Regioselective Oxidation of Lauric Acid by CYP119, an Orphan Cytochrome P450 from Sulfolobus acidocaldarius
Archaebacteria Sulfolobus acidocaldarius contains the highly thermophilic cytochrome P450 enzyme (CYP119). CYP119 possesses stable enzymatic activity at up to 85 degrees C. However, this enzyme is still considered as an orphan P450 without known physiological function with endogenous or xenobiotic s...
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| Published in | Journal of microbiology and biotechnology Vol. 20; no. 3; pp. 574 - 578 |
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| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Seoul
Korean Society for Applied Microbiology
01.03.2010
한국미생물·생명공학회 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1017-7825 |
| DOI | 10.4014/jmb.0909.09007 |
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| Abstract | Archaebacteria Sulfolobus acidocaldarius contains the highly thermophilic cytochrome P450 enzyme (CYP119). CYP119 possesses stable enzymatic activity at up to 85 degrees C. However, this enzyme is still considered as an orphan P450 without known physiological function with endogenous or xenobiotic substrates. We characterized the regioselectivity of lauric acid by CYP119 using the auxiliary redox partner proteins putidaredoxin (Pd) and putidaredoxin reductase (PdR). Purified CYP119 protein showed a tight binding affinity to lauric acid (K(d)=1.1+/-0.1 microM) and dominantly hydroxylated (omega-1) position of lauric acid. We determined the steady-state kinetic parameters; k(cat) was 10.8 min(-1) and K(m) was 12 microM. The increased ratio to omega-hydroxylated production of lauric acid catalyzed by CYP119 was observed with increase in the reaction temperature. These studies suggested that the regioselectivity of CYP119 provide the critical clue for the physiological enzyme function in this thermophilic archaebacteria. In addition, regioselectivity control of CYP119 without altering its thermostability can lead to the development of novel CYP119-based catalysts through protein engineering. |
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| AbstractList | Archaebacteria Sulfolobus acidocaldarius contains the highly thermophilic cytochrome P450 enzyme (CYP119). CYP119 possesses stable enzymatic activity at up to 85 degrees C. However, this enzyme is still considered as an orphan P450 without known physiological function with endogenous or xenobiotic substrates. We characterized the regioselectivity of lauric acid by CYP119 using the auxiliary redox partner proteins putidaredoxin (Pd) and putidaredoxin reductase (PdR). Purified CYP119 protein showed a tight binding affinity to lauric acid (K(d)=1.1+/-0.1 microM) and dominantly hydroxylated (omega-1) position of lauric acid. We determined the steady-state kinetic parameters; k(cat) was 10.8 min(-1) and K(m) was 12 microM. The increased ratio to omega-hydroxylated production of lauric acid catalyzed by CYP119 was observed with increase in the reaction temperature. These studies suggested that the regioselectivity of CYP119 provide the critical clue for the physiological enzyme function in this thermophilic archaebacteria. In addition, regioselectivity control of CYP119 without altering its thermostability can lead to the development of novel CYP119-based catalysts through protein engineering. Archaebacteria Sulfolobus acidocaldarius contains the highly thermophilic cytochrome P450 enzyme (CYP119). CYP119 possesses stable enzymatic activity at up to 85 degrees C. However, this enzyme is still considered as an orphan P450 without known physiological function with endogenous or xenobiotic substrates. We characterized the regioselectivity of lauric acid by CYP119 using the auxiliary redox partner proteins putidaredoxin (Pd) and putidaredoxin reductase (PdR). Purified CYP119 protein showed a tight binding affinity to lauric acid (K(d)=1.1+/-0.1 microM) and dominantly hydroxylated (omega-1) position of lauric acid. We determined the steady-state kinetic parameters; k(cat) was 10.8 min(-1) and K(m) was 12 microM. The increased ratio to omega-hydroxylated production of lauric acid catalyzed by CYP119 was observed with increase in the reaction temperature. These studies suggested that the regioselectivity of CYP119 provide the critical clue for the physiological enzyme function in this thermophilic archaebacteria. In addition, regioselectivity control of CYP119 without altering its thermostability can lead to the development of novel CYP119-based catalysts through protein engineering.Archaebacteria Sulfolobus acidocaldarius contains the highly thermophilic cytochrome P450 enzyme (CYP119). CYP119 possesses stable enzymatic activity at up to 85 degrees C. However, this enzyme is still considered as an orphan P450 without known physiological function with endogenous or xenobiotic substrates. We characterized the regioselectivity of lauric acid by CYP119 using the auxiliary redox partner proteins putidaredoxin (Pd) and putidaredoxin reductase (PdR). Purified CYP119 protein showed a tight binding affinity to lauric acid (K(d)=1.1+/-0.1 microM) and dominantly hydroxylated (omega-1) position of lauric acid. We determined the steady-state kinetic parameters; k(cat) was 10.8 min(-1) and K(m) was 12 microM. The increased ratio to omega-hydroxylated production of lauric acid catalyzed by CYP119 was observed with increase in the reaction temperature. These studies suggested that the regioselectivity of CYP119 provide the critical clue for the physiological enzyme function in this thermophilic archaebacteria. In addition, regioselectivity control of CYP119 without altering its thermostability can lead to the development of novel CYP119-based catalysts through protein engineering. Archaebacteria Sulfolobus acidocaldarius contains the highly thermophilic cytochrome P450 enzyme (CYP119). CYP119possesses stable enzymatic activity at up to 85oC. However,this enzyme is still considered as an orphan P450 without known physiological function with endogenous or xenobiotic substrates. We characterized the regioselectivity of lauric acid by CYP119 using the auxiliary redox partner proteins putidaredoxin (Pd) and putidaredoxin reductase (PdR). Purified CYP119 protein showed a tight binding affinity to lauric acid (Kd=1.1±0.1 μM) and dominantly hydroxylated (ω-1) position of lauric acid. We determined the steadystate kinetic parameters; kcat was 10.8 min-1 and Km was 12 μM. The increased ratio to ω-hydroxylated production of lauric acid catalyzed by CYP119 was observed with increase in the reaction temperature. These studies suggested that the regioselectivity of CYP119 provide the critical clue for the physiological enzyme function in this thermophilic archaebacteria. In addition, regioselectivity control of CYP119 without altering its thermostability can lead to the development of novel CYP119-based catalysts through protein engineering. KCI Citation Count: 6 |
| Author | CHUN, Young-Jin PARK, Hyoung-Goo HAN, Songhee HAN, Jung-Soo KYOUNG SANG CHO EUN, Chang-Yong KIM, Donghak LIM, Young-Ran |
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| Keywords | CYP119 Sulfolobaceae Sulfolobus acidocaldarius Regioselectivity Archaeobacteria Cytochrome P450 Bacteria Oxidation P450 Sulfolobales lauric acid |
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| Snippet | Archaebacteria Sulfolobus acidocaldarius contains the highly thermophilic cytochrome P450 enzyme (CYP119). CYP119 possesses stable enzymatic activity at up to... Archaebacteria Sulfolobus acidocaldarius contains the highly thermophilic cytochrome P450 enzyme (CYP119). CYP119possesses stable enzymatic activity at up to... |
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| SubjectTerms | Archaeal Proteins - metabolism Biological and medical sciences Biotechnology Cytochrome P-450 Enzyme System - metabolism Ferredoxins - metabolism Fundamental and applied biological sciences. Psychology Kinetics Lauric Acids - metabolism Models, Molecular NADH, NADPH Oxidoreductases - metabolism Oxidation-Reduction Spectrophotometry, Ultraviolet Stereoisomerism Sulfolobus acidocaldarius - enzymology 생물학 |
| Title | Regioselective Oxidation of Lauric Acid by CYP119, an Orphan Cytochrome P450 from Sulfolobus acidocaldarius |
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