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Solvent Tolerance Improvement of Lipases Enhanced Their Applications: State of the Art
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Lipases, crucial catalysts in biochemical synthesis, find extensive applications across industries such as food, medicine, and cosmetics. The efficiency of lipase-catalyzed reactions is significantly influenced by the choice of solvents. Polar organic solvents often result in a decrease, or even loss, of lipase activity. Conversely, nonpolar organic solvents induce excessive rigidity in lipases, thereby affecting their activity. While the advent of new solvents like ionic liquids and deep eutectic solvents has somewhat improved the activity and stability of lipases, it fails to address the fundamental issue of lipases’ poor solvent tolerance. Hence, the rational design of lipases for enhanced solvent tolerance can significantly boost their industrial performance. This review provides a comprehensive summary of the structural characteristics and properties of lipases in various solvent systems and emphasizes various strategies of protein engineering for non-aqueous media to improve lipases’ solvent tolerance. This study provides a theoretical foundation for further enhancing the solvent tolerance and industrial properties of lipases.
Title: Solvent Tolerance Improvement of Lipases Enhanced Their Applications: State of the Art
Description:
Lipases, crucial catalysts in biochemical synthesis, find extensive applications across industries such as food, medicine, and cosmetics.
The efficiency of lipase-catalyzed reactions is significantly influenced by the choice of solvents.
Polar organic solvents often result in a decrease, or even loss, of lipase activity.
Conversely, nonpolar organic solvents induce excessive rigidity in lipases, thereby affecting their activity.
While the advent of new solvents like ionic liquids and deep eutectic solvents has somewhat improved the activity and stability of lipases, it fails to address the fundamental issue of lipases’ poor solvent tolerance.
Hence, the rational design of lipases for enhanced solvent tolerance can significantly boost their industrial performance.
This review provides a comprehensive summary of the structural characteristics and properties of lipases in various solvent systems and emphasizes various strategies of protein engineering for non-aqueous media to improve lipases’ solvent tolerance.
This study provides a theoretical foundation for further enhancing the solvent tolerance and industrial properties of lipases.
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