Litcius/Paper detail

Flavin Adenine Dinucleotide-Dependent Halogenase XanH and Engineering of Multifunctional Fusion Halogenases

Lingxin Kong, Qing Wang, Zixin Deng, Delin You

2020Applied and Environmental Microbiology16 citationsDOIOpen Access PDF

Abstract

Halogenation is important in medicinal chemistry and plays an essential role in the biosynthesis of active secondary metabolites. Halogenases have evolved to catalyze reactions with high efficiency and selectivity, and engineering efforts have been made to engage the selective reactivity in natural product biosynthesis. The enzymatic halogenations are an environmentally friendly approach with high regio- and stereoselectivity, which make it a potential complement to organic synthesis. FDHs constitute one of the most extensively elucidated class of halogenases; however, the inventory awaits to be expanded for biotechnology applications and for the generation of halogenated natural product analogues. In this study, XanH was found to reduce flavin and halogenated the freely diffusing natural substrate with an angular fused hexacyclic scaffold, findings which were different from those for the exclusively studied FDHs. Moreover, the FDR-XanH fusion protein E1 with comparable reactivity to that of XanH serves as a successful example of genetic fusions and sets an important stage for future protein engineering.

Topics & Concepts

BiosynthesisNatural productHalogenationChemistryReactivity (psychology)Metabolic engineeringFlavin groupProtein engineeringDirected evolutionFlavin adenine dinucleotideBiochemistryStereoselectivityCombinatorial chemistryCofactorEnzymeStereochemistryOrganic chemistryGenePathologyMutantMedicineAlternative medicineCatalysisCarbohydrate Chemistry and SynthesisMicrobial Natural Products and BiosynthesisEnzyme Production and Characterization