- Engineering bacterial cytochrome P450 (P450) BM3 into a prototype with human P450 enzyme activity using indigo formation
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Human cytochrome P450 (P450) enzymes metabolize a variety of endogenous and xenobiotic compounds, including steroids, drugs, and environmental chemicals. In this study, we examine the possibility that bacterial P450 BM3 (CYP102A1) mutants with indole oxidation activity have the catalytic activities of human P450 enzymes. Errorprone polymerase chain reaction was carried out on the heme domain-coding region of the wild-type gene to generate a CYP102A1 DNA library. The library was transformed into Escherichia coli for expression of the P450 mutants. A colorimetric colony-based method was adopted for primary screening of the mutants. When the P450 activities were measured at the whole-cell level, some of the blue colonies, but not the white colonies, possessed apparent oxidation activity toward coumarin and 7-ethoxycoumarin, which are typical human P450 substrates that produce fluorescent products. Coumarin is oxidized by the CYP102A1 mutants to produce two metabolites, 7-hydroxycoumarin and 3-hydroxycoumarin. In addition, 7-ethoxycoumarin is simultaneously oxidized to 7-hydroxycoumarin by O-deethylation reaction and to 3-hydroxy,7-ethoxycoumarin by 3-hydroxylation reactions. Highly active mutants are also able to metabolize several other human P450 substrates, including phenacetin, ethoxyresorufin, and chlorzoxazone. These results indicate that indigo formation provides a simple assay for identifying CYP102A1 mutants with a greater potential for human P450 activity. Furthermore, our computational findings suggest a correlation between the stabilization of the binding site and the catalytic efficiency of CYP102A1 mutants toward coumarin: the more stable the structure in the binding site, the lower the energy barrier and the higher the catalytic efficiency. Copyright
- Park, Sun-Ha,Kim, Dong-Hyun,Dooil, Kim,Kim, Dae-Hwan,Jung, Heung-Chae,Pan, Jae-Gu,Taeho, Ahn,Donghak, Kim,Yun, Chul-Ho
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- Functional and conformational modulation of human cytochrome P450 1B1 by anionic phospholipids
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We investigated the interaction of human P450 1B1 (CYP1B1) with various phospholipid bilayers using the N-terminally deleted (Δ2-4)CYP1B1 and (Δ2-26)CYP1B1 enzymes. Among anionic phospholipids, phosphatidic acid (PA) and cardiolipin specifically increased the catalytic activities, membrane binding affinities, and thermal stabilities of both CYP1B1 proteins when phosphatidylcholine matrix was gradually replaced with these anionic phospholipids. PA- or cardiolipin-dependent changes of CYP1B1 conformation were revealed by altered Trp fluorescence and CD spectra. However, both PA and cardiolipin exerted more significant effects with the (Δ2-4)CYP1B1 than the (Δ2-26)CYP1B1 implying the functional importance of N-terminal region for the interaction with the phospholipid membranes. In contrast, other anionic phospholipids such as phosphatidylserine and the neutral phospholipid phosphatidylethanolamine had no apparent effects on the catalytic activity or conformation of CYP1B1. These data suggest that the chemical and physical properties of membranes influenced by PA or cardiolipin composition are critical for the functional roles of CYP1B1.
- Jang, Hyun-Hee,Kim, Dong-Hyun,Ahn, Taeho,Yun, Chul-Ho
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experimental part
p. 143 - 150
(2010/12/19)
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