Mechanism of dioxygen activation in 2-oxoglutarate-dependent enzymes: a hybrid DFT study.
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Crystal structure of the non-heme iron dioxygenase PtlH in pentalenolactone biosynthesisInsights into enzymatic halogenation from computational studiesCatalytic Mechanisms of Fe(II)- and 2-Oxoglutarate-dependent OxygenasesThe enzymes of β-lactam biosynthesis.The rate-limiting step of O2 activation in the α-ketoglutarate oxygenase factor inhibiting hypoxia inducible factor.Theoretical study of the mechanism of oxoiron(IV) formation from H2O2 and a nonheme iron(II) complex: O-O cleavage involving proton-coupled electron transferQuantum mechanics/molecular mechanics study on the oxygen binding and substrate hydroxylation step in AlkB repair enzymesMulti-scale computational enzymology: enhancing our understanding of enzymatic catalysis.Electronic structure analysis of the oxygen-activation mechanism by Fe(II)- and α-ketoglutarate (αKG)-dependent dioxygenases.Quantum Mechanics/Molecular Mechanics Modeling of Enzymatic Processes: Caveats and Breakthroughs.Spectroscopic analyses of 2-oxoglutarate-dependent oxygenases: TauD as a case study.Activation of α-keto acid-dependent dioxygenases: application of an {FeNO}7/{FeO2}8 methodology for characterizing the initial steps of O2 activation.Substrate positioning by Gln(239) stimulates turnover in factor inhibiting HIF, an αKG-dependent hydroxylase.Cryoreduction of the NO-adduct of taurine:alpha-ketoglutarate dioxygenase (TauD) yields an elusive {FeNO}(8) species.Functional models of α-keto acid dependent nonheme iron oxygenases: synthesis and reactivity of biomimetic iron(II) benzoylformate complexes supported by a 2,9-dimethyl-1,10-phenanthroline ligand.How Are Substrate Binding and Catalysis Affected by Mutating Glu127 and Arg161 in Prolyl-4-hydroxylase? A QM/MM and MD Study.Mechanistic insights into dioxygen activation, oxygen atom exchange and substrate epoxidation by AsqJ dioxygenase from quantum mechanical/molecular mechanical calculations.Visualizing the Reaction Cycle in an Iron(II)- and 2-(Oxo)-glutarate-Dependent Hydroxylase.Two-State Reactivity of Histone Demethylases Containing Jumonji-C Active Sites: Different Mechanisms for Different Methylation Degrees.Can the peroxosuccinate complex in the catalytic cycle of taurine/alpha-ketoglutarate dioxygenase (TauD) act as an alternative oxidant?Structure and mechanism leading to formation of the cysteine sulfinate product complex of a biomimetic cysteine dioxygenase model.Structural Insight into the Prolyl Hydroxylase PHD2: A Molecular Dynamics and DFT StudyDoes Substrate Positioning Affect the Selectivity and Reactivity in the Hectochlorin Biosynthesis Halogenase?Applications of Potential Energy Surfaces in the Study of Enzymatic Reactions
P2860
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P2860
Mechanism of dioxygen activation in 2-oxoglutarate-dependent enzymes: a hybrid DFT study.
description
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name
Mechanism of dioxygen activation in 2-oxoglutarate-dependent enzymes: a hybrid DFT study.
@en
Mechanism of dioxygen activation in 2-oxoglutarate-dependent enzymes: a hybrid DFT study.
@nl
type
label
Mechanism of dioxygen activation in 2-oxoglutarate-dependent enzymes: a hybrid DFT study.
@en
Mechanism of dioxygen activation in 2-oxoglutarate-dependent enzymes: a hybrid DFT study.
@nl
prefLabel
Mechanism of dioxygen activation in 2-oxoglutarate-dependent enzymes: a hybrid DFT study.
@en
Mechanism of dioxygen activation in 2-oxoglutarate-dependent enzymes: a hybrid DFT study.
@nl
P356
P1476
Mechanism of dioxygen activation in 2-oxoglutarate-dependent enzymes: a hybrid DFT study
@en
P2093
Arianna Bassan
Per E M Siegbahn
P304
P356
10.1002/CHEM.200305306
P407
P577
2004-02-01T00:00:00Z