Fraser Armstrong
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British chemist
Fraser Armstrong 's AcademicInfluence.com Rankings
Fraser Armstrong chemistry Degrees
Chemistry
#1151
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#1812
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Inorganic Chemistry
#61
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#70
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Chemistry
Fraser Armstrong 's Degrees
- PhD Chemistry University of Sussex
- Bachelors Chemistry University of Sussex
Why Is Fraser Armstrong Influential?
(Suggest an Edit or Addition)According to Wikipedia, Fraser Andrew Armstrong is a professor of chemistry at the University of Oxford and a Fellow of St John's College, Oxford. Early life and education Fraser Armstrong was born in Cambridge, England, in 1951. He obtained his Bachelor of Science degree in 1975 followed by a PhD in 1978 from the University of Leeds supervised by Geoff Sykes.
Fraser Armstrong 's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Enzymes as working or inspirational electrocatalysts for fuel cells and electrolysis. (2008) (842)
- Investigating and exploiting the electrocatalytic properties of hydrogenases. (2007) (629)
- Direct electrochemistry of redox proteins (1988) (527)
- Efficient and clean photoreduction of CO(2) to CO by enzyme-modified TiO(2) nanoparticles using visible light. (2010) (358)
- Structure, Function, and Mechanism of the Nickel Metalloenzymes, CO Dehydrogenase, and Acetyl-CoA Synthase (2014) (358)
- Recent developments in faradaic bioelectrochemistry (2000) (353)
- Visible light-driven H(2) production by hydrogenases attached to dye-sensitized TiO(2) nanoparticles. (2009) (347)
- How oxygen attacks [FeFe] hydrogenases from photosynthetic organisms (2009) (290)
- Reaction of complex metalloproteins studied by protein-film voltammetry (1997) (285)
- Reversibility and efficiency in electrocatalytic energy conversion and lessons from enzymes (2011) (266)
- A stable electrode for high-potential, electrocatalytic O(2) reduction based on rational attachment of a blue copper oxidase to a graphite surface. (2007) (259)
- Designer laccases: a vogue for high-potential fungal enzymes? (2010) (254)
- Energy and Environment Policy Case for a Global Project on Artificial Photosynthesis (2013) (242)
- Dynamic electrochemical investigations of hydrogen oxidation and production by enzymes and implications for future technology. (2009) (231)
- Electrocatalytic hydrogen oxidation by an enzyme at high carbon monoxide or oxygen levels. (2005) (225)
- Enzyme electrokinetics: using protein film voltammetry to investigate redox enzymes and their mechanisms. (2003) (224)
- A unique iron-sulfur cluster is crucial for oxygen tolerance of a [NiFe]-hydrogenase. (2011) (222)
- Direct comparison of the electrocatalytic oxidation of hydrogen by an enzyme and a platinum catalyst. (2002) (204)
- Catalytic electron transport in Chromatium vinosum [NiFe]-hydrogenase: application of voltammetry in detecting redox-active centers and establishing that hydrogen oxidation is very fast even at potentials close to the reversible H+/H2 value. (1999) (196)
- How Escherichia coli Is Equipped to Oxidize Hydrogen under Different Redox Conditions* (2009) (192)
- Electrochemical definitions of O2 sensitivity and oxidative inactivation in hydrogenases. (2005) (185)
- Effect of a dispersion of interfacial electron transfer rates on steady state catalytic electron transport in [NiFe]-hydrogenase and other enzymes (2002) (184)
- Current opinion in chemical biology. (2012) (180)
- Bacterial formate hydrogenlyase complex (2014) (179)
- Mechanistic studies of the 'blue' Cu enzyme, bilirubin oxidase, as a highly efficient electrocatalyst for the oxygen reduction reaction. (2010) (169)
- X-ray crystallographic and computational studies of the O2-tolerant [NiFe]-hydrogenase 1 from Escherichia coli (2012) (168)
- Hydrogenases: active site puzzles and progress. (2004) (166)
- Recent developments in dynamic electrochemical studies of adsorbed enzymes and their active sites. (2005) (159)
- Why did Nature choose manganese to make oxygen? (2008) (154)
- Rapid and efficient electrocatalytic CO2/CO interconversions by Carboxydothermus hydrogenoformans CO dehydrogenase I on an electrode. (2007) (154)
- The difference a Se makes? Oxygen-tolerant hydrogen production by the [NiFeSe]-hydrogenase from Desulfomicrobium baculatum. (2008) (153)
- Electrochemical kinetic investigations of the reactions of [FeFe]-hydrogenases with carbon monoxide and oxygen: comparing the importance of gas tunnels and active-site electronic/redox effects. (2009) (152)
- Shriver and Atkins' Inorganic Chemistry (2006) (150)
- Visible light-driven CO2 reduction by enzyme coupled CdS nanocrystals. (2012) (149)
- Diode-like behaviour of a mitochondrial electron-transport enzyme (1992) (147)
- Catalytic electrochemistry of a [NiFeSe]-hydrogenase on TiO2 and demonstration of its suitability for visible-light driven H2 production. (2009) (145)
- Metal ions and complexes as modulators of protein-interfacial electron transport at graphite electrodes (1987) (140)
- CO2 photoreduction at enzyme-modified metal oxide nanoparticles (2011) (136)
- Enzyme electrokinetics: electrochemical studies of the anaerobic interconversions between active and inactive states of Allochromatium vinosum [NiFe]-hydrogenase. (2003) (135)
- Electrocatalytic mechanism of reversible hydrogen cycling by enzymes and distinctions between the major classes of hydrogenases (2012) (135)
- Fast-scan cyclic voltammetry of protein films on pyrolytic graphite edge electrodes: characteristics of electron exchange. (1998) (127)
- Probing metalloproteins by voltammetry (1990) (125)
- A kinetic and thermodynamic understanding of O2 tolerance in [NiFe]-hydrogenases (2009) (125)
- Efficient electrocatalytic oxygen reduction by the 'blue' copper oxidase, laccase, directly attached to chemically modified carbons. (2008) (120)
- Fast interfacial electron transfer between cytochrome c peroxidase and graphite electrodes promoted by aminoglycosides: novel electroenzymic catalysis of hydrogen peroxide reduction (1987) (120)
- Enzymes and bio-inspired electrocatalysts in solar fuel devices (2012) (119)
- Order-of-magnitude enhancement of an enzymatic hydrogen-air fuel cell based on pyrenyl carbon nanostructures (2012) (118)
- Atomically defined mechanism for proton transfer to a buried redox centre in a protein (2000) (117)
- Oxygen-tolerant H2 Oxidation by Membrane-bound [NiFe] Hydrogenases of Ralstonia Species (2009) (116)
- Electrochemical potential-step investigations of the aerobic interconversions of [NiFe]-hydrogenase from Allochromatium vinosum: insights into the puzzling difference between unready and ready oxidized inactive states. (2004) (115)
- Oxygen-tolerant [NiFe]-hydrogenases: the individual and collective importance of supernumerary cysteines at the proximal Fe-S cluster. (2011) (115)
- Reactions of electron-transfer proteins at electrodes (1985) (115)
- Reversible electrochemistry of fumarate reductase immobilized on an electrode surface. Direct voltammetric observations of redox centers and their participation in rapid catalytic electron transport. (1993) (114)
- Electricity from low-level H2 in still air--an ultimate test for an oxygen tolerant hydrogenase. (2006) (113)
- Direct assignment of EPR spectra to structurally defined iron-sulfur clusters in complex I by double electron–electron resonance (2010) (112)
- Importance of the Protein Framework for Catalytic Activity of [FeFe]-Hydrogenases (2011) (111)
- Insights into Gated Electron-Transfer Kinetics at the Electrode−Protein Interface: A Square Wave Voltammetry Study of the Blue Copper Protein Azurin (2002) (107)
- Interpreting the Catalytic Voltammetry of Electroactive Enzymes Adsorbed on Electrodes (1998) (101)
- Characteristics of Enzyme-Based Hydrogen Fuel Cells Using an Oxygen-Tolerant Hydrogenase as the Anodic Catalyst (2010) (97)
- Insights from protein film voltammetry into mechanisms of complex biological electron-transfer reactions (2002) (97)
- Hydrogen production under aerobic conditions by membrane-bound hydrogenases from Ralstonia species. (2008) (96)
- Electrochemical and spectroscopic characterization of the conversion of the 7Fe into the 8Fe form of ferredoxin III from Desulfovibrio africanus. Identification of a [4Fe-4S] cluster with one non-cysteine ligand. (1989) (93)
- Electron-transfer mechanisms through biological redox chains in multicenter enzymes. (2002) (92)
- Electrochemistry of cytochrome c, plastocyanin, and ferredoxin at edge- and basal-plane graphite electrodes interpreted via a model based on electron transfer at electroactive sites of microscopic dimensions in size (1989) (92)
- Direct electrochemistry of redox proteins at pyrolytic graphite electrodes (1984) (89)
- Shriver & Atkins' Inorganic Chemistry (2010) (88)
- Selective visible-light-driven CO2 reduction on a p-type dye-sensitized NiO photocathode. (2014) (88)
- Enzyme electrokinetics: hydrogen evolution and oxidation by Allochromatium vinosum [NiFe]-hydrogenase. (2002) (86)
- Mechanism of hydrogen activation by [NiFe] hydrogenases. (2015) (83)
- Crystal structure of the O(2)-tolerant membrane-bound hydrogenase 1 from Escherichia coli in complex with its cognate cytochrome b. (2013) (81)
- Direct electrochemistry of the photosynthetic blue copper protein plastocyanin. Electrostatic promotion of rapid charge transfer at an edge-oriented pyrolytic graphite electrode (1985) (80)
- Direct Detection and Measurement of Electron Relays in a Multicentered Enzyme: Voltammetry of Electrode-Surface Films of E. coli Fumarate Reductase, an Iron−Sulfur Flavoprotein (1997) (80)
- Electrocatalytic Voltammetry of Succinate Dehydrogenase: Direct Quantification of the Catalytic Properties of a Complex Electron-Transport Enzyme (1996) (79)
- EPR spectroscopic studies of the Fe-S clusters in the O2-tolerant [NiFe]-hydrogenase Hyd-1 from Escherichia coli and characterization of the unique [4Fe-3S] cluster by HYSCORE. (2012) (77)
- Fast voltammetric studies of the kinetics and energetics of coupled electron-transfer reactions in proteins. (2000) (77)
- Principles of sustained enzymatic hydrogen oxidation in the presence of oxygen--the crucial influence of high potential Fe-S clusters in the electron relay of [NiFe]-hydrogenases. (2013) (77)
- Electrochemical studies of arsenite oxidase: an unusual example of a highly cooperative two-electron molybdenum center. (2004) (76)
- Electrochemical Origin of Hysteresis in the Electron-Transfer Reactions of Adsorbed Proteins: Contrasting Behavior of the “Blue” Copper Protein, Azurin, Adsorbed on Pyrolytic Graphite and Modified Gold Electrodes (2001) (76)
- Redox properties of flavocytochrome c3 from Shewanella frigidimarina NCIMB400. (1999) (75)
- Site-directed mutagenesis of Azotobacter vinelandii ferredoxin I. Changes in [4Fe-4S] cluster reduction potential and reactivity. (1991) (74)
- A voltammetric study of interdomain electron transfer within sulfite oxidase. (2002) (74)
- Investigation of metal ion uptake reactivities of [3Fe-4S] clusters in proteins : voltammetry of co-adsorbed ferredoxin-aminocyclitol films at graphite electrodes and spectroscopic identification of transformed clusters (1991) (74)
- A microscopic model of electron transfer at electroactive sites of molecular dimensions for reduction of cytochrome c at basal- and edge-plane graphite electrodes (1989) (73)
- Voltammetric studies of the catalytic mechanism of the respiratory nitrate reductase from Escherichia coli: how nitrate reduction and inhibition depend on the oxidation state of the active site. (2004) (71)
- Guiding Principles of Hydrogenase Catalysis Instigated and Clarified by Protein Film Electrochemistry. (2016) (68)
- A Random-sequential Mechanism for Nitrite Binding and Active Site Reduction in Copper-containing Nitrite Reductase* (2006) (68)
- Electrochemical and spectroscopic characterization of the 7Fe form of ferredoxin III from Desulfovibrio africanus. (1989) (65)
- How oxygen reacts with oxygen-tolerant respiratory [NiFe]-hydrogenases (2014) (65)
- Electrochemical investigations of the interconversions between catalytic and inhibited states of the [FeFe]-hydrogenase from Desulfovibrio desulfuricans. (2006) (65)
- Enzyme electrokinetics: energetics of succinate oxidation by fumarate reductase and succinate dehydrogenase. (2001) (65)
- A unified model for surface electrocatalysis based on observations with enzymes. (2014) (64)
- Direct Measurement of the Reduction Potential of Catalytically Active Cytochrome c Peroxidase Compound I: Voltammetric Detection of a Reversible, Cooperative Two-Electron Transfer Reaction (1996) (64)
- Fast and Selective Photoreduction of CO2 to CO Catalyzed by a Complex of Carbon Monoxide Dehydrogenase, TiO2, and Ag Nanoclusters. (2018) (63)
- Instantaneous, stoichiometric generation of powerfully reducing states of protein active sites using Eu(II) and polyaminocarboxylate ligands. (2003) (63)
- Discovery of Dark pH-Dependent H+ Migration in a [NiFe]-Hydrogenase and Its Mechanistic Relevance: Mobilizing the Hydrido Ligand of the Ni-C Intermediate (2015) (62)
- KINETICS AND MECHANISM OF REDOX-COUPLED, LONG-RANGE PROTON TRANSFER IN AN IRON-SULFUR PROTEIN. INVESTIGATION BY FAST-SCAN PROTEIN-FILM VOLTAMMETRY (1998) (62)
- The mechanism of activation of a [NiFe]-hydrogenase by electrons, hydrogen, and carbon monoxide. (2005) (62)
- Electron transfer and catalytic control by the iron-sulfur clusters in a respiratory enzyme, E. coli fumarate reductase. (2005) (61)
- Determination of an optimal potential window for catalysis by E. coli dimethyl sulfoxide reductase and hypothesis on the role of Mo(V) in the reaction pathway. (2001) (60)
- Optimizing the power of enzyme-based membrane-less hydrogen fuel cells for hydrogen-rich H2–air mixtures (2013) (59)
- How Light-Harvesting Semiconductors Can Alter the Bias of Reversible Electrocatalysts in Favor of H2 Production and CO2 Reduction (2013) (59)
- Azotobacter vinelandii ferredoxin I. Aspartate 15 facilitates proton transfer to the reduced [3Fe-4S] cluster. (1993) (58)
- Control of Myoglobin Electron-Transfer Rates by the Distal (Nonbound) Histidine Residue (1996) (58)
- Uncoupling nitrogenase: catalytic reduction of hydrazine to ammonia by a MoFe protein in the absence of Fe protein-ATP. (2010) (57)
- Enzymatic catalysis on conducting graphite particles. (2007) (55)
- A Natural Choice for Activating Hydrogen (2008) (55)
- The pyrolytic graphite surface as an enzyme substrate: microscopic and spectroscopic studies (2006) (53)
- Fumarate Reductase and Succinate Oxidase Activity of Escherichia coli Complex II Homologs Are Perturbed Differently by Mutation of the Flavin Binding Domain* (2006) (52)
- Transforming an oxygen-tolerant [NiFe] uptake hydrogenase into a proficient, reversible hydrogen producer (2014) (51)
- [NiFe]-hydrogenases: spectroscopic and electrochemical definition of reactions and intermediates (2005) (51)
- Solar-driven proton and carbon dioxide reduction to fuels—lessons from metalloenzymes. (2015) (51)
- Direct electrochemistry in the characterisation of redox proteins: Novel properties of Azotobacter 7Fe ferredoxin (1988) (50)
- Enzymatic oxidation of H2 in atmospheric O2: the electrochemistry of energy generation from trace H2 by aerobic microorganisms. (2008) (49)
- Water-gas shift reaction catalyzed by redox enzymes on conducting graphite platelets. (2009) (48)
- A unified electrocatalytic description of the action of inhibitors of nickel carbon monoxide dehydrogenase. (2013) (48)
- Transfer of photosynthetic NADP+/NADPH recycling activity to a porous metal oxide for highly specific, electrochemically-driven organic synthesis† †Electronic supplementary information (ESI) available. See DOI: 10.1039/c7sc00850c (2017) (47)
- Identification of the iron-sulfur clusters in a ferredoxin from the archaeon Sulfolobus acidocaldarius. Evidence for a reduced [3Fe-4S] cluster with pH-dependent electronic properties. (1995) (43)
- [3Fe-4S] <--> [4Fe-4S] cluster interconversion in Desulfovibrio africanus ferredoxin III: properties of an Asp14 --> Cys mutant. (1997) (43)
- Protein film voltammetry of copper-containing nitrite reductase reveals reversible inactivation. (2007) (43)
- Rapid and reversible reactions of [NiFe]-hydrogenases with sulfide. (2006) (43)
- Ascorbate Oxidase: Molecular Properties and Catalytic Activity (1982) (43)
- Dynamic electrochemistry of iron−sulfur proteins (1992) (42)
- Detection and interpretation of redox potential optima in the catalytic activity of enzymes. (2002) (42)
- Binding of thallium(I) to a [3Fe-4S] cluster: evidence for rapid and reversible formation of [Tl3Fe-4S]2+ and [Tl3Fe-4S]1+ centers in a ferredoxin (1991) (42)
- Voltammetric studies of redox-active centers in metalloproteins adsorbed on electrodes. (1993) (42)
- Electrocatalytic Volleyball: Rapid Nanoconfined Nicotinamide Cycling for Organic Synthesis in Electrode Pores (2019) (42)
- Crystal structures of ferredoxin variants exhibiting large changes in [Fe–S] reduction potential (2002) (42)
- Azotobacter vinelandii ferredoxin I. Alteration of individual surface charges and the [4FE-4S]2+/+ cluster reduction potential. (1994) (41)
- Surface selectivity in the direct electrochemistry of redox proteins. Contrasting behaviour at edge and basal planes of graphite (1984) (40)
- Unusual spectroscopic and electrochemical properties of the 2[4Fe-4S] ferredoxin of Thauera aromatica. (2000) (40)
- Direct electrochemical reduction of ferredoxin promoted by Mg2+ (1982) (39)
- Pushing the limits for enzyme-based membrane-less hydrogen fuel cells – achieving useful power and stability (2015) (38)
- Frequency and potential dependence of reversible electrocatalytic hydrogen interconversion by [FeFe]-hydrogenases (2017) (37)
- Reactions of Complex Metalloproteins Studied by Protein‐Film Voltammetry (1997) (37)
- Shriver and Atkins' Inorganic Chemistry (5th edition) (2009) (36)
- Simultaneous Voltammetric Comparisons of Reduction Potentials, Reactivities, and Stabilities of the High-Potential Catalytic States of Wild-Type and Distal-Pocket Mutant (W51F) Yeast Cytochrome c Peroxidase (1998) (35)
- How Salmonella oxidises H2 under aerobic conditions (2012) (35)
- Investigating metalloenzyme reactions using electrochemical sweeps and steps: fine control and measurements with reactants ranging from ions to gases. (2005) (35)
- Energy... Beyond Oil (2006) (35)
- Voltammetric studies of bidirectional catalytic electron transport in Escherichia coli succinate dehydrogenase: comparison with the enzyme from beef heart mitochondria. (1999) (34)
- A Proton Delivery Pathway in the Soluble Fumarate Reductase from Shewanella frigidimarina* (2006) (34)
- Electrochemical Potential and pH Dependences of [3Fe-4S] ↔ [M3Fe-4S] Cluster Transformations (M = Fe, Zn, Co, and Cd) in Ferredoxin III from Desulfovibrio africanus and Detection of a Cluster with M = Pb (1997) (33)
- Electrochemical Investigations of the Mechanism of Assembly of the Active-Site H-Cluster of [FeFe]-Hydrogenases. (2016) (33)
- Discovery of a Novel Ferredoxin from Azotobacter vinelandii Containing Two [4Fe-4S] Clusters with Widely Differing and Very Negative Reduction Potentials* (1998) (33)
- Alteration of the Reduction Potential of the [4Fe-4S]2+/+ Cluster of Azotobacter vinelandii Ferredoxin I* (1999) (32)
- A multi-heme flavoenzyme as a solar conversion catalyst. (2014) (32)
- Classification of fumarate reductases and succinate dehydrogenases based upon their contrasting behaviour in the reduced benzylviologen/fumarate assay (1993) (32)
- The value of enzymes in solar fuels research - efficient electrocatalysts through evolution. (2019) (31)
- Nanotechnology for catalysis and solar energy conversion (2020) (31)
- Hydrogen cycling by enzymes: electrocatalysis and implications for future energy technology. (2005) (31)
- Hydrogenase on an electrode: a remarkable heterogeneous catalyst (2003) (31)
- Evidence for reversible multiple redox transformations of [3Fe‐4S] clusters (1989) (30)
- Electrocatalytic reduction of hydrogen peroxide at a stationary pyrolytic graphite electrode surface in the presence of cytochrome c peroxidase: a description based on a microelectrode array model for adsorbed enzyme molecules. (1993) (29)
- Catalysis of plastocyanin electron self‐exchange by redox‐inert multivalent cations (1985) (29)
- Importance of the Active Site "Canopy" Residues in an O2-Tolerant [NiFe]-Hydrogenase. (2017) (28)
- Voltammetry of Proteins (2002) (28)
- The roles of long-range proton-coupled electron transfer in the directionality and efficiency of [FeFe]-hydrogenases (2020) (27)
- Application of power spectra patterns in Fourier transform square wave voltammetry to evaluate electrode kinetics of surface-confined proteins. (2006) (27)
- The effect of pH and ligand exchange on the redox properties of blue copper proteins. (2000) (27)
- Interruption and Time-Resolution of Catalysis by a Flavoenzyme Using Fast Scan Protein Film Voltammetry (2000) (27)
- Using the pulsed nature of staircase cyclic voltammetry to determine interfacial electron-transfer rates of adsorbed species. (1999) (27)
- Voltammetric characterization of rapid and reversible binding of an exogenous thiolate ligand at a [4Fe-4S] cluster in ferredoxin III from Desulfovibrio africanus (1993) (26)
- How the oxygen tolerance of a [NiFe]-hydrogenase depends on quaternary structure (2016) (26)
- Investigations of Two Bidirectional Carbon Monoxide Dehydrogenases from Carboxydothermus hydrogenoformans by Protein Film Electrochemistry (2013) (26)
- The structure of hydrogenase-2 from Escherichia coli: implications for H2-driven proton pumping (2018) (26)
- Investigations of the oxidative disassembly of Fe-S clusters in Clostridium pasteurianum 8Fe ferredoxin using pulsed-protein-film voltammetry. (2000) (26)
- Inhibition of [FeFe]-hydrogenases by formaldehyde and wider mechanistic implications for biohydrogen activation. (2012) (25)
- Protein Film Voltammetry: Revealing the Mechanisms of Biological Oxidation and Reduction (2002) (25)
- The radical‐SAM enzyme Viperin catalyzes reductive addition of a 5′‐deoxyadenosyl radical to UDP‐glucose in vitro (2017) (25)
- Cytochrome c oxidase. Time dependence of optical and EPR spectral changes related to the 'oxygen-pulsed' form. (1983) (24)
- Formaldehyde--a rapid and reversible inhibitor of hydrogen production by [FeFe]-hydrogenases. (2011) (24)
- Efficient Electrocatalytic CO2 Fixation by Nanoconfined Enzymes via a C3-to-C4 Reaction That Is Favored over H2 Production (2019) (24)
- Mechanisms of redox-coupled proton transfer in proteins: role of the proximal proline in reactions of the [3Fe-4S] cluster in Azotobacter vinelandii ferredoxin I. (2003) (24)
- Mechanistic Exploitation of a Self-Repairing, Blocked Proton Transfer Pathway in an O2-Tolerant [NiFe]-Hydrogenase. (2018) (24)
- Very Rapid, Cooperative Two-Electron/Two-Proton Redox Reactions of [3Fe−4S] Clusters: Detection and Analysis by Protein-Film Voltammetry (1998) (24)
- Structure of C42D Azotobacter vinelandii FdI (2000) (23)
- Investigations by Protein Film Electrochemistry of Alternative Reactions of Nickel-Containing Carbon Monoxide Dehydrogenase. (2015) (23)
- Fast, long-range electron-transfer reactions of a "blue" copper protein coupled non-covalently to an electrode through a stilbenyl thiolate monolayer. (2004) (22)
- Voltammetric studies of the reactions of iron-sulphur clusters ([3Fe-4S] or [M3Fe-4S]) formed in Pyrococcus furiosus ferredoxin. (1998) (22)
- Kinetics of the equilibration of oxygen with monomeric and octameric hemerythrin from Themiste zostericola (1981) (22)
- Theoretical analysis of the two-electron transfer reaction and experimental studies with surface-confined cytochrome c peroxidase using large-amplitude Fourier transformed AC voltammetry. (2012) (22)
- Reduction potentials of various hemerythrin oxidation states (1983) (22)
- Kinetic studies on reactions of iron-sulfur proteins. 1. Oxidation of reduced parsley (and spinach) 2-iron ferredoxins with Co(NH3)63+, dl- and d- Co(en)33+, Co(NH3)5Cl2+, Co(NH3)5C2O4+, Co(dmgH)2(C6H5NH2)2+, and Co(edta)-. Evidence for protein-complex association (1978) (21)
- Viperin, through its radical‐SAM activity, depletes cellular nucleotide pools and interferes with mitochondrial metabolism to inhibit viral replication (2020) (21)
- Voltammetry of Adsorbed Redox Enzymes: Mechanisms in The Potential Dimension (2008) (21)
- Insights into the Chemistry of Organic Structure-Directing Agents in the Synthesis of Zeolitic Materials (2018) (20)
- Global Observation of Hydrogen/Deuterium Isotope Effects on Bidirectional Catalytic Electron Transport in an Enzyme: Direct Measurement by Protein-Film Voltammetry (1997) (20)
- Dynamic electrochemical experiments on hydrogenases (2009) (20)
- A distal histidine mutant (H52Q) of yeast cytochrome c peroxidase catalyzes the oxidation of H(2)O(2) instead of its reduction. (2001) (19)
- The kinetics of a weakly electron-coupled proton transfer in azurin (2002) (19)
- Voltammetric study of proton-gated electron transfer in a mutant ferredoxin. Altering aspartate to asparagine blocks oxidation of the [3Fe-4S] cluster of Azotobacter vinelandii ferredoxin I (1993) (19)
- Applications of voltammetric methods for probing the chemistry of redox proteins (1997) (19)
- Direct electrochemical oxidation of Clostridium pasteurianum ferredoxin (1982) (19)
- Effect of .mu.-sulfido ligands on substitution at molybdenum(V). A temperature-jump study of the 1:1 equilibration of thiocyanate with di-.mu.-sulfido-bis[aquooxalatooxomolybdenum(V)] (1978) (19)
- Formation and properties of a stable ‘high-potential’ copper-iron-sulphur cluster in a ferredoxin (1994) (18)
- Studies of protein-electrode interactions by organosilyl derivatisation of pyrolytic graphite electrodes (1987) (17)
- A T14C Variant of Azotobacter vinelandii Ferredoxin I Undergoes Facile [3Fe-4S]0 to [4Fe-4S]2+Conversion in Vitro but Not in Vivo * (1998) (17)
- Copying Biology's Ways with Hydrogen (2013) (17)
- Kinetic studies on reactions of iron-sulfur proteins. 3. Oxidation of the reduced form of Clostridium pasteurianum 8-iron ferredoxin with inorganic complexes. Observation of single-stage kinetics for a difunctional protein reactant (1980) (17)
- Spectroscopic and redox studies of valence-delocalized [Fe2S2](+) centers in thioredoxin-like ferredoxins. (2015) (17)
- Kinetic studies on reactions of iron-sulfur proteins. 2. An extension of the range of oxidants in the reaction of reduced parsley 2-Fe ferredoxin and identification of specific binding sites using redox inactive Cr(NH3)63+ (and Cr(en)33+) (1979) (17)
- Azotobacter vinelandii Ferredoxin I (2002) (16)
- Evaluations of reduction potential data in relation to coupling, kinetics and function (1997) (16)
- A hydrogen fuel cell for rapid, enzyme-catalysed organic synthesis with continuous monitoring. (2018) (16)
- Influence of electrochemical properties in determining the sensitivity of [4Fe-4S] clusters in proteins to oxidative damage. (2001) (16)
- Theoretical and experimental investigation of surface-confined two-center metalloproteins by large-amplitude Fourier transformed ac voltammetry (2011) (16)
- Voltammetry of a ‘protein on a rope’ (2003) (16)
- Electrochemistry of metalloproteins: protein film electrochemistry for the study of E. coli [NiFe]-hydrogenase-1. (2014) (15)
- The power of electrified nanoconfinement for energising, controlling and observing long enzyme cascades (2021) (15)
- Electrified Nanoconfined Biocatalysis with Rapid Cofactor Recycling (2019) (14)
- The final steps of [FeFe]-hydrogenase maturation (2019) (14)
- Iron-sulphur clusters with labile metal ions. (1992) (14)
- Structural differences of oxidized iron-sulfur and nickel-iron cofactors in O2-tolerant and O2-sensitive hydrogenases studied by X-ray absorption spectroscopy. (2015) (14)
- Unusual reaction of [NiFe]-hydrogenases with cyanide. (2014) (14)
- Aerobic Photocatalytic H2 Production by a [NiFe] hydrogenase Engineered to Place a Silver Nanocluster in the Electron Relay. (2020) (13)
- Direct visible light activation of a surface cysteine-engineered [NiFe]-hydrogenase by silver nanoclusters (2018) (13)
- Hydrogen activation by [NiFe]-hydrogenases. (2016) (12)
- Protein Film Electrochemistry of Iron-Sulfur Enzymes. (2018) (12)
- Investigations of the efficient electrocatalytic interconversions of carbon dioxide and carbon monoxide by nickel-containing carbon monoxide dehydrogenases. (2014) (12)
- 1H NMR studies of Cr(NH3)63+ binding to spinach plastocyanin (1986) (12)
- Enzyme-catalysed enantioselective oxidation of alcohols by air exploiting fast electrochemical nicotinamide cycling in electrode nanopores (2019) (12)
- Protein film cryovoltammetry: demonstrations with a 7Fe ([3Fe–4S] + [4Fe–4S]) ferredoxin (1999) (11)
- Hydrogenases and their activities (2005) (11)
- Integration of an [FeFe]-hydrogenase into the anaerobic metabolism of Escherichia coli (2015) (11)
- DIRECT CYCLIC VOLTAMMETRY OF THREE RUTHENIUM-MODIFIED ELECTRON-TRANSFER PROTEINS (1990) (11)
- Electron transfer and coupled processes in protein film voltammetry. (1999) (11)
- The pH-dependent redox inactivation of amicyanin from Paracoccus versutus as studied by rapid protein-film voltammetry (2001) (11)
- Bacterial rhomboid proteases mediate quality control of orphan membrane proteins (2020) (11)
- Y13C Azotobacter vinelandii Ferredoxin I (1997) (10)
- Selective, light-driven enzymatic dehalogenations of organic compounds (2016) (9)
- Progress in Scaling up and Streamlining a Nanoconfined, Enzyme‐Catalyzed Electrochemical Nicotinamide Recycling System for Biocatalytic Synthesis (2020) (9)
- Selective cysteine-to-selenocysteine changes in a [NiFe]-hydrogenase confirm a special position for catalysis and oxygen tolerance (2021) (9)
- Enzymes as Working or Inspirational Electrocatalysts for fuel Cells and Electrolysis (2008) (9)
- Rapid modification of graphite electrodes by surface-bound chromium complexes: preparation of an electrode for direct (unmediated) electrochemistry of the ‘blue’ copper protein, plastocyanin (1985) (9)
- Mechanism of formation, spectrum and reactivity of half-reduced eight-iron Clostridium pasteurianum ferredoxin in pulse-radiolysis studies and the non-co-operativity of the four-iron clusters. (1979) (8)
- Towards macromolecular recognition at electrodes: fast interfacial electron transfer to cytochrome c peroxidase at graphite electrodes is promoted by aminoglycosides (1988) (8)
- Delta T 14/Delta D 15 Azotobacter vinelandii ferredoxin I: creation of a new CysXXCysXXCys motif that ligates a [4Fe-4S] cluster. (1998) (8)
- How Formaldehyde Inhibits Hydrogen Evolution by [FeFe]-Hydrogenases: Determination by ¹³C ENDOR of Direct Fe-C Coordination and Order of Electron and Proton Transfers. (2015) (8)
- Investigating and Exploiting the Electrocatalytic Properties of Hydrogenases (2007) (7)
- Exploiting Electrode Nanoconfinement to Investigate the Catalytic Properties of Isocitrate Dehydrogenase (IDH1) and a Cancer-Associated Variant (2021) (7)
- Resistance to the isocitrate dehydrogenase 1 mutant inhibitor ivosidenib can be overcome by alternative dimer-interface binding inhibitors (2022) (7)
- Preparation and properties of a soluble polymeric aquo ion of molybdenum(V) (1982) (7)
- Electrochemical and spectroscopic studies of ferredoxins (1990) (7)
- A TiO₂ nanoparticle system for sacrificial solar H₂ production prepared by rational combination of a hydrogenase with a ruthenium photosensitizer. (2011) (6)
- Exploiting Bidirectional Electrocatalysis by a Nanoconfined Enzyme Cascade to Drive and Control Enantioselective Reactions (2021) (6)
- Electrocatalysis by H2–O2 membrane-free fuel cell enzymes in aqueous microenvironments confined by an ionic liquid (2016) (6)
- Energy…beyond oil: a global perspective (2007) (5)
- The crystalline state as a dynamic system: IR microspectroscopy under electrochemical control for a [NiFe] hydrogenase (2021) (5)
- Chemistry: Cyclic fixation of nitrogen (1985) (5)
- Inhibition of ferredoxin: NADP+ reductase activity by the hexacyanochromate (III) ion. (1986) (5)
- Kinetic studies on the reactions of iron-sulphur proteins. V. The effect of redox-inactive chromium(III) complexes on the oxidation of the reduced form of the bifunctional Clostridium Pasteurianum 8Fe ferredoxin by cobalt(III) complexes (1982) (5)
- Electrochemistry of Peroxidases (2002) (5)
- Iron–sulfur clusters as inhibitors and catalysts of viral replication (2022) (5)
- Fast Interfacial Electron Transfer Between Cytochrome c Peroxidase and Graphite Electrodes Promoted by Aminoglycosides: Novel Electroenzymic Catalysis of H2O2 Reduction. (1988) (5)
- Enzymes as Exploratory Catalysts in Artificial Photosynthesis (2015) (4)
- Iron-sulphur clusters in electron transfer, catalysis and control. (1991) (4)
- Some fundamental insights into biological redox catalysis from the electrochemical characteristics of enzymes attached directly to electrodes (2021) (4)
- Catalysis of solar hydrogen production by iron atoms on the surface of Fe-doped silicon carbide (2016) (4)
- Ferredoxin III of Desulfovibrio africanus: sequencing of the native gene and characterization of a histidine-tagged form. (2000) (4)
- The electrochemical interconversions between the active and inactive states of a [NiFe]-hydrogenase; implications for the development of a bio-fuel cell (2003) (4)
- X-ray structural, functional and computational studies of the O2-sensitive E. coli hydrogenase-1 C19G variant reveal an unusual [4Fe-4S] cluster. (2018) (3)
- Investigation of the function of plastocyanin by electrochemistry and nuclear-magnetic-resonance spectroscopy. (1987) (3)
- erratum: Atomically defined mechanism for proton transfer to a buried redox centre in a protein (2000) (3)
- Thermodynamic influences on the fidelity of iron‐sulphur cluster formation in proteins (1999) (3)
- Existence of specific binding sites in 1:1 oxidations of reduced parsley 2-Fe ferredoxin with inorganic complexes (1978) (3)
- A Nanoconfined Four-Enzyme Cascade Simultaneously Driven by Electrical and Chemical Energy, with Built-in Rapid, Confocal Recycling of NADP(H) and ATP (2022) (3)
- Dynamic Electrochemistry of Iron-Sulfur Proteins (2010) (2)
- Direct electrochemistry of the ‘blue’ copper protein plastocyanin (1986) (2)
- Electron flow between the worlds of Marcus and Warburg. (2020) (2)
- Kinetics and Mechanism of Redox-Coupled, Long-Range Proton Transfer in an Iron−Sulfur Protein. Investigation by Fast-Scan Protein-Film Voltammetry J. Am. Chem. Soc. 1998, 120, 7085−7094 (1998) (2)
- [ 3 Fe-4 S ] % [ 4 Fe-4 S ] cluster interconversion in Desulfovibrio africanus ferredoxin III : properties of an Asp 14 ! Cys mutant (1997) (2)
- Spectroscopic studies of heteroatom iron—sulphur clusters, [M3Fe-4S]1+/2+, in ferredoxin III, Desulphovibrio africanus (1991) (2)
- Investigation of metal ion uptake reactivities of [3Fe-4S] clusters in proteins: voltammetry of co-adsorbed ferredoxin-aminocyclitol films at graphite electrodes and spectroscopic identification of transformed clusters. [Erratum to document cited in CA115(9):87713z] (1992) (2)
- CHAPTER 5:Assessment of Electrochemically-based Strategies to Protect [FeFe]-hydrogenases from Oxygen (2018) (2)
- Low-temperature study of the plastocyanin–ferricyanide electron-transfer reaction in aqueous methanol reveals an unusual energy barrier (1988) (2)
- Simultaneous Voltammetric Comparisons of Reduction Potentials, Reactivities, and Stabilities of the High-Potential Catalytic States of Wild-Type and Distal-Pocket Mutant (W51F) Yeast Cytochrome c Peroxidase J. Am. Chem. Soc. 1998 , 120 , 6270−6276 (1998) (2)
- The Importance of Enzymes: Benchmarks for Electrocatalysts (2010) (1)
- Gas pressure effects on the rates of catalytic H(2) oxidation by hydrogenases. (2010) (1)
- Voltammetric studies of the reactions of iron-sulphur centers in proteins (1991) (1)
- Photons in biology (2013) (1)
- Redox properties of Azotobacter 7Fe ferredoxin (1988) (1)
- Detection of transient intermediates in flavoenzyme reactions: interruption of the catalytic cycle of flavocytochrome c(3) from Shewanella frigidimarina using protein film voltammetry (1999) (1)
- Electrochemical insights into inhibition of multi-copper oxidases (2003) (1)
- Electrochemistry of Hydrogenases (2013) (1)
- Voltammetric investigations of the redox chemistry of catalytic states of cytochrome C peroxidase (1995) (1)
- Investigation of exogenous ligand binding to homo- and heterometal [M3Fe-4S] clusters in ferredoxin III from Desulfovibrio africanus (1995) (1)
- Principles of hydrogen catalysis in the presence of oxygen by a [NiFe] hydrogenase from E. coli (2014) (0)
- Fresh Approaches and New Surprises with Iron-Sulfur Clusters (1992) (0)
- E. coli Hydrogenase-1 variant P508A (2017) (0)
- Electrochemical studies of the kinetics and thermodynamics of gated electron-transfer reactions in metalloproteins. (1993) (0)
- Investigations of the Efficient Electrocatalytic Interconversions of CO2 and CO by Nickel-containing Carbon monoxide Dehydrogenases (2014) (0)
- Cryokinetic studies of cytochrome c in aqueous alcohols (1988) (0)
- Studies of a ‘blue’ copper oxidase electrocatalyst (2008) (0)
- Investigations of the stabilities of [M3Fe-4S] clusters (M = M(I) or M(II) ) in ferredoxin III from Desulfovibrio africanus. (1993) (0)
- Erratum: Kinetics and mechanism of redox-coupled, long-range proton transfer in an iron-sulfur protein. Investigation by fast-scan protein-film voltammetry (Journal of the American Medical Society (1998) 120 (7085-7094)) (1998) (0)
- NECEM Seminar: Terahertz Spectroscopy of Organic Semiconductors (2018) (0)
- The Silica Gel Process: Small Scale Studies. Part 1. Comparison of Catalysts and Labelling Experiments (1972) (0)
- The power of electrified nanoconfinement for energising, controlling and observing long enzyme cascades (2021) (0)
- Novel aspects of the reactions of hydrogenases with small molecule inhibitors (2011) (0)
- Insights into catalysis by flavocytochrome c3 using protein film voltammetry (2003) (0)
- Electrode surface structures for studying long-range electron transfer in biological systems. (2003) (0)
- Structure of E coli Hydrogenase Hyd-1 mutant E28Q (2017) (0)
- Structure of fully reduced Hydrogenase (Hyd-1) (2019) (0)
- The Society of Biological Inorganic Chemistry (2005) (0)
- NADP(H)-dependent biocatalysis without adding NADP(H) (2022) (0)
- Deracemisation and stereoinversion by a nanoconfined bidirectional enzyme cascade: dual control by electrochemistry and selective metal ion activation (2022) (0)
- E. coli Quinol fumarate reductase FrdA E245Q mutation (2006) (0)
- Enzymes - Their Application and Inspiration for Fuel Cell Electrocatalysts (2008) (0)
- Binding of thallium(I) to a [3Fe-4S] cluster: evidence for rapid and reversible formation of [Tl3Fe-4S]2+ and [Tl3Fe-4S]1+ centers in a ferredoxin. [Erratum to document cited in CA115(21):226443b] (1992) (0)
- The effect of oxidation state on inhibition of nitrate reductase (2003) (0)
- Electrochemical kinetics of native and site-directed mutant myoglobins (1995) (0)
- Mechanisms of redox-coupled proton transfer in proteins: The role of the proximal proline in reactions of the [3Fe4S] cluster in azotobacter vinelandii ferredoxin I (2003) (0)
- E. coli Hydrogenase-2 (as isolated form). (2018) (0)
- Structure of fully reduced variant E28Q of E. coli hydrogenase-1 at pH 8 (2019) (0)
- How Escherichia coli is equipped to oxidize hydrogen under different redox conditions. (2010) (0)
- Principles of electrocatalysis by hydrogen activating metalloenzymes (2014) (0)
- Characterisation of an all-ferrous [3Fe-4S] cluster in Sulfolobus acidocaldarius ferredoxin (1995) (0)
- Electrochemically-controlled transformations of FeS clusters (1989) (0)
- Light-Driven Hydrogen Production in Ruthenium Polypyridyl Photosensitized E. coli Hyd-2 [NiFe] Hydrogenase Studied by Steady-State and Time-Resolved UV-Vis Absorption Spectroscopy (2013) (0)
- Catalytic Activity of [ FeFe ]-Hydrogenases Importance of the Protein Framework for Molecular Biophysics : (2011) (0)
- Note from the SBIC President (2016) (0)
- Structure of fully reduced Hydrogenase (Hyd-2) variant E14Q (2019) (0)
- Voltammetric examination and resuscitation of a defective mutant fumarate reductase (2002) (0)
- I40N MUTANT OF AZOTOBACTER VINELANDII FDI (1997) (0)
- Protons “gating” electron transfer in a ferredoxin (1995) (0)
- New insights into enzymatic CO₂ reduction using protein film electrochemistry (2013) (0)
- Crystal Structure of the P50A mutant of ferredoxin I at 1.65 A Resolution (2003) (0)
- EPR investigations of iron-sulfur cluster relays in enzymes (2013) (0)
- Investigating the current/voltage/power/stability capabilities of enzyme-based membrane-less hydrogen fuel cells (2014) (0)
- Transfer of photosynthetic NADP + /NADPH recycling activity to a porous metal oxide for highly speci fi c, electrochemically-driven organic synthesis † EDGE ARTICLE (2017) (0)
- CRYSTAL STRUCTURE OF F25H FERREDOXIN 1 MUTANT FROM AZOTOBACTER VINELANDII AT 1.75 ANGSTROM RESOLUTION (2000) (0)
- E. coli Hydrogenase-2 chemically reduced structure (2018) (0)
- Goris 2011 Nat Chem Biol suppl (2013) (0)
- How the oxygen tolerance of a [NiFe]-hydrogenase depends on quaternary structure (2016) (0)
- The Mechanism of Hydrogen Activation by NiFe-hydrogenases and the Importance of the active site Arginine (2014) (0)
- Solutions manual to accompany Inorganic chemistry (2014) (0)
- The electrochemical mechanism of catalysis by an electron transport enzyme: Succinate dehydrogenase (1995) (0)
- Multiple functions for the Fe protein in nitrogenase synthesis and catalysis (1991) (0)
- Azotobacter vinelandii ferredoxin I: Aspartate-15 facilitates proton transfer to the [3Fe4S]0 cluster (1993) (0)
- The importance of electron transfer in determining properties of [NiFe]-hydrogenases (2013) (0)
- High resolution structure of native Hydrogenase (Hyd-1) (2019) (0)
- Electrochemical and spectroscopic characterization of 7Fe, 8Fe and 3Fe forms of Azotobacter vinelandii ferredoxin I (1993) (0)
- Master Author Index (2004) (0)
- Structure of fully reduced Hydrogenase (Hyd-1) variant E28Q (2018) (0)
- Kinetic Studies on Reactions of Iron-Sulfur Proteins. Part 1. Oxidation of Reduced Parsley (and Spinach) 2-Iron Ferredoxins with Co(NH3)6)3+ dl- and d-Co(en)3)3+, Co(NH3)5Cl)2+ , Co(NH3)5C2O4)+ Co(dmgH)2 (C6H5NH2)2)+, and Co(edta)-. E (1979) (0)
- E coli [NiFe] Hydrogenase Hyd-1 mutant E28D (2017) (0)
- Voltammetric navigation of a flavocytochrome film (1999) (0)
- Voltammetric manipulation and elucidation of complex reactions of metal-sulphide clusters in proteins (1994) (0)
- Natural and synthetic 2-oxoglutarate derivatives are substrates for oncogenic variants of human isocitrate dehydrogenase 1 and 2 (2023) (0)
- Structure of fully reduced Hydrogenase (Hyd-1) variant E28Q collected at pH 10 (2019) (0)
- From Protein Film Electrochemistry to Nanoconfined Enzyme Cascades and the Electrochemical Leaf. (2022) (0)
- Structure of E14Q variant of E. coli hydrogenase-2 (as-isolated enzyme) (2019) (0)
- Four-site variant (Y222C, C197S, C432S, C433S) of E. coli hydrogenase-2 (2019) (0)
- Andrew James Thomson. 31 July 1940 — 2 March 2021 (2022) (0)
- Reviewers acknowledgement (2014) (0)
- Electron-transfer through biological 'wires' in multi-centre enzymes (2001) (0)
- Electrochemical andspectroscopic characterization ofthe7Fe formofferredoxin IIIfromDesulfovibrio africanus (1989) (0)
- Development of enzymatic H2 production and CO2 reduction systems (2012) (0)
- Dynamic Electrochemical Investigations of Hydrogen Oxidation and Production by Enzymes and Implications for Future Technology (2009) (0)
- Chapter 8. Spectroscopic investigations of metalloproteins (1981) (0)
- Substitution of the imidazole ring of His61 in flavocytochrome c3, the soluble fumarate reductase from Shewanella frigidimarina (2002) (0)
- PNAS Plus Significance Statements (2014) (0)
- Hydrogenase-2 variant R479K - As Isolated form (2020) (0)
- Hydrogenase-2 variant R479K - reduced sample exposed to pure oxygen (2020) (0)
- Hydrogenase-2 variant R479K - hydrogen reduced form (2020) (0)
- Threonine to Cysteine (T225C) variant of E coli hydrogenase-1 (2020) (0)
- Hydrogenase-2 variant R479K - hydrogen reduced form treated with CO (2020) (0)
- coli hydrogenase-1 C 19 G variant reveal an unusual [ 4 Fe-4 S ] cluster (2018) (0)
- E. coli Hydrogenase-2 (hydrogen reduced form) (2018) (0)
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