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Single Residue Substitution at N-Terminal Affects Temperature Stability and Activity of L2 Lipase.


ABSTRACT: Rational design is widely employed in protein engineering to tailor wild-type enzymes for industrial applications. The typical target region for mutation is a functional region like the catalytic site to improve stability and activity. However, few have explored the role of other regions which, in principle, have no evident functionality such as the N-terminal region. In this study, stability prediction software was used to identify the critical point in the non-functional N-terminal region of L2 lipase and the effects of the substitution towards temperature stability and activity were determined. The results showed 3 mutant lipases: A8V, A8P and A8E with 29% better thermostability, 4 h increase in half-life and 6.6 °C higher thermal denaturation point, respectively. A8V showed 1.6-fold enhancement in activity compared to wild-type. To conclude, the improvement in temperature stability upon substitution showed that the N-terminal region plays a role in temperature stability and activity of L2 lipase.

SUBMITTER: Bukhari N 

PROVIDER: S-EPMC7435863 | biostudies-literature | 2020 Jul

REPOSITORIES: biostudies-literature

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Single Residue Substitution at <i>N</i>-Terminal Affects Temperature Stability and Activity of L2 Lipase.

Bukhari Noramirah N   Leow Adam Thean Chor ATC   Abd Rahman Raja Noor Zaliha Raja RNZR   Mohd Shariff Fairolniza F  

Molecules (Basel, Switzerland) 20200728 15


Rational design is widely employed in protein engineering to tailor wild-type enzymes for industrial applications. The typical target region for mutation is a functional region like the catalytic site to improve stability and activity. However, few have explored the role of other regions which, in principle, have no evident functionality such as the <i>N</i>-terminal region. In this study, stability prediction software was used to identify the critical point in the non-functional <i>N</i>-termin  ...[more]

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