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Improving the Stability of Cold-Adapted Enzymes by Immobilization
2017
Catalysts
Cold-adapted enzymes have gained considerable attention as biocatalysts that show high catalytic activity at low temperatures. However, the use of cold-adapted enzymes at ambient temperatures has been hindered by their low thermal stabilities caused by their inherent structural flexibilities. Accordingly, protein engineering and immobilization have been employed to improve the thermal stability of cold-adapted enzymes. Immobilization has been shown to increase the thermal stability of
doi:10.3390/catal7040112
fatcat:x4gtbsqv5jevxaxkscxn7jihbu