Biocatalytic Aromaticity-Breaking Epoxidation of Naphthalene and Nucleophilic Ring-Opening Reactions

Authors :: Zhang, W. (author)
Li, Huanhuan (author)
Younes, S.H.H. (author)
Gómez De Santos, Patricia (author)
Tieves, F. (author)
Grogan, Gideon (author)
Pabst, M. (author)
Alcalde, Miguel (author)
Whitwood, Adrian C. (author)
Hollmann, F. (author)
Zhang, W. (author)
Li, Huanhuan (author)
Younes, S.H.H. (author)
Gómez De Santos, Patricia (author)
Tieves, F. (author)
Grogan, Gideon (author)
Pabst, M. (author)
Alcalde, Miguel (author)
Whitwood, Adrian C. (author)
Hollmann, F. (author)
Publication Year :: 2021
Abstract: Aromatic hydroxylation reactions catalyzed by heme-thiolate enzymes proceed via an epoxide intermediate. These aromatic epoxides could be valuable building blocks for organic synthesis giving access to a range of chiral trans-disubstituted cyclohexadiene synthons. Here, we show that naphthalene epoxides generated by fungal peroxygenases can be subjected to nucleophilic ring opening, yielding non-racemic trans-disubstituted cyclohexadiene derivates, which in turn can be used for further chemical transformations. This approach may represent a promising shortcut for the synthesis of natural products and APIs.<br />BT/Biocatalysis<br />BT/Environmental Biotechnology

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