Exploring the Catalytic Promiscuity of Phenolic Acid Decarboxylases: Asymmetric, 1,6‐Conjugate Addition of Nucleophiles Across 4‐Hydroxystyrene

Exploring the Catalytic Promiscuity of Phenolic Acid Decarboxylases: Asymmetric, 1,6‐Conjugate Addition of Nucleophiles Across 4‐Hydroxystyrene

The catalytic promiscuity of a ferulic acid decarboxylase from Enterobacter sp. (FDC_Es) and phenolic acid decarboxylases (PADs) for the asymmetric conjugate addition of water across the C=C bond of hydroxystyrenes was extended to the N‐, C‐ and S‐nucleophiles methoxyamine, cyanide and propanethiol...

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Veröffentlicht in:Advanced synthesis & catalysis 2017-06, Vol.359 (12), p.2066-2075
Hauptverfasser: Payer, Stefan E., Sheng, Xiang, Pollak, Hannah, Wuensch, Christiane, Steinkellner, Georg, Himo, Fahmi, Glueck, Silvia M., Faber, Kurt
Format: Artikel
Sprache:eng
Schlagworte:
Asymmetry
biocatalysis
Biotransformation
Catalysis
catalytic promiscuity
Cyanides
decarboxylase
Ferulic acid
hydration
hydroxystyrene
nucleophile addition
Nucleophiles
Phenolic acids
Quantum mechanics
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Zusammenfassung:The catalytic promiscuity of a ferulic acid decarboxylase from Enterobacter sp. (FDC_Es) and phenolic acid decarboxylases (PADs) for the asymmetric conjugate addition of water across the C=C bond of hydroxystyrenes was extended to the N‐, C‐ and S‐nucleophiles methoxyamine, cyanide and propanethiol to furnish the corresponding addition products in up to 91% ee. The products obtained from the biotransformation employing the most suitable enzyme/nucleophile pairs were isolated and characterized after optimizing the reaction conditions. Finally, a mechanistic rationale supported by quantum mechanical calculations for the highly (S)‐selective addition of cyanide is proposed.
ISSN:1615-4150
1615-4169
1615-4169
DOI:10.1002/adsc.201700247