about
Mechanism of nitrogen fixation by nitrogenase: the next stageMoving protons and electrons in biomimetic systemsDinitrogen binding and cleavage by multinuclear iron complexesTyrosine-Coordinated P-Cluster in G. diazotrophicus Nitrogenase: Evidence for the Importance of O-Based Ligands in Conformationally Gated Electron TransferA Sulfide-Bridged Diiron(II) Complex with a cis-N2H4LigandNitric oxide activation by distal redox modulation in tetranuclear iron nitrosyl complexesGeneration of high-spin iron(I) in a protein environment using cryoreduction.On reversible H2 loss upon N2 binding to FeMo-cofactor of nitrogenase.Sensitivity of X-ray core spectroscopy to changes in metal ligation: a systematic study of low-coordinate, high-spin ferrous complexes.Dark-operative protochlorophyllide oxidoreductase generates substrate radicals by an iron-sulphur cluster in bacteriochlorophyll biosynthesis.Insight into the Iron-Molybdenum Cofactor of Nitrogenase from Synthetic Iron Complexes with Sulfur, Carbon, and Hydride LigandsIron L2,3-Edge X-ray Absorption and X-ray Magnetic Circular Dichroism Studies of Molecular Iron Complexes with Relevance to the FeMoco and FeVco Active Sites of Nitrogenase.Protonation of nickel-iron hydrogenase models proceeds after isomerization at nickel.Structural characterization of CO-inhibited Mo-nitrogenase by combined application of nuclear resonance vibrational spectroscopy, extended X-ray absorption fine structure, and density functional theory: new insights into the effects of CO binding anAdvanced paramagnetic resonance spectroscopies of iron-sulfur proteins: Electron nuclear double resonance (ENDOR) and electron spin echo envelope modulation (ESEEM)Co-immobilization of an enzyme and a metal into the compartments of mesoporous silica for cooperative tandem catalysis: an artificial metalloenzymeProtonation and Proton-Coupled Electron Transfer at S-Ligated [4Fe-4S] ClustersDiiron azadithiolates as models for the [FeFe]-hydrogenase active site and paradigm for the role of the second coordination sphereSynthesis, Characterization, and Nitrogenase-Relevant Reactions of an Iron Sulfide Complex with a Bridging Hydride.Nitrogenase reduction of carbon-containing compounds.Negative cooperativity in the nitrogenase Fe protein electron delivery cycle.Recent developments in the homogeneous reduction of dinitrogen by molybdenum and iron.Multimetallic Cooperativity in Activation of Dinitrogen at Iron-Potassium Sites.Stepwise N-H Bond Formation From N2-Derived Iron Nitride, Imide and Amide Intermediates to Ammonia.Synthesis, spectroscopy, and hydrogen/deuterium exchange in high-spin iron(II) hydride complexesDioxygen reactivity of biomimetic Fe(II) complexes with noninnocent catecholate, o-aminophenolate, and o-phenylenediamine ligands.Mechanistic aspects of dinitrogen cleavage and hydrogenation to produce ammonia in catalysis and organometallic chemistry: relevance of metal hydride bonds and dihydrogen.Computational modelling of oxygenation processes in enzymes and biomimetic model complexes.Nitrogenase FeMo cofactor: an atomic structure in three simple steps.The discovery of Mo(III) in FeMoco: reuniting enzyme and model chemistry.Nitrite reduction by molybdoenzymes: a new class of nitric oxide-forming nitrite reductases.Synthesis and Mechanism of Formation of Hydride-Sulfide Complexes of Iron.Reversible Photoinduced Reductive Elimination of H2 from the Nitrogenase Dihydride State, the E(4)(4H) Janus Intermediate.A confirmation of the quench-cryoannealing relaxation protocol for identifying reduction states of freeze-trapped nitrogenase intermediates.Nitrogenase FeMoco investigated by spatially resolved anomalous dispersion refinement.Nitrogenase Cofactor: Inspiration for Model Chemistry.Phosphoribulokinase mediates nitrogenase-induced carbon dioxide fixation gene repression in Rhodobacter sphaeroides.NiXantphos: a deprotonatable ligand for room-temperature palladium-catalyzed cross-couplings of aryl chlorides.An Fe-N₂ Complex That Generates Hydrazine and Ammonia via Fe═NNH₂: Demonstrating a Hybrid Distal-to-Alternating Pathway for N₂ Reduction.Reductive Elimination of H2 Activates Nitrogenase to Reduce the N≡N Triple Bond: Characterization of the E4(4H) Janus Intermediate in Wild-Type Enzyme.
P2860
Q26828626-E08AC275-9DC1-453A-AE9D-D69BD0801C00Q26829547-E8A9BBB8-F4AD-41A2-975E-63962E65969CQ27008405-40F2D429-0EFB-4F8E-971D-EE7CDD759CF9Q27724214-93E0CCF4-8580-4BB0-A317-703C3E04AB9EQ28468643-F5AECB77-23DA-4314-996A-D82D85AB79A0Q28833995-C40B8522-F0CC-4823-9BA2-A7093BA0003CQ30664918-AD55698C-256D-4325-B203-3CFC76373A13Q33356598-14A1DA9E-5548-4021-AE73-50AA28450090Q33646054-504300C0-4063-4437-8CE3-B7630B2D9B07Q33807986-417CB602-BD25-4D27-989B-D048758653C0Q33899998-2D6EF615-AB4C-49F5-891A-564CF841E5EEQ33917569-78DBFC18-9F3C-43C0-B981-676753B2FF51Q34145262-5E9A5897-7F05-4238-BE13-35F844F8FC55Q34531428-7B5E6F10-B0B1-4B1C-A797-32843D839DDCQ35329323-05549E1D-C815-49B9-B4A9-FFFB46F5FA59Q35842776-8B1A2773-619C-4DA4-BEC1-B4E41582DC95Q36284588-5F02C30B-39BC-4C70-B921-8480445F250BQ36701939-D40D2FA4-548B-433D-B16F-87DF233CEB2CQ36757271-145FBBDF-8EDE-4C4A-96AC-49BD83D480A5Q37022097-FF185440-0863-4842-818B-334DE28EF455Q37323028-74F6C537-CC47-4701-9F0C-C27BD73904B8Q37404729-CFB995CE-7C79-4281-B275-45CBD468F35DQ37416175-DB17497E-562F-4A52-AE65-98F7B41D2DEEQ37551496-BE0AAF42-9B54-488E-ADD6-4C9B886E912BQ37714205-D1843228-6687-4E21-AA2B-CA263E540AA5Q37721709-2120FB0E-C787-4C6F-A07C-3AEDD6B6376AQ38150993-CAA6B0ED-97B3-42C6-9926-269BBCC6BB8BQ38164447-5F145835-08D5-4809-84B5-E9BDA3CBCA33Q38190030-B2496BAE-ADB4-46C1-8C38-98F53B09E968Q38303983-552D0E97-9C48-4430-BBF2-DAC24CEAC647Q38318607-03EFD211-AEC1-4522-8431-FE0765E9BFF9Q38670824-C3EC6CA4-FB49-4A50-916C-43FE4F8FE5DDQ38700898-E8EA3B1A-EA11-4378-9A9F-981A074E0F7CQ38862091-404B0449-4646-483F-B2A0-3775E5303A17Q39024061-0F9F0C15-3098-4D25-973D-DAC6F4A9BB4FQ39251558-3E901177-26CF-41BC-BA7C-BDABFE64B460Q39458825-BD6A35D2-5D22-4322-B28E-031E9B87EFFAQ39495251-C139AFCA-7922-4DCA-9B82-0A47E011130EQ39951573-02A72B58-ED4B-4468-837C-053611857410Q41100357-59CD1717-5EF6-47A3-B04E-14CD93481FC6
P2860
description
2013 nî lūn-bûn
@nan
2013 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Nitrogenase: a draft mechanism
@ast
Nitrogenase: a draft mechanism
@en
type
label
Nitrogenase: a draft mechanism
@ast
Nitrogenase: a draft mechanism
@en
prefLabel
Nitrogenase: a draft mechanism
@ast
Nitrogenase: a draft mechanism
@en
P2093
P2860
P356
P1476
Nitrogenase: a draft mechanism
@en
P2093
Brian M Hoffman
Dennis R Dean
Dmitriy Lukoyanov
P2860
P304
P356
10.1021/AR300267M
P407
P577
2013-01-04T00:00:00Z