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W3005600800 abstract "Abstract The hydrolysis of extremely stable peptide and phosphoester bonds by metalloenzymes is of great interest in biotechnology and industry. However, due to various shortcomings only a handful of these enzymes have been used for industrial applications. Therefore, in the last two decades intensive scientific efforts have been made in rational development of small molecules to imitate the activities of natural enzymes. Despite these efforts, their currently available synthetic analogues are inferior in terms of selectivity, catalytic rate, and turnover and the designing of efficient artificial metalloenzymes remains a distant goal. This is a challenging area of research that necessitates a rigorous integration between experiments and theory. The realization of this goal requires knowledge of the catalytic activities of both enzymes and their existing analogues and an effective fusion of that knowledge. This article reviews several studies in which a plethora of computational techniques have been successfully employed to investigate the functioning of two chemically promiscuous mono‐ and binuclear metalloenzymes (insulin degrading enzyme and glycerophosphodiesterase) and two synthetic analogues. These studies will help us derive fundamental principles of peptide and phosphoester hydrolysis and pave the way to design efficient small molecule catalysts for these reactions. This article is categorized under: Structure and Mechanism > Reaction Mechanisms and Catalysis" @default.
W3005600800 created "2020-02-24" @default.
W3005600800 creator A5010217716 @default.
W3005600800 creator A5021010122 @default.
W3005600800 creator A5031493178 @default.
W3005600800 creator A5047512134 @default.
W3005600800 creator A5048504490 @default.
W3005600800 creator A5087438731 @default.
W3005600800 date "2020-02-11" @default.
W3005600800 modified "2023-10-18" @default.
W3005600800 title "Mechanisms of peptide and phosphoester hydrolysis catalyzed by two promiscuous metalloenzymes (insulin degrading enzyme and glycerophosphodiesterase) and their synthetic analogues" @default.
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