Publication | Open Access
The Effect of Heme Environment on the Hydrogen Abstraction Reaction of Camphor in P450<sub>cam</sub> Catalysis: A QM/MM Study
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Citations
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References
2006
Year
EngineeringComputational ChemistryChemistryHydrogen GenerationQm/mm StudiesRedox ChemistryOxo AtomHeme EnvironmentIncomplete ScreeningBiochemistryHydrogen Abstraction ReactionHydrogen Production TechnologyCatalysisHydrogenQuantum ChemistryMolecular ChemistryPhysicochemical AnalysisNatural SciencesHydrogen BondHydrogen-bonded LiquidChemical KineticsQm/mm Study
The discrepancies between the published QM/MM studies (Schöneboom, J. C.; Cohen, S.; Lin, H.; Shaik, S.; Thiel, W. J. Am. Chem. Soc. 2004, 126, 4017; Guallar, V.; Friesner, R. A. J. Am. Chem. Soc. 2004, 126, 8501) on H-abstraction of camphor in P450cam have largely been resolved. The crystallographic water molecule 903 situated near the oxo atom of Compound I acts as a catalyst for H-abstraction, lowering the barrier by about 4 kcal/mol. Spin density at the A-propionate side chain of heme can occur in the case of incomplete screening but has no major effect on the computed barrier.
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