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Expanding the Substrate Scope of Nitrating Cytochrome P450 TxtE by Active Site Engineering of a Reductase Fusion

Rakesh Saroay, Gheorghe‐Doru Roiban, Lona M. Alkhalaf, Gregory L. Challis

2021ChemBioChem22 citationsDOIOpen Access PDF

Abstract

Abstract Aromatic nitration reactions are a cornerstone of organic chemistry, but are challenging to scale due to corrosive reagents and elevated temperatures. The cytochrome P450 TxtE nitrates the indole 4‐position of l ‐tryptophan at room temperature using NO, O 2 and NADPH, and has potential to be developed into a useful aromatic nitration biocatalyst. However, its narrow substrate scope (requiring both the α‐amino acid and indole functionalities) have hindered this. Screening of an R59 mutant library of a TxtE‐reductase fusion protein identified a variant (R59C) that nitrates tryptamine, which is not accepted by native TxtE. This variant exhibits a broader substrate scope than the wild type enzyme and is able to nitrate a range of tryptamine analogues, with significant alterations to the aromatic and aminoethyl moieties.

Topics & Concepts

NitrationIndole testChemistryBiocatalysisTryptamineSubstrate (aquarium)TryptophanProtein engineeringReductaseNitrate reductaseActive siteStereochemistryCytochrome P450Combinatorial chemistryHydroxylationBiochemistryAmino acidEnzymeOrganic chemistryReaction mechanismBiologyCatalysisEcologyPharmacogenetics and Drug MetabolismSynthesis and Catalytic ReactionsChemical Reactions and Isotopes
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