Abstract
The ferredoxin reductase FdR9 from Thermobifida fusca, a member of the oxygenase-coupled NADH-dependent ferredoxin reductase (FNR) family, catalyses electron transfer from NADH to its physiological electron acceptor ferredoxin. It forms part of a putative three-component cytochrome P450 monooxygenase system in T. fusca comprising CYP222A1 and the [3Fe-4S]-cluster ferredoxin Fdx8 as well as FdR9. Here, FdR9 was overexpressed and purified and its crystal structure was determined at 1.9 Å resolution. The overall structure of FdR9 is similar to those of other members of the FNR family and is composed of an FAD-binding domain, an NAD-binding domain and a C-terminal domain. Activity measurements with FdR9 confirmed a strong preference for NADH as the cofactor. Comparison of the FAD- and NAD-binding domains of FdR9 with those of other ferredoxin reductases revealed the presence of conserved sequence motifs in the FAD-binding domain as well as several highly conserved residues involved in FAD and NAD cofactor binding. Moreover, the NAD-binding site of FdR9 contains a modified Rossmann-fold motif, GxSxxS, instead of the classical GxGxxG motif.
Highlights
Ferredoxin reductases (FdRs) are essential components of the electron-transfer chains of three-component cytochrome P450 monooxygenases (Hannemann et al, 2007)
Comparison of the FAD- and NADbinding domains of FdR9 with those of other ferredoxin reductases revealed the presence of conserved sequence motifs in the FAD-binding domain as well as several highly conserved residues involved in FAD and NAD cofactor binding
FdR9 from the actinobacterium Thermobifida fusca belongs to the oxygenasecoupled NADH-dependent ferredoxin reductase family of FAD-dependent electron-transfer enzymes [ferredoxinNAD(P)H reductases; EC 1.18.1.3] (Vorphal et al, 2017)
Summary
Ferredoxin reductases (FdRs) are essential components of the electron-transfer chains of three-component cytochrome P450 monooxygenases (Hannemann et al, 2007). FdR9 from the actinobacterium Thermobifida fusca belongs to the oxygenasecoupled NADH-dependent ferredoxin reductase family of FAD-dependent electron-transfer enzymes [ferredoxinNAD(P)H reductases; EC 1.18.1.3] (Vorphal et al, 2017). It mediates the transfer of two electrons from NADH to an iron– sulfur cluster-containing ferredoxin via two successive oneelectron transfer steps (Medina & Gomez-Moreno, 2004). In the genome of T. fusca (Lykidis et al, 2007), the gene coding for FdR9 (Tfu_1273) lies adjacent to the genes encoding CYP222A1 (Tfu_1274) and a putative [3Fe–4S]-cluster ferredoxin named Fdx (Tfu_1275). We report the heterologous production, purification, crystallization and structure determination of FdR9, one of
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