An optimized procedure for the ligation-mediated polymerase chain reaction (PCR) technique using Thermococcus litoralis exo– DNA polymerase (Vent exo–) was developed. The optimal dosage of Vent exo– at the primer extension and PCR amplification steps as well as the optimal DNA quantity to use were established. We showed that Vent exo– can efficiently create the blunt-ended termini required for subsequent linker ligation. Vent exo– proves to be more efficient than Pyrococcus furiosus exo– (Pfu exo–) for this task. Vent exo– resolves highly GC-rich sequence substantially better than Thermus aquaticus DNA polymerase (Taq) and with a similar efficiency as Pfu exo–. The DNA/DNA polymerase activity ratio is significantly higher for Vent exo– than for Pfu exo–, which is reflected by the sensibility of Vent exo– in efficiently amplifying genomic DNA. Furthermore, the range of efficiency of Vent exo– demonstrates the importance of conducting evaluative testing to identify the optimal dosage of use of this polymerase to obtain successful PCR amplification. Optimal MgSO4 concentrations to use with Vent exo– were established. Our results show that Vent exo– DNA polymerase produces bands of uniform and strong intensity and can efficiently be used for the analysis of DNA in living cells by ligation-mediated PCR.Key words: Vent exo– DNA polymerase, Pfu exo– DNA polymerase, DNA sequence context, ligation-mediated polymerase chain reaction (PCR), PCR buffer.
Accuracy of replication in the polymerase chain reaction. Comparison between Thermotoga maritima DNA polymerase and Thermus aquaticus DNA polymerase
