Multidisciplinary approaches for enzyme biocatalysis in pharmaceuticals: protein engineering, computational biology, and nanoarchitectonics

Suhyeon Kim; Seongmin Ga; Hayeon Bae; Ronald Sluyter; Konstantin Konstantinov; Lok Kumar Shrestha; Yong Ho Kim; Jung Ho Kim; Katsuhiko Ariga

doi:10.1039/d3ey00239j

Article Multidisciplinary approaches for enzyme biocatalysis in pharmaceuticals: protein engineering, computational biology, and nanoarchitectonics

Suhyeon Kim ; Seongmin Ga ; Hayeon Bae ; Ronald Sluyter ; Konstantin Konstantinov ; Lok Kumar Shrestha (National Institute for Materials Science) ; Yong Ho Kim ; Jung Ho Kim ; Katsuhiko Ariga (National Institute for Materials Science)

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Suhyeon Kim, Seongmin Ga, Hayeon Bae, Ronald Sluyter, Konstantin Konstantinov, Lok Kumar Shrestha, Yong Ho Kim, Jung Ho Kim, Katsuhiko Ariga. Multidisciplinary approaches for enzyme biocatalysis in pharmaceuticals: protein engineering, computational biology, and nanoarchitectonics. EES Catalysis. 2023, 2 (1), 14-48. https://doi.org/10.1039/d3ey00239j

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(abstract)

Enzyme biocatalysis is reshaping pharmaceutical synthesis, offering sustainable and efficient pathways for drug discovery and production. This paradigm shift towards eco-friendly methodologies addresses concerns inherent in traditional chemical synthesis. Enzymes, celebrated for their precision and adaptability to mild conditions, are poised as ideal candidates for pharmaceutical applications. Their versatility facilitates the synthesis of diverse pharmaceutical compounds, ensuring precise drug design and minimizing environmental impact. The integration of multidisciplinary approaches, including protein engineering, computational biology, and nanoarchitectonics, holds the potential to propel enzyme biocatalysis even further. Protein engineering utilizes directed evolution and rational design to customize enzymes, enhancing their stability and efficacy.

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https://creativecommons.org/licenses/by-nc/3.0/legalcode

Keyword: enzyme, biocatalysis, protein

Date published: 2023-10-28

Publisher: Royal Society of Chemistry (RSC)

Journal:

EES Catalysis (ISSN: 2753801X) vol. 2 issue. 1 p. 14-48

Funding:

National Research Foundation of Korea 023R1A2C3005731
National Research Foundation of Korea 2021R1A4A1033424

Manuscript type: Publisher's version (Version of record)

MDR DOI:

First published URL: https://doi.org/10.1039/d3ey00239j

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Updated at: 2024-01-18 16:57:46 +0900

Published on MDR: 2024-01-19 08:30:14 +0900

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