期刊
FRONTIERS IN CHEMISTRY
卷 9, 期 -, 页码 -出版社
FRONTIERS MEDIA SA
DOI: 10.3389/fchem.2021.664156
关键词
amine transaminase; thermostability; enzyme thermal stability system; site-directed mutagenesis; molecular dynamics simulations
资金
- National Natural Science Foundation of China [32071268, 31971372, 31670804]
- Zhejiang Natural Science Foundation [LQ18B060002, LZ13B060002, LY16B060008]
- Ningbo Science and Technology Innovation 2025 Major Project [2020YZCXYD180178]
By introducing point mutations, the thermal stability of (R)-selective amine transaminase was improved, resulting in increased half-life at 40 degrees Celsius. Molecular dynamics simulations elucidated the mechanism behind these mutations, showcasing their impact on protein rigidity and stability.
Transaminases that promote the amination of ketones into amines are an emerging class of biocatalysts for preparing a series of drugs and their intermediates. One of the main limitations of (R)-selective amine transaminase from Aspergillus terreus (At-ATA) is its weak thermostability, with a half-life (t(1/2)) of only 6.9 min at 40 degrees C. To improve its thermostability, four important residue sites (E133, D224, E253, and E262) located on the surface of At-ATA were identified using the enzyme thermal stability system (ETSS). Subsequently, 13 mutants (E133A, E133H, E133K, E133R, E133Q, D224A, D224H, D224K, D224R, E253A, E253H, E253K, and E262A) were constructed by site-directed mutagenesis according to the principle of turning the residues into opposite charged ones. Among them, three substitutions, E133Q, D224K, and E253A, displayed higher thermal stability than the wild-type enzyme. Molecular dynamics simulations indicated that these three mutations limited the random vibration amplitude in the two alpha-helix regions of 130-135 and 148-158, thereby increasing the rigidity of the protein. Compared to the wild-type, the best mutant, D224K, showed improved thermostability with a 4.23-fold increase in t(1/2) at 40 degrees C, and 6.08 degrees C increase in T5010. Exploring the three-dimensional structure of D224K at the atomic level, three strong hydrogen bonds were added to form a special claw structure of the alpha-helix 8, and the residues located at 151-156 also stabilized the alpha-helix 9 by interacting with each other alternately.
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