The structure of CYP109B1 from Bacillus subtilis, which catalyses the oxidation of ionones, has b... more The structure of CYP109B1 from Bacillus subtilis, which catalyses the oxidation of ionones, has been determined. This will allow the future design of more efficient biocatalytic monooxygenase systems.
Protected cyclohexanol and cyclohex-2-enol substrates were efficiently and selectively oxidised b... more Protected cyclohexanol and cyclohex-2-enol substrates were efficiently and selectively oxidised by different P450cam mutants providing a general methodology for generating substituted diols using biocatalysts.
We had reported engineering of the heme monooxygenase cytochrome P450 cam from Pseudomonas putida... more We had reported engineering of the heme monooxygenase cytochrome P450 cam from Pseudomonas putida with the F87W/Y96F/L244A/V247L mutations for the oxidation of pentachlorobenzene (PeCB), a recalcitrant environmental contaminant, to ...
JBIC Journal of Biological Inorganic Chemistry, 2010
CYP199A2 from Rhodopseudomonas palustris CGA009 is a heme monooxygenase that catalyzes the oxidat... more CYP199A2 from Rhodopseudomonas palustris CGA009 is a heme monooxygenase that catalyzes the oxidation of para-substituted benzoic acids. CYP199A2 activity is reconstituted by a class I electron transfer chain consisting of the associated [2Fe-2S] ferredoxin palustrisredoxin (Pux) and a flavoprotein palustrisredoxin reductase (PuR). Another [2Fe-2S] ferredoxin, palustrisredoxin B (PuxB; RPA3956) has been identified in the genome. PuxB shares sequence identity and motifs with vertebrate-type ferredoxins involved in Fe-S cluster assembly but also 50% identity with Pux and it mediates electron transfer from PuR to CYP199A2, albeit with lower steady-state turnover activity: 99 nmol (nmol P450)(-1)min(-1) for 4-methoxybenzoic acid oxidation compared with 1,438 nmol (nmol P450)(-1 )min(-1) for Pux. This difference mainly arises from weak CYP199A2-PuxB binding (K (m) 34.3 vs. 0.45 microM for Pux) rather than slow electron transfer (k (cat) 19.1 vs. 37.9 s(-1) for Pux). Comparison of the 2.0-A-resolution crystal structure of the PuxB A105R mutant with other vertebrate-type, P450-associated ferredoxins revealed similar protein folds but also significant differences in some loop regions. Therefore, PuxB offers a platform for studying ferredoxin-P450 recognition in class I P450 systems. Substitution of PuxB residues at key locations with those in Pux shows that Ala42, Cys43, and Ala44 in the [2Fe-2S] cluster binding loop and Met66 are important in electron transfer from PuxB to CYP199A2, whereas Phe73 and the C-terminal Ala105 were involved in both protein binding and electron transfer.
P450(BM3) (CYP102A1), a fatty acid hydroxylase from Bacillus megaterium, has been extensively stu... more P450(BM3) (CYP102A1), a fatty acid hydroxylase from Bacillus megaterium, has been extensively studied over a period of almost forty years. The enzyme has been redesigned to catalyse the oxidation of non-natural substrates as diverse as pharmaceuticals, terpenes and gaseous alkanes using a variety of engineering strategies. Crystal structures have provided a basis for several of the catalytic effects brought about by mutagenesis, while changes to reduction potentials, inter-domain electron transfer rates and catalytic parameters have yielded functional insights. Areas of active research interest include drug metabolite production, the development of process-scale techniques, unravelling general mechanistic aspects of P450 chemistry, methane oxidation, and improving selectivity control to allow the synthesis of fine chemicals. This review draws together the disparate research themes and places them in a historical context with the aim of creating a resource that can be used as a gateway to the field.
The oxidation of o-xylene by P450(BM3) from Bacillus megaterium yields, in addition to the produc... more The oxidation of o-xylene by P450(BM3) from Bacillus megaterium yields, in addition to the products formed by microsomal P450s, two metabolites containing an NIH-shifted methyl group, one of which lacks the aromatic character of the substrate. The failure of the epoxide precursor of these two products to rearrange to the more stable 2,7-dimethyloxepin suggests that ring opening is P450-mediated. With m-xylene, the principal metabolite is 2,4-dimethylphenol. The partition between aromatic and benzylic hydroxylation is primarily governed by the steric prescriptions of the active site rather than by C-H bond reactivity. It is also substrate-dependent, o- and m-xylene appearing to bind to the enzyme in different orientations. The product distributions given by variants containing the F87A mutation, which creates additional space in the active site, resemble those reported for microsomal systems.
Rhodopseudomonas palustris HaA2 contains a gene, RPB3630, encoding a ferredoxin, HaPuxC, with an ... more Rhodopseudomonas palustris HaA2 contains a gene, RPB3630, encoding a ferredoxin, HaPuxC, with an atypical CXXHXXC(X)nCP iron-sulfur cluster-binding motif. The ferredoxin gene is associated with a cytochrome P450 (CYP) monooxygenase-encoding gene, CYP194A3, an arrangement which is conserved in several strains of bacteria. Similar ferredoxin genes are found in other bacteria, such as Mycobacterium tuberculosis, where they are also associated with CYP genes. The crystal structure of HaPuxC has been solved at 2.3 Å resolution. The overall fold of this [3Fe-4S] cluster-containing ferredoxin is similar to other [3Fe-4S] and [4Fe-4S] species, with the loop around the iron-sulfur cluster more closely resembling those of [3Fe-4S] ferredoxins. The side chain of His17 from the cluster-binding motif in HaPuxC points away from the vacant site of the cluster and interacts with Glu61 and one of the sulfide ions of the cluster. This is the first cytochrome P450 electron-transfer partner of this typ...
Journal of the Chemical Society, Chemical Communications, 1995
Phenylalanine-43 in the haem pocket of human myoglobin has been replaced by tyrosine using site-d... more Phenylalanine-43 in the haem pocket of human myoglobin has been replaced by tyrosine using site-directed mutagenesis: the tyrosine-43 mutant is approximately 25 times more active than the wild-type protein in mediating the oxidation of styrene by hydrogen ...
The cytochrome P450 superfamily of heme monooxygenases catalyse many reactions involved in the bi... more The cytochrome P450 superfamily of heme monooxygenases catalyse many reactions involved in the biosynthesis and degradation of endogenous compounds and in the oxida-tive metabolism of xenobiotics. These enzymes all share the same overall catalytic mechan-ism, and their ...
Oxygenated derivatives of the monoterpene (+)-α-pinene are found in plant essential oils and used... more Oxygenated derivatives of the monoterpene (+)-α-pinene are found in plant essential oils and used as fragrances and flavorings.(+)-α-Pinene is structurally related to (+)-camphor, the natural substrate of the heme monooxygenase cytochrome P450cam from ...
Cytochrome P450 (CYP) enzymes are involved in activating the carcinogenicity of polycyclic aromat... more Cytochrome P450 (CYP) enzymes are involved in activating the carcinogenicity of polycyclic aromatic hydrocarbons (PAHs) in mammals, but they are also utilized by microorganisms for the degradation of these hazardous environmental contaminants. Wild-type CYP102 (P450(BM-3)) from Bacillus megaterium has low activity for the oxidation of the PAHs phenanthrene, fluoranthene and pyrene. The double hydrophobic substitution R47L/Y51F at the entrance of the substrate access channel increased the PAH oxidation activity by up to 40-fold. Combining these mutations with the active site mutations F87A and A264G lead to order of magnitude increases in activity. Both these mutations increased the NADPH turnover rate, but the A264G mutation increased the coupling efficiency while the F87A mutation had dominant effects in product selectivity. Fast NADPH oxidation rates were observed (2250 min-1 for the R47L/Y51F/F87A mutant with phenanthrene) but the coupling efficiencies were relatively low (< 13%), resulting in a highest substrate oxidation rate of 110 min-1 for fluoranthene oxidation by the R47L/Y51F/A264G mutant. Mutation of M354 and L437 inside the substrate access channel reduced PAH oxidation activity. The PAHs were oxidized to a mixture of phenols and quinones. Notably mutants containing the A264G mutation showed some similarity to mammalian CYP enzymes in that some 9,10-phenanthrenequinone, the K-region oxidation product from phenanthrene, was formed. The results suggest that CYP102 mutants could be useful models for PAH oxidation by mammalian CYP enzymes, and also potentially for the preparation of novel PAH bioremediation systems.
The structure of CYP109B1 from Bacillus subtilis, which catalyses the oxidation of ionones, has b... more The structure of CYP109B1 from Bacillus subtilis, which catalyses the oxidation of ionones, has been determined. This will allow the future design of more efficient biocatalytic monooxygenase systems.
Protected cyclohexanol and cyclohex-2-enol substrates were efficiently and selectively oxidised b... more Protected cyclohexanol and cyclohex-2-enol substrates were efficiently and selectively oxidised by different P450cam mutants providing a general methodology for generating substituted diols using biocatalysts.
We had reported engineering of the heme monooxygenase cytochrome P450 cam from Pseudomonas putida... more We had reported engineering of the heme monooxygenase cytochrome P450 cam from Pseudomonas putida with the F87W/Y96F/L244A/V247L mutations for the oxidation of pentachlorobenzene (PeCB), a recalcitrant environmental contaminant, to ...
JBIC Journal of Biological Inorganic Chemistry, 2010
CYP199A2 from Rhodopseudomonas palustris CGA009 is a heme monooxygenase that catalyzes the oxidat... more CYP199A2 from Rhodopseudomonas palustris CGA009 is a heme monooxygenase that catalyzes the oxidation of para-substituted benzoic acids. CYP199A2 activity is reconstituted by a class I electron transfer chain consisting of the associated [2Fe-2S] ferredoxin palustrisredoxin (Pux) and a flavoprotein palustrisredoxin reductase (PuR). Another [2Fe-2S] ferredoxin, palustrisredoxin B (PuxB; RPA3956) has been identified in the genome. PuxB shares sequence identity and motifs with vertebrate-type ferredoxins involved in Fe-S cluster assembly but also 50% identity with Pux and it mediates electron transfer from PuR to CYP199A2, albeit with lower steady-state turnover activity: 99 nmol (nmol P450)(-1)min(-1) for 4-methoxybenzoic acid oxidation compared with 1,438 nmol (nmol P450)(-1 )min(-1) for Pux. This difference mainly arises from weak CYP199A2-PuxB binding (K (m) 34.3 vs. 0.45 microM for Pux) rather than slow electron transfer (k (cat) 19.1 vs. 37.9 s(-1) for Pux). Comparison of the 2.0-A-resolution crystal structure of the PuxB A105R mutant with other vertebrate-type, P450-associated ferredoxins revealed similar protein folds but also significant differences in some loop regions. Therefore, PuxB offers a platform for studying ferredoxin-P450 recognition in class I P450 systems. Substitution of PuxB residues at key locations with those in Pux shows that Ala42, Cys43, and Ala44 in the [2Fe-2S] cluster binding loop and Met66 are important in electron transfer from PuxB to CYP199A2, whereas Phe73 and the C-terminal Ala105 were involved in both protein binding and electron transfer.
P450(BM3) (CYP102A1), a fatty acid hydroxylase from Bacillus megaterium, has been extensively stu... more P450(BM3) (CYP102A1), a fatty acid hydroxylase from Bacillus megaterium, has been extensively studied over a period of almost forty years. The enzyme has been redesigned to catalyse the oxidation of non-natural substrates as diverse as pharmaceuticals, terpenes and gaseous alkanes using a variety of engineering strategies. Crystal structures have provided a basis for several of the catalytic effects brought about by mutagenesis, while changes to reduction potentials, inter-domain electron transfer rates and catalytic parameters have yielded functional insights. Areas of active research interest include drug metabolite production, the development of process-scale techniques, unravelling general mechanistic aspects of P450 chemistry, methane oxidation, and improving selectivity control to allow the synthesis of fine chemicals. This review draws together the disparate research themes and places them in a historical context with the aim of creating a resource that can be used as a gateway to the field.
The oxidation of o-xylene by P450(BM3) from Bacillus megaterium yields, in addition to the produc... more The oxidation of o-xylene by P450(BM3) from Bacillus megaterium yields, in addition to the products formed by microsomal P450s, two metabolites containing an NIH-shifted methyl group, one of which lacks the aromatic character of the substrate. The failure of the epoxide precursor of these two products to rearrange to the more stable 2,7-dimethyloxepin suggests that ring opening is P450-mediated. With m-xylene, the principal metabolite is 2,4-dimethylphenol. The partition between aromatic and benzylic hydroxylation is primarily governed by the steric prescriptions of the active site rather than by C-H bond reactivity. It is also substrate-dependent, o- and m-xylene appearing to bind to the enzyme in different orientations. The product distributions given by variants containing the F87A mutation, which creates additional space in the active site, resemble those reported for microsomal systems.
Rhodopseudomonas palustris HaA2 contains a gene, RPB3630, encoding a ferredoxin, HaPuxC, with an ... more Rhodopseudomonas palustris HaA2 contains a gene, RPB3630, encoding a ferredoxin, HaPuxC, with an atypical CXXHXXC(X)nCP iron-sulfur cluster-binding motif. The ferredoxin gene is associated with a cytochrome P450 (CYP) monooxygenase-encoding gene, CYP194A3, an arrangement which is conserved in several strains of bacteria. Similar ferredoxin genes are found in other bacteria, such as Mycobacterium tuberculosis, where they are also associated with CYP genes. The crystal structure of HaPuxC has been solved at 2.3 Å resolution. The overall fold of this [3Fe-4S] cluster-containing ferredoxin is similar to other [3Fe-4S] and [4Fe-4S] species, with the loop around the iron-sulfur cluster more closely resembling those of [3Fe-4S] ferredoxins. The side chain of His17 from the cluster-binding motif in HaPuxC points away from the vacant site of the cluster and interacts with Glu61 and one of the sulfide ions of the cluster. This is the first cytochrome P450 electron-transfer partner of this typ...
Journal of the Chemical Society, Chemical Communications, 1995
Phenylalanine-43 in the haem pocket of human myoglobin has been replaced by tyrosine using site-d... more Phenylalanine-43 in the haem pocket of human myoglobin has been replaced by tyrosine using site-directed mutagenesis: the tyrosine-43 mutant is approximately 25 times more active than the wild-type protein in mediating the oxidation of styrene by hydrogen ...
The cytochrome P450 superfamily of heme monooxygenases catalyse many reactions involved in the bi... more The cytochrome P450 superfamily of heme monooxygenases catalyse many reactions involved in the biosynthesis and degradation of endogenous compounds and in the oxida-tive metabolism of xenobiotics. These enzymes all share the same overall catalytic mechan-ism, and their ...
Oxygenated derivatives of the monoterpene (+)-α-pinene are found in plant essential oils and used... more Oxygenated derivatives of the monoterpene (+)-α-pinene are found in plant essential oils and used as fragrances and flavorings.(+)-α-Pinene is structurally related to (+)-camphor, the natural substrate of the heme monooxygenase cytochrome P450cam from ...
Cytochrome P450 (CYP) enzymes are involved in activating the carcinogenicity of polycyclic aromat... more Cytochrome P450 (CYP) enzymes are involved in activating the carcinogenicity of polycyclic aromatic hydrocarbons (PAHs) in mammals, but they are also utilized by microorganisms for the degradation of these hazardous environmental contaminants. Wild-type CYP102 (P450(BM-3)) from Bacillus megaterium has low activity for the oxidation of the PAHs phenanthrene, fluoranthene and pyrene. The double hydrophobic substitution R47L/Y51F at the entrance of the substrate access channel increased the PAH oxidation activity by up to 40-fold. Combining these mutations with the active site mutations F87A and A264G lead to order of magnitude increases in activity. Both these mutations increased the NADPH turnover rate, but the A264G mutation increased the coupling efficiency while the F87A mutation had dominant effects in product selectivity. Fast NADPH oxidation rates were observed (2250 min-1 for the R47L/Y51F/F87A mutant with phenanthrene) but the coupling efficiencies were relatively low (< 13%), resulting in a highest substrate oxidation rate of 110 min-1 for fluoranthene oxidation by the R47L/Y51F/A264G mutant. Mutation of M354 and L437 inside the substrate access channel reduced PAH oxidation activity. The PAHs were oxidized to a mixture of phenols and quinones. Notably mutants containing the A264G mutation showed some similarity to mammalian CYP enzymes in that some 9,10-phenanthrenequinone, the K-region oxidation product from phenanthrene, was formed. The results suggest that CYP102 mutants could be useful models for PAH oxidation by mammalian CYP enzymes, and also potentially for the preparation of novel PAH bioremediation systems.
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