Effect of Y50H and S187G substitutions on thermostability and exonuclease activity of TK1646 from Thermococcus kodakarensis.

TK1646 is a highly thermostable single strand specific 3'-5' exonuclease. Exonucleases play important role in maintaining the genome integrity at elevated temperatures. Therefore, it is important to examine the factors contributing to thermostability of these exonucleases. In this study we report on production, purification and characterization of S187G and Y50H mutants of TK1646, focusing on the factors leading to thermostability of TK1646. Characterization of the recombinant proteins indicated that these substitutions did not drastically affect the catalysis of single stranded DNA. However, both of these substitutions reduced the thermostability of the recombinant proteins. Half-lives of Y50H and S187G mutants were 95 and 155 min, respectively, at 100 °C in comparison to 180 min of the wild type. Bioinformatics analysis indicated an increase in solvent accessibility of the mutated residues and disruption of hydrogens bonds. Molecular modelling and superimposition of the 3D structures of the mutants and the wild type demonstrated that one of the active site residues, Glu145, was shifted away from the metal ion in both the mutants which may be responsible for the decrease in catalytic activity. Compact secondary structure, hydrophobicity and hydrogen bonding might be the major factors contributing to the thermostability of TK1646.

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