consistently obtained DNA smearing and multiple non-specific bands even after several rounds of PCRs from gel excised product. Moreover, the newly described method requires only two to six complimentary sticky ends between the genes to be spliced, in contrast to long stretch of overlapping nucleotides in case of SOE-PCR.     

Construction of long DNA molecules using long PCR-based fusion of several fragments simultaneously

A procedure for precise assembly of linear DNA constructs as long as 20 kb is proposed. The method, which we call long multiple fusion, has been used to assemble up to four fragments simultaneously (for a 10.8 kb final product), offering an additional improvement on the combination of long PCR and overlap extension PCR. The method is based on Pfu polymerase mix, which has a proofreading activity. We successfully assembled (and confirmed by sequencing) seven different linear constructs ranging from 3 to 20 kb, including two 20 kb products (from fragments of 11, 1.7 and 7.5 kb), two 10.8 kb constructs, and two constructs of 6.1 and 6.2 kb, respectively. Accuracy of the PCR fusion is greater than or equal to one error per 6.6 kb, which is consistent with the expected error rate of the PCR mix. The method is expected to facilitate various kinds of complex genetic engineering projects that require precise in-frame assembly of multiple fragments, such as somatic cell knockout in human cells or creation of whole genomes of viruses for vaccine research.     

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.     

One-pot fusion polymerase chain reaction for combinatorial synthesis of DNA from several cassettes

The fusion of DNA fragments is becoming increasingly more important. The ability to work without being constrained by restriction sites enables DNA fusion to be applied to a much broader range of fragments. Therefore, we describe a simplified polymerase chain reaction (PCR)-based method for fusion of DNA fragments in one step. In a single PCR, two templates, an overlapping primer, and template-specific forward and reverse primers are used. After a few cycles, the fusion DNA is assembled and is amplified. The ratio of overlapping primer to forward/reverse primers and template DNA is essential for the success of the reaction.     

A modified overlap extension PCR method to create chimeric genes in the absence of restriction enzymes

A modified overlap extension technique for the creation of chimeric genes is described: the method consists in three PCR steps. The first step is a conventional PCR reaction, in which oligonucleotide primers are partially complementary at their 5' ends to the adjacent fragments that are fused to create the chimer. The second PCR step consists in the fusion of the PCR fragments generated in the first step using the complementary extremities of the primers. The third step corresponds to the PCR amplification of the fusion product. The final PCR product is a chimeric gene built up with the different amplified PCR fragments. The technique is illustrated by the construction of a chimeric 5- hydroxytryptamine (5-HT, serotonin)1B/D receptor by combining one part of the human 5-HT1B (h5-HT1B) and two parts of the h5-HT1D receptor gene. The chimeric gene expressed in Cos-7 cells yielded similar binding properties as the wild type h5-HT1D receptor. © Rapid Science Ltd. 1998     

MLC_2-糜酶融合基因克隆及转基因小鼠的产生

为研究糜酶基因在体内的结构与功能以及与心肌肥厚的关系,并提高糜酶基因在小鼠心脏中的表达,构建肌球蛋白轻链－２启动子（ｍｙｏｓｉｎｌｉｇｈｔｃｈａｉｎ－２ｐｒｏｍｏｔｅｒ,ＭＬＣ２）－糜酶融合基因并产生转基因小鼠．通过删除糜酶基因启动子序列,构建结构基因克隆,然后与大鼠心脏肌球蛋白轻链－２启动子序列相拼接,构建ＭＬＣ２－糜酶融合基因克隆,回收并纯化融合基因片段,显微注射入小鼠受精卵产生转基因小鼠,经ＰＣＲ扩增、Ｓｏｕｔｈｅｒｎ印迹杂交和ＰＣＲ扩增产物的测序,筛选和确定转基因鼠．在新出生的４６只小鼠中有２只为转基因阳性鼠,且外源基因能稳定遗传给后代,从而获得了可用于研究糜酶基因在体内的结构与功能以及与心肌肥厚的关系的转基因小鼠模型．     

Reliable fusion PCR using Taq polymerases and pGEM-T easy vectors

We describe a reliable method for the production of fusion PCR products that can be used to transform the wild-type bacteria to replace target genes for mutagenesis studies. The relevant gene fragments and selective cassette are first amplified separately by PCR using primers that produce overlapping ends. As economic Taq DNA polymerase is disappointed in producing overlap ends due to adding an extra 3′-end ‘A’ base which potentially blocks the successful fusion of the amplified fragments, we use a new primer design strategy to overcome this disadvantage by introducing an additional ‘A’ base in the overlap primers. The amplified gene fragments were then separately cloned into a pGEM-T easy vector and re-amplified with the aid of a universal primer T7/SP6. This procedure enables performing nested PCR with the outmost primers in the fusion reaction to reliably splice the gene fragments into a single molecule with all sequences in the desired order.     

限制性内切酶介导的重叠延伸在人环氧合酶-1(COX-1)基因克隆中的应用

建立一种用于克隆全长基因的、限制性内切酶介导的重叠延伸法 .对全长基因进行分段扩增 ,并利用适当的限制性内切酶对基因序列内相应的限制性位点进行酶切 ,从而使分段扩增片段得以重叠并互为模板 ,在DNA聚合酶的作用下延伸获得全长基因 .将环氧合酶 1 (COX 1 )基因的外显子 9巧妙地拼接到了缺失外显子 9的COX 1cDNA片段中 ,获得了COX 1基因的全长cDNA .该方法分 3步进行 .首先 ,通过RT PCR分别扩增跨外显子 9的cDNA片段和缺失外显子 9的cDNA片段 ,并克隆到pMD1 8 T载体上 ;其次 ,PCR扩增外显子 9片段 ,限制性内切酶StuI酶切缺失外显子9cDNA片段的重组质粒 ,二者以一定的比例混合 ,互为模板 ,在pfuDNA聚合酶的作用下进行延伸 ,从而产生一个双链的DNA分子 .最后 ,以延伸产物为模板 ,用COX 1cDNA两端的引物进行PCR扩增 ,产生包含外显子 9的COX 1基因的全长cDNA .这种限制性内切酶介导的重叠延伸方法 ,对于克隆mRNA剪接水平上受调控的基因尤为有用 ,同时也为基因的重组和修饰提供一个新的思路     

Tudor-SN蛋白一级结构间断的SN5结构域质粒的拼接构建

目的 实现Tudor-SN蛋白TSN结构域内间断的SN5基因片段（SN5α、SN5β）的拼接以及与绿色荧光蛋白在HeLa细胞中的融合表达.方法 利用Geno 3D对拼接的SN5进行结构预测.以重组质粒pSG5-Tudor-SN-flag为模板,PCR分别扩增出SN5α和SN5β的基因,双酶切并纯化后,先将SN5β引入pEGFP-C2,完成重组质粒pEGFP-C2-SN5β,再将SN5α引入pEGFP-C2-SN5β,完成重组质粒pEGFP-C2-SN5.将pEGFP-C2-SN5β/ SN5脂质体法转染HeLa细胞,荧光显微镜下观察融合蛋白的荧光表达情况,Western印迹检测融合蛋白的表达.结果 ① 拼接的SN5结构预测显示与TSN完整结构中的SN5高度重合;②对重组质粒进行双酶切鉴定可见SN5α、SN5β、SN5的cDNA片段;③ 转染重组质粒后可观察到绿色荧光蛋白的表达;④ Western印迹后可在相应位置检测到融合蛋白.结论 pEGFP-C2-SN5/SN5β重组质粒构建成功,SN5α和SN5β在pEGFP-C2中实现了顺序拼接;目的片段可与绿色荧光蛋白在HeLa细胞中融合表达,融合蛋白可与抗GFP抗体结合用于蛋白检测.     

Self-assembly cloning: a rapid construction method for recombinant molecules from multiple fragments

Enzyme-free cloning (EFC) can rapidly produce an in-frame fusion gene with multiple fragments. To practically apply EFC, we investigated the extent and sequence of complementary staggered overhangs necessary to direct self-assembly of multiple fragments as well as a size limitation of the constructed DNA molecule. Six-base pair overhangs with 50% GC content were sufficient to direct self-assembly. A functional plasmid that exceeded 10 kb, which includes an in-frame fusion domain, was efficiently constructed from four PCR fragments in one step by our improved method.     

降落-重叠PCR法四重融合构建平菇同源重组片段

对多个长片段的基因融合目前仍缺少有效的方法. 本文提出一种新的融合PCR策略,即在常规的重叠PCR的第1步和第2步均增加1个降落PCR程序,减少不适当的退火温度和PCR产物3′端额外碱基A对片段融合、扩增的影响,提高正确融合与扩增的效率. 结果表明,为构建平菇葡聚糖合成酶启动子的同源重组序列,在4个长度分别是1 015 bp、2 822 bp、2 206 bp和1 008 bp的片段进行融合时,在重叠PCR的第1步加上退火温度61.5 ℃～57.5 ℃、每降落0.5 ℃进行1个循环的降落PCR程序,在重叠PCR的第2步加上退火温度60 ℃～56 ℃、每降落0.5 ℃进行1个循环的降落PCR程序,经过1次PCR即获得顺序正确的全长融合片段. 测序结果与4个片段序列的一致性达到98.5%,降落-重叠PCR法对多个长片段的基因 融合具有较高的应用价值.     

Characteristics of protein splicing in trans mediated by a semisynthetic split intein

Protein splicing in trans results in the ligation of two protein or peptide segments linked to appropriate intein fragments. We have characterized the trans-splicing reaction mediated by a naturally expressed, approximately 100-residue N-terminal fragment of the Mycobacterium tuberculosis intein and a synthetic peptide containing the 38 C-terminal intein residues, and found that the splicing reaction was very versatile and robust. The efficiency of splicing was nearly independent of temperature between 4 and 37 degrees C and pH between 6.0 and 7.5, with only a slight decline at pH values as high as 8.5. In addition, there was considerable flexibility in the choice of the C-terminal intein fragment, no significant difference in protein ligation efficiency being observed between reactions utilizing the N-terminal fragment and either the naturally expressed 107-residue C-terminal portion of the intein, much smaller synthetic peptides, or the 107-residue C-terminal intein fragment modified by fusion of a maltose binding protein domain to its N-terminus. The ability to use different types of the C-terminal intein fragments and a broad range of reaction conditions make protein splicing in trans a versatile tool for protein ligation.     

一种新的基于Red重组及I-Sec I体内切割的大肠杆菌基因组无痕删减方法

目前常用的基因修饰方法是在Red同源重组介导下,电转线性PCR片段替换染色体上指定序列。因PCR过程错误掺入,该方法常常会在同源序列部位产生一些突变。为了避免此类突变,我们建立了一种新的无痕删除方法。首先将含有抗性标记(两侧带有I-Sec I识别位点)的线性DNA电转到Red重组感受态细胞内,用抗性基因替换基因组上指定序列;然后,将携带融合同源臂(两侧带有I-Sec I位点)的供体质粒导入上述细胞,诱导表达I-Sec I内切酶切割供体质粒释放同源片段,同时切除染色体上抗性基因产生双链断裂,通过分子间同源重组实现无痕删除。我们应用该方法连续删除了大肠杆菌DH1基因组上11个非必需区,使基因组减小10.59%。PCR测序证明所有删减区域同源臂未发生突变,基因组重测序证明指定区域被删除。删减菌的生长变化不大,但耐酸能力有所改变,并对番茄红素合成有不同影响。     

Multiplex amplification enabled by selective circularization of large sets of genomic DNA fragments

We present a method to specifically select large sets of DNA sequences for parallel amplification by PCR using target-specific oligonucleotide constructs, so-called selectors. The selectors are oligonucleotide duplexes with single-stranded target-complementary end-sequences that are linked by a general sequence motif. In the selection process, a pool of selectors is combined with denatured restriction digested DNA. Each selector hybridizes to its respective target, forming individual circular complexes that are covalently closed by enzymatic ligation. Non-circularized fragments are removed by exonucleolysis, enriching for the selected fragments. The general sequence that is introduced into the circularized fragments allows them to be amplified in parallel using a universal primer pair. The procedure avoids amplification artifacts associated with conventional multiplex PCR where two primers are used for each target, thereby reducing the number of amplification reactions needed for investigating large sets of DNA sequences. We demonstrate the specificity, reproducibility and flexibility of this process by performing a 96-plex amplification of an arbitrary set of specific DNA sequences, followed by hybridization to a cDNA microarray. Eighty-nine percent of the selectors generated PCR products that hybridized to the expected positions on the array, while little or no amplification artifacts were observed.     

Fusion PCR and gene targeting in Aspergillus nidulans

We describe a rapid method for the production of fusion PCR products that can be used, generally without band purification, to transform Aspergillus nidulans. This technique can be used to replace genes; tag genes with fluorescent moeties or epitope tags; or replace endogenous promoters with regulatable promoters, by introducing an appropriate selective cassette (e.g., fluorescent protein + selectable marker). The relevant genomic fragments and cassette are first amplified separately by PCR using primers that produce overlapping ends. A second PCR using 'nested' primers fuses the fragments into a single molecule with all sequences in the desired order. This procedure allows a cassette to be amplified once, frozen and used subsequently in many fusion PCRs. Transformation of nonhomologous recombination deficient (nkuADelta) strains of A. nidulans with fusion PCR products results in high frequencies of accurate gene targeting. Fusion PCR takes less than 2 d. Protoplast formation and transformation takes less than 1 d.