Twa DNA polymerase from hyperthermophilic archaeon Thermococcus waiotapuensis has exceedingly high fidelity among family B DNA polymerases. However, Twa DNA polymerase has significant shortcomings in terms of a low extension rate and poor processivity. To resolve these weaknesses, we focused on two amino acid residues (N565 and H633) in the palm and thumb subdomains of the Twa DNA polymerase. These two residues were replaced by site-directed mutagenesis and the enzymatic properties of the mutants were analyzed. Here, Twa H633R DNA polymerase showed significantly improved polymerase function compared to wild-type Twa DNA polymerase in terms of processivity (2-fold), extension rate (1.5-fold) and PCR efficiency. Kinetic analysis using DNA as a template revealed that the k(cat) value of the Twa H633R mutant was similar to that of wild-type, but the K-m of the Twa H633R mutant was about 1.6-fold lower than that of the wild-type. These results showed that the Arg residue substitution at H633 located in the thumb subdomain has a positive effect on processivity, extension rate and PCR efficiency, suggesting that the Twa H633R mutant allows a conformational change for easy access of the primer-template to the binding site of the polymerase domain. (C) 2014 Elsevier Inc. All rights reserved.