The NADH-dependent reductase of a putative multicomponent tetrahydrofuran mono-oxygenase contains a covalently bound FAD.

NADH-cytochrome c oxidoreductase activity specifically expressed during growth on tetrahydrofuran was detected in cell extracts of Pseudonocardia sp. strain K1. The enzyme catalyzing this reaction was purified to apparent homogeneity by a three-step purification procedure. It was characterized as a monomer of apparent molecular mass 40 kDa. Spectroscopic studies indicated that it contains an iron-sulfur cluster and a flavin cofactor. An amount of 1 mol of flavin and 1 mol of iron was determined per mol of homogeneous protein. The N-terminal amino-acid sequence exhibited great similarity to the reductase component of various oxygenases. Cloning and sequencing of the corresponding gene designated as thmD revealed an ORF encoding a protein of 360 amino acids. An overall similarity of up to 38% was obtained to the NAD(P)H-acceptor reductase of several binuclear iron-containing mono-oxygenases. Conserved sequence motifs were identified that were similar to the chloroplast-type ferredoxin 2Fe-2S centre and to nucleotide-binding domains. Studies on the flavin cofactor showed that it could not be removed from the protein by denaturation, indicating a covalent attachment. Spectroscopic studies revealed that the flavin is at the FAD level and covalently bound to the protein via the flavin 8alpha-methyl group. Thus, the isolated reductase component is the first enzyme of this type for which a covalent attachment of the flavin has been observed.