about
Alkene cleavage catalysed by heme and nonheme enzymes: reaction mechanisms and biocatalytic applications.Aerobic degradation of trichloroethylene by co-metabolism using phenol and gasoline as growth substrates.The bioinorganic chemistry of iron in oxygenases and supramolecular assemblies.Crystal structures of alkylperoxo and anhydride intermediates in an intradiol ring-cleaving dioxygenase.Cytochrome P450: what have we learned and what are the future issues?Experimental and computational evidence for the mechanism of intradiol catechol dioxygenation by non-heme iron(III) complexes.Form follows function: structural and catalytic variation in the class a flavoprotein monooxygenases.In Memoriam: Osamu Hayaishi (1920 – 2015).Osamu Hayaishi-from the discovery of oxygenases in soil microorganisms to unraveling the enigma of sleep in mammals.Versatility of biological non-heme Fe(II) centers in oxygen activation reactions.A professional and personal odyssey.Go it alone: four-electron oxidations by mononuclear non-heme iron enzymes.Oxygen activation by mononuclear nonheme iron dioxygenases involved in the degradation of aromatics.A personal perspective on the discovery of dioxygen adducts of copper and iron by Nobumasa Kitajima.Metabolism of fungicides and related compounds.Insights into the active site of the cytochrome P-450 haemoprotein family--a unifying concept based on structural considerations.Electron transport systems of lung microsomes and their physiological functions. Enzymic hydroxylation of aniline and steroids.Metabolism of aziridines and the mechanism of their cytotoxicity.Extension of resolution and oligomerization-state studies of 2,4'-dihydroxyacetophenone dioxygenase from Alcaligenes sp. 4HAP.A short history of heme dioxygenases: rise, fall and rise again.Selective extradiol cleavage of catechol achieved in organized assemblies using [Fe(BPA)Cl(3)] (BPA = bis(pyridylmethyl)amine).Effects of interferon-inducing agents on hepatic cytochrome P-450 drug metabolizing systems.Iron(III) complexes of tripodal tetradentate 4N ligands as functional models for catechol dioxygenases: the electronic vs. steric effect on extradiol cleavage.Theoretical study of the dark photochemistry of 1,3-butadiene via the chemiexcitation of Dewar dioxetane.Biomimetic iron(III) complexes of facially and meridionally coordinating tridentate 3N ligands: tuning of regioselective extradiol dioxygenase activity in organized assemblies.From oxygenase to sleep.Biomimetic iron(III) complexes of N3O and N3O2 donor ligands: protonation of coordinated ethanolate donor enhances dioxygenase activity.Iron(III) complexes of N2O and N3O donor ligands as functional models for catechol dioxygenase enzymes: ether oxygen coordination tunes the regioselectivity and reactivity.
P2860
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P2860
description
im Oktober 1955 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в жовтні 1955
@uk
name
MECHANISM OF THE PYROCATECHASE REACTION
@en
MECHANISM OF THE PYROCATECHASE REACTION
@nl
type
label
MECHANISM OF THE PYROCATECHASE REACTION
@en
MECHANISM OF THE PYROCATECHASE REACTION
@nl
prefLabel
MECHANISM OF THE PYROCATECHASE REACTION
@en
MECHANISM OF THE PYROCATECHASE REACTION
@nl
P2093
P356
P1476
MECHANISM OF THE PYROCATECHASE REACTION
@en
P2093
Masayuki Katagiri
Osamu Hayaishi
Simon Rothberg
P304
P356
10.1021/JA01625A095
P407
P577
1955-10-01T00:00:00Z