Abstract
We report here a PCR-based cloning methodology that requires no post-PCR modifications such as restriction digestion and phosphorylation of the amplified DNA. The advantage of the present method is that it yields only recombinant clones thus eliminating the need for screening. Two DNA amplification reactions by PCR are performed wherein the first reaction amplifies the gene of interest from a source template, and the second reaction fuses it with the designed expression vector fragments. These vector fragments carry the essential elements that are required for the fusion product selection. The entire process can be completed in less than 8 hours. Furthermore, ligation of the amplified DNA by a DNA ligase is not required before transformation, although the procedure yields more number of colonies upon transformation if ligation is carried out. As a proof-of-concept, we show the cloning and expression of GFP, adh, and rho genes. Using GFP production as an example, we further demonstrate that the E. coli T7 express strain can directly be used in our methodology for the protein expression immediately after PCR. The expressed protein is without or with 6xHistidine tag at either terminus, depending upon the chosen vector fragments. We believe that our method will find tremendous use in molecular and structural biology.
Highlights
Polymerase chain reaction (PCR) has revolutionized the recombinant DNA technology
The primers used in PCR and site directed mutagenesis (SDM) were purchased from Macrogen (South Korea)
Generation of pRS vector fragments separating the origin of replication and the ampicillin antibiotic resistance marker
Summary
To construct a recombinant molecule, the desired DNA fragment is prepared in large quantity using PCR and the amplicon (the PCR-amplified DNA) obtained is cloned in the vector of choice. This cloning is carried out by following any of the several available methods [1,2,3,4,5,6,7,8,9,10]. The involvement of several steps makes it difficult to rapidly achieve the desired cloning with high efficiency Several methodologies such as the PLOS ONE | DOI:10.1371/journal.pone.0152106. Several methodologies such as the PLOS ONE | DOI:10.1371/journal.pone.0152106 March 23, 2016
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