A synthetic precedent for the [FeIV2(mu-O)2] diamond core proposed for methane monooxygenase intermediate Q.
about
Evolution of strategies to prepare synthetic mimics of carboxylate-bridged diiron protein active sitesH 2 O 2 -dependent substrate oxidation by an engineered diiron site in a bacterial hemerythrinDesign and synthesis of a dinucleating ligand system with varying terminal donor functions that provides no bridging donor and its application to the synthesis of a series of Fe(III)-μ-O-Fe(III) complexes.Observed enhancement of the reactivity of a biomimetic diiron complex by the addition of water - mechanistic insights from theoretical modelingEvidence for a Di-μ-oxo Diamond Core in the Mn(IV)/Fe(IV) Activation Intermediate of Ribonucleotide Reductase from Chlamydia trachomatis.Current challenges of modeling diiron enzyme active sites for dioxygen activation by biomimetic synthetic complexesMössbauer, electron paramagnetic resonance, and density functional theory studies of synthetic S = 1/2 Fe(III)-O-Fe(IV)═O complexes. Superexchange-mediated spin transition at the Fe(IV)═O site.Study of iron dimers reveals angular dependence of valence-to-core X-ray emission spectra.A 2.8 Å Fe-Fe separation in the Fe2(III/IV) intermediate, X, from Escherichia coli ribonucleotide reductaseCharacterization of a tricationic trigonal bipyramidal iron(IV) cyanide complex, with a very high reduction potential, and its iron(II) and iron(III) congeners.Dioxygen activation in soluble methane monooxygenaseHigh-Valent Nonheme Iron Oxidants in Biology: Lessons from Synthetic Fe(IV)=O Complexes.Tuning the reactivity of Fe(V)(O) toward C-H bonds at room temperature: effect of waterSubstrate-triggered activation of a synthetic [Fe2(μ-O)2] diamond core for C-H bond cleavage.Structure of the key species in the enzymatic oxidation of methane to methanolEvaluating the identity and diiron core transformations of a (μ-oxo)diiron(III) complex supported by electron-rich tris(pyridyl-2-methyl)amine ligands.O(2)-evolving chlorite dismutase as a tool for studying O(2)-utilizing enzymes.Toward the synthesis of more reactive S = 2 non-heme oxoiron(IV) complexes.The Q, Compound Q is Finally DecipheredMagnetic circular dichroism and computational study of mononuclear and dinuclear iron(IV) complexes.Synthetic iron-oxo "diamond core" mimics structure of key intermediate in methane monooxygenase catalytic cycleTriptycene-based Bis(benzimidazole) Carboxylate-Bridged Biomimetic Diiron(II) Complexes.Nuclear resonance vibrational spectroscopic and computational study of high-valent diiron complexes relevant to enzyme intermediates.Hydrogen-bonding effects on the reactivity of [X-Fe(III)-O-Fe(IV)═O] (X = OH, F) complexes toward C-H bond cleavage.Spectroscopic definition of the biferrous and biferric sites in de novo designed four-helix bundle DFsc peptides: implications for O2 reactivity of binuclear non-heme iron enzymesA diiron(IV) complex that cleaves strong C-H and O-H bonds.Reactivities of Fe(IV) complexes with oxo, hydroxo, and alkylperoxo ligands: an experimental and computational study.Structural analysis of the Mn(IV)/Fe(III) cofactor of Chlamydia trachomatis ribonucleotide reductase by extended X-ray absorption fine structure spectroscopy and density functional theory calculations.Oxidation of water by a nonhaem diiron(IV) complex via proton-coupled electron transfer.Spectroscopic and theoretical investigation of a complex with an [O═Fe(IV)-O-Fe(IV)═O] core related to methane monooxygenase intermediate Q.Formation of a room temperature stable Fe(V)(O) complex: reactivity toward unactivated C-H bonds.Geometrical properties of the manganese(iv)/iron(iii) cofactor of Chlamydia trachomatis ribonucleotide reductase unveiled by simulations of XAS spectra.Determination of the Cu(III)-OH Bond Distance by Resonance Raman Spectroscopy Using a Normalized Version of Badger's Rule.Million-fold activation of the [Fe(2)(micro-O)(2)] diamond core for C-H bond cleavage.Spectroscopic evidence for the presence of a high-valent Fe(IV) species in the ferroxidase reaction of an archaeal ferritin.Mössbauer and DFT study of the ferromagnetically coupled diiron(IV) precursor to a complex with an Fe(IV)(2)O(2) diamond core.Biochemistry: Breaking methane.Kinetic insights into the reactivity of the intermediates generated from hydrogen peroxide and diiron(III) complex with tris(picolyl)amine (TPA).Insights into the P-to-Q conversion in the catalytic cycle of methane monooxygenase from a synthetic model system.Interplay of Electronic Cooperativity and Exchange Coupling in Regulating the Reactivity of Diiron(IV)-oxo Complexes towards C-H and O-H Bond Activation.
P2860
Q27028195-C725BC40-3E99-412E-87AD-0162C9BB2101Q27681228-0DE08851-3833-41F6-A4FC-84BDCFCA7BB5Q31038572-8F4E3523-6113-472B-A3A7-D769B001A588Q33690929-CC4453CB-E6A8-4AED-98B6-3EEF8157ECB0Q33919800-E0150993-C80C-44DF-92E2-7C2531EF09DFQ34017510-2B475B48-487E-4682-AC99-A7B9348C41C7Q34210757-5EF1A273-72AE-40B7-83CF-1FA971445AD8Q34293542-F9505743-6EDD-4100-BAAB-AD18357AA4A2Q34406248-766E0266-0FC1-4F1D-B87B-B52AA6BA6E41Q34728822-306CF2AB-485E-4147-AC01-146B059B59CEQ34819410-1F9277F2-6082-4772-99A3-5AB58510FFDCQ35067238-5D45CD97-AD69-4D63-8383-B95C59C3CCFBQ35093837-0F7FE243-2459-45D6-92DA-0FB0B11F1459Q35332343-C60E0334-0A72-47ED-8B10-A9A0F6C672FEQ35599145-7C51E085-12B1-41A0-A587-D469B9EE43F2Q35782860-494278A0-1C09-4AD9-B172-87BCABEA9AECQ35814819-D3329E07-D8A5-415A-BFFE-757B36791E70Q35974119-0FF67B36-F967-434F-A8AB-E8CCE477A4E7Q36017842-2F924840-920F-4BCA-B74A-ADBD7ABA489EQ36093562-E6BAE7A4-CF37-472E-A3C8-A08A1D7E37B1Q36693230-66A1478F-D65D-45CB-941F-ACC99056DFC9Q36761857-F157E928-3D93-41E5-997D-C66451E106D1Q36782219-E9938494-88E6-4817-8AB3-FF1E1ACA5A4FQ36784234-DD75C08C-49A0-433B-A15B-5EFC54C61DA9Q37139675-BA53DC20-FDF9-4C9A-BCA0-C39850B2B7A8Q37347607-7C1DD0EC-A89F-4407-8022-E4F16FE79B04Q37464122-5CA1B555-5FF3-4E01-8D47-D4BDDFD3D0A3Q37474552-07023992-0011-4FA7-A9D4-8F2E0E7BBF82Q37613059-DAD748C2-A11D-42F9-9905-D3E5A8F60DF4Q37614806-1EB96030-5A37-4BBD-8651-AB9CC4530FFFQ37682604-9D953963-33E8-4D83-B02C-A1D7BB7139D6Q37834620-C273EA7A-0D75-445E-918C-7A03EA69E089Q38893665-35CBCC64-F36A-4934-829D-ED5CF58632A1Q40185445-1E9482A2-7CFA-4917-A80B-D2B0FACF8742Q41077091-F9C973F1-2637-4054-A1E7-85144AD53520Q43137126-C41E34FE-6AF0-45B0-BD60-6EBAC87907AAQ43157283-8D57BE32-72A6-4F0D-902F-77874DCAF723Q44491145-2DF4547F-2480-4C7C-984F-AAEB2B06532AQ46142135-A0B758C4-5C29-4AAA-BD18-12F22749C3C2Q46367055-3EE86D6E-B3CD-4A72-B944-FF50FC4BB53C
P2860
A synthetic precedent for the [FeIV2(mu-O)2] diamond core proposed for methane monooxygenase intermediate Q.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
A synthetic precedent for the ...... monooxygenase intermediate Q.
@ast
A synthetic precedent for the ...... monooxygenase intermediate Q.
@en
type
label
A synthetic precedent for the ...... monooxygenase intermediate Q.
@ast
A synthetic precedent for the ...... monooxygenase intermediate Q.
@en
prefLabel
A synthetic precedent for the ...... monooxygenase intermediate Q.
@ast
A synthetic precedent for the ...... monooxygenase intermediate Q.
@en
P2093
P2860
P356
P1476
A synthetic precedent for the ...... monooxygenase intermediate Q.
@en
P2093
Adam T Fiedler
Eckard Münck
Genqiang Xue
Lawrence Que
Raymond De Hont
Xiaopeng Shan
P2860
P304
20713-20718
P356
10.1073/PNAS.0708516105
P407
P577
2007-12-19T00:00:00Z