Haloalkane dehalogenases and epoxide hydrolases are phylogenetically related and structurally homologous enzymes that use nucleophilic aspartate residues for an SN2 attack on their substrates. Despite their mechanistic similarities, no enzymes are known that exhibit both epoxide hydrolase and dehalogenase activity. We screened a subset of epoxide hydrolases, closely related to dehalogenases, for dehalogenase activity and found that the epoxide hydrolase CorEH from Corynebacterium sp. C12 exhibits promiscuous dehalogenase activity. Compared to the hydrolysis of epoxides like cyclohexene oxide (1.41 micromol min-1 mg-1), the dehalogenation of haloalkanes like 1-bromobutane (0.25 nmol min-1 mg-1) is about 5000-fold lower. In addition to the activity with 1-bromobutane, dehalogenase activity was detected with other substrates like 1-bromohexane, 1,2-dibromoethane, 1-iodobutane, and 1-iodohexane. This study shows that dual epoxide hydrolase and dehalogenase activity can be present in one naturally occurring protein scaffold.
        
Representative scheme of CFTR-inhibitory-factor_Cif structure and an image from PDBsum server
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7AC0 Previously Class, Architecture, Topology and Homologous superfamily - PDB-Sum server
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7AC0Fold classification based on Structure-Structure alignment of Proteins - FSSP server