Cytochrome P450cin (CYP176A1) D241N: Investigating the role of the conserved acid in the active site of cytochrome P450s

• Published in: Biochimica et biophysica acta. Proteins and proteomics Vol. 1834; no. 3; pp. 688 - 696
• Main Authors: Stok, Jeanette E., Yamada, Sean, Farlow, Anthony J., Slessor, Kate E., De Voss, James J.
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.03.2013
• Subjects: Cineole; Citrobacter braakii; Cytochrome P450; Enzyme mechanism; Enzyme mechanism; Citrobacter braakii; Cytochrome P450; Cineole
• ISSN: 1570-9639; 1878-1454
• DOI: 10.1016/j.bbapap.2012.12.022

P450cin (CYP176A) is a rare bacterial P450 in that contains an asparagine (Asn242) instead of the conserved threonine that almost all other P450s possess that directs oxygen activation by the heme prosthetic group. However, P450cin does have the neighbouring, conserved acid (Asp241) that is thought to be involved indirectly in the protonation of the dioxygen and affect the lifetime of the ferric-peroxo species produced during oxygen activation. In this study, the P450cin D241N mutant has been produced and found to be analogous to the P450cam D251N mutant. P450cin catalyses the hydroxylation of cineole to give only (1R)-6β-hydroxycineole and is well coupled (NADPH consumed: product produced). The P450cin D241N mutant also hydroxylated cineole to produce only (1R)-6β-hydroxycineole, was moderately well coupled (31±3%) but a significant reduction in the rate of the reaction (2% as compared to wild type) was observed. Catalytic oxidation of a variety of substrates by D241N P450cin were used to examine if typical reactions ascribed to the ferric-peroxo species increased as this intermediate is known to be more persistent in the P450cam D251N mutant. However, little change was observed in the product profiles of each of these substrates between wild type and mutant enzymes and no products consistent with chemistry of the ferric-peroxo species were observed to increase. ► P450cin D241N has similar biochemical properties to P450cam D251N. ► D241N is moderately well coupled but oxidises cineole at 2% of wild type rate. ► No ferric-peroxo chemistry was observed with a variety of substrates. ► Products from D241N was the same as for the wildtype with a range of substrates.