Affiliation:
1. grid.31501.36 0000000404705905 School of Chemical and Biological Engineering Seoul National University 151-742 Seoul Korea
2. grid.31501.36 0000000404705905 Graduate Program of Bioengineering Seoul National University 151-742 Seoul Korea
3. grid.31501.36 0000000404705905 Bio-Max Institute Seoul National University 151-742 Seoul Korea
Abstract
Abstract
Enzyme thermostabilization is a critical research topic due to potential industrial benefits. Among the various reasons to increase enzyme thermostability, enhancement of residual packing at the core of the enzyme structure has been commonly accepted as a successful strategy. However, structural changes that occur with residual packing enhancement may decrease enzyme activity. In this study, a strategy to minimize structural deformation by calculating the overlapping packing volume of a single-point mutation followed by applying a double-point mutation was suggested. Four double mutants, A38V_K23A, A75V_T83A, G80A_N106A, and G172A_V100A, were selected for the in vitro experiment; three of the four showed enhancements in both thermostability and catalytic activity. In particular, G80A_N106A showed 2.78 times higher catalytic activity compared with wild type.
Publisher
Oxford University Press (OUP)
Subject
Applied Microbiology and Biotechnology,Biotechnology,Bioengineering
Cited by
9 articles.
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