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Computational redesign of enzymes for regio- and enantioselective hydroamination

Li, R., Wijma, H. J., Song, L., Cui, Y., Otzen, M., Tian, Y., Du, J., Li, T., Niu, D., Chen, Y., Feng, J., Han, J., Chen, H., Tao, Y., Janssen, D. B. & Wu, B., 21-May-2018, In : Nature Chemical Biology. 14, p. 664-670

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  • Computational redesign of enzymes for regio- and enantioselective hydroamination

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Introduction of innovative biocatalytic processes offers great promise for applications in green chemistry. However, owing to limited catalytic performance, the enzymes harvested from nature's biodiversity often need to be improved for their desired functions by time-consuming iterative rounds of laboratory evolution. Here we describe the use of structure-based computational enzyme design to convert Bacillus sp. YM55-1 aspartase, an enzyme with a very narrow substrate scope, to a set of complementary hydroamination biocatalysts. The redesigned enzymes catalyze asymmetric addition of ammonia to substituted acrylates, affording enantiopure aliphatic, polar and aromatic β-amino acids that are valuable building blocks for the synthesis of pharmaceuticals and bioactive compounds. Without a requirement for further optimization by laboratory evolution, the redesigned enzymes exhibit substrate tolerance up to a concentration of 300 g/L, conversion up to 99%, β-regioselectivity >99% and product enantiomeric excess >99%. The results highlight the use of computational design to rapidly adapt an enzyme to industrially viable reactions.

Original languageEnglish
Pages (from-to)664-670
JournalNature Chemical Biology
Volume14
Early online date2018
Publication statusPublished - 21-May-2018
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