How can a single second sphere amino acid substitution cause reduction midpoint potential changes of hundreds of millivolts?
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Moving protons and electrons in biomimetic systemsInner- and outer-sphere metal coordination in blue copper proteinsRole of Conserved Tyrosine Residues in NiSOD Catalysis: A Case of Convergent Evolution †A hyperactive cobalt-substituted extradiol-cleaving catechol dioxygenaseSix-coordinate manganese(3+) in catalysis by yeast manganese superoxide dismutaseComparison of Two Yeast MnSODs: Mitochondrial Saccharomyces cerevisiae versus Cytosolic Candida albicansSpectroscopic and computational studies of a small-molecule functional mimic of iron superoxide dismutase, iron 2,6-diacetylpyridinebis(semioxamazide)Superoxide dismutases and superoxide reductases.Design and fine-tuning redox potentials of metalloproteins involved in electron transfer in bioenergetics.Lessons from nature: unraveling biological CH bond activationSuperoxide dismutases: ancient enzymes and new insights.A two-electron-shell game: intermediates of the extradiol-cleaving catechol dioxygenases.A Single Outer-Sphere Mutation Stabilizes apo-Mn Superoxide Dismutase by 35 °C and Disfavors Mn Binding.Synthesis, structure, and physical properties for a series of monomeric iron(III) hydroxo complexes with varying hydrogen-bond networks.Catalytic reduction of dioxygen to water with a monomeric manganese complex at room temperature.Secondary Sphere Hydrogen Bonding in Monocopper Complexes of Potentially Dinucleating Bis(carboxamide) Ligands15N-NMR characterization of His residues in and around the active site of FeSOD.A charge polarization model for the metal-specific activity of superoxide dismutases.Redox tuning of two biological copper centers through non-covalent interactions: same trend but different magnitude
P2860
Q26829547-9420F9A9-9B54-4A0D-9634-C035D719DCDDQ26996087-12A7EE49-6034-4923-BCCE-005F8B6BA766Q27653614-B7E08EF5-1C16-4C72-AB00-AA1B3945A26BQ27666296-C52451D7-6330-4ED6-B201-7670EDC70C6DQ27671614-E544301F-D297-4784-8683-3A034C4F4A7CQ27675514-640750CC-A521-4B81-992E-53E52B136E0AQ34645197-FCAFA0BD-C02A-4688-970B-57DA0954379EQ35049047-46CD8F8E-4328-4F3D-967A-C83F24D46A0FQ36601149-9DE7F621-F344-40C5-949C-A38C0D7A54DAQ37177334-7A3B40ED-1F71-4765-BFFE-D26F40C24EA2Q37955568-3A94D648-E68E-490F-8A3B-3FC3406D65BBQ38194935-21E830C2-16F1-48A2-A415-FFE7E2B89EA8Q38681084-BD99EFF5-ABD9-40B1-BF94-8CB1A42FC25EQ41958993-1C098C35-6E1E-49B2-AADA-E1E2929DD2AEQ42212756-7450E6D2-E982-4E7B-B2B0-BE20C7DFC3C6Q42371200-3F66FC42-08F5-43C8-A3C8-2B78129E648EQ43237310-32E99B70-A625-4325-A88B-A635D306A256Q50142260-DD9D12F9-5AA7-41E4-ADAF-8A5BE702C26DQ58031620-9BB105F3-5C0E-42CA-86E4-17A82F689FA6
P2860
How can a single second sphere amino acid substitution cause reduction midpoint potential changes of hundreds of millivolts?
description
2007 nî lūn-bûn
@nan
2007 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
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
name
How can a single second sphere ...... ges of hundreds of millivolts?
@ast
How can a single second sphere ...... ges of hundreds of millivolts?
@en
How can a single second sphere ...... ges of hundreds of millivolts?
@nl
type
label
How can a single second sphere ...... ges of hundreds of millivolts?
@ast
How can a single second sphere ...... ges of hundreds of millivolts?
@en
How can a single second sphere ...... ges of hundreds of millivolts?
@nl
prefLabel
How can a single second sphere ...... ges of hundreds of millivolts?
@ast
How can a single second sphere ...... ges of hundreds of millivolts?
@en
How can a single second sphere ...... ges of hundreds of millivolts?
@nl
P2093
P356
P1476
How can a single second sphere ...... ges of hundreds of millivolts?
@en
P2093
Anne-Frances Miller
Ardeschir Vahedi-Faridi
Emine Yikilmaz
Gloria E O Borgstahl
Jason Porta
Laurie E Grove
P304
P356
10.1021/JA069224T
P407
P577
2007-07-12T00:00:00Z