497 results on '"Sykes, A. Geoffrey"'
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102. Mechanism of the reaction of phosphate with purple acid phosphatase
103. Oxidation of [2Fe–2S] isoferredoxins with [Co(NH3)6]3+and [Cr(phen)3]3+(phen = 1,10-phenanthroline): mechanism of electron transfer
104. Thiocyanate substitution on the incomplete cuboidal clusters [Mo3S4(H2O)9]4+ and [W3S4(H2O)9]4+
105. Kinetic studies on the thiocyanate substitution of water on two incomplete cuboidal tritungsten(IV) oxo sulfido aqua complexes: [W3O2S2(H2O)9]4+ and [W3OS3(H2O)9]4+
106. Mechanistic studies on the reduction of the R2 subunit of ribonucleotide reductase
107. The reactivity of spinach plastocyanin mutants with inorganic oxidants [Fe(CN)6]3–and [Co(phen)3]3+
108. Kinetic studies on the two-stage activation of aconitase
109. Solution properties of the cuboidal mixed-metal cluster [Mo3NiS4(H2O)10]4+ including complexing (at Ni) and redox properties
110. Solution studies on the cuboidal mixed-metal complex molybdenum iron sulfido aqua ([Mo3FeS4(H2O)10]4+)
111. Redox interconversions and aqueous solution properties of the cuboidal complexes [Mo4S4(edta)2]m- (m = 4, 3, 2)
112. Mechanism of the reaction of cuboidal [Mo3FeS4(H2O)10]4+ with dioxygen
113. Rapid intramolecular electron-transfer in pulse radiolysis experiments on the NO2-modified tyrosine83 derivative of plastocyanin
114. Redox reactivity of the tyrosine radical and Fe III 2 of the B2 subunit of E. coil ribonucleotide reductase
115. Kinetics of inactivation of the tyrosine radical of the B2 subunit of E. coli ribonucleotide reductase
116. Kinetics of 1 : 1 NCS–for H2O substitution on WIVof [W3(µ3-S)(µ-S)3(H2O)9]4+and [W3(µ3-S)(µ-O)3(H2O)9]4+: the effect of replacing core oxo by sulphido ligands and comparisons with MoIV3
117. Reactivity of M[sup II] Metal-Substituted Derivatives of Pig Purple Acid Phosphatase (Uteroferrin) with Phosphate.
118. Preparation and Properties of the Aqua Ions [W[sub 4]S[sub 4](H[sub 2]O)[sub 12]][sup n+] (n = 5,6) and Crystal Structure of (Me[sub 2]NH[sub 2])[sub 6][W[sub 4]S[sub 4](NCS)[sub 12].0.5H[sub 2]O.
119. Autoredox Interconversion of Two Galactose Oxidase Forms GOase[sub ox] and GOase[sub semi] with....
120. Reactivity of the CuII and tyrosyl free-radical active site of the enzyme macromolecule galactose oxidase (goase).
121. The Aquo Ions of Molybdenum.
122. Mechanistic studies on the cis-[VO2(H2O)4]+ and [Mo(CN)8]3– oxidations of the Re IV 2 complex [(C2O4)2Re(µ-O)2Re(C2O4)2]4–.
123. Kinetics of substitution of H2O by NCS– on µ-selenido incomplete cuboidal MIV 3 clusters [Mo3O x Se4–x (H2O)9]4+ and on [Mo4Se4(H2O)12]5+.
124. Oxidation of [2Fe–2S] isoferredoxins with [Co(NH3)6]3+ and [Cr(phen)3]3+(phen = 1,10-phenanthroline): mechanism of electron transfer.
125. Kinetics of 1 : 1 NCS– for H2O substitution on W IV of [W3(µ3-S)(µ-S)3(H2O)9]4+ and [W3(µ3-S)(µ-O)3(H2O)9]4+: the effect of replacing core oxo by sulphido ligands and comparisons with Mo IV 3.
126. Preparation, characterisation, and intramolecular electron-transfer studies on the penta-ammineruthenium histidine-modified high-potential iron–sulphur protein from Chromatium vinosum.
127. Preparation and redox properties of the cuboidal molybdenum(III) aqua ion [Mo4S4(H2O)12]4+.
128. Kinetic studies on 1 : 1 electron-transfer reactions involving blue copper proteins. Part 14. Reactions of poplar plastocyanin with inorganic complexes.
129. Preparation and properties of the tungsten(V) aqua dimer [W2O4(H2O)6]2+: kinetic studies on the 1:1 reaction with NCS–.
130. Reaction paths and kinetics in the Cr2+ reduction of the Mo V 2 and Mo IV 3 ions [Mo2O4(H2O)6]2+ and [Mo3O4(H2O)9]4+.
131. Kinetic, spectroscopic, and structural (extended X-ray absorption fine structure) studies on the type 1 blue copper protein umecyanin.
132. Kinetic studies on 1 : 1 electron-transfer reactions involving blue copper proteins. Part 12. Reactions of spinach plastocyanin with inorganic redox partners.
133. Preferred sites for electron exchange between cytochrome c and [Fe(edta)]2– and [Co(sep)]2+ complexes.
134. Kinetic and mechanistic studies on the reaction of dioxygen with hexa-aquamolybdenum(III).
135. Kinetic studies on 1:1 electron-transfer reactions involving blue copper proteins. Part 9. Effects of chromium(III) modification on reactions of plastocyanin with [Co(phen)3]3+(phen = 1,10-phenanthroline), [Fe(CN)6]3–, [Co(dipic)2]–(dipic = dipicolinate)(oxidants) and [Ru(NH3)5(py)]2+(py = pyridine)(reductant)
136. Kinetic studies on 1:1 electron-transfer reactions involving blue copper proteins. Part 10. The assignment of binding sites in the reactions of plastocyanin (and azurin) with non-physiological protein redox partners.
137. Kinetic studies on the oxidation of hexa-aquamolybdenum(III) with [IrCl6]2–, [Co(C2O4)3]3–, and aquavanadium(IV).
138. Kinetic studies on 1 : 1 electron-transfer reactions involving blue copper proteins. Part 6. Competitive inhibition of the [Co(phen)3]3+(phen = 1,10-phenanthroline) oxidation of parsley plastocyanin PCu(I) by redox-inactive complexes.
139. Kinetic studies on 1 : 1 electron-transfer reactions involving blue copper proteins. Part 7. Effects of pH and redox-inactive [Pt(NH3)6]4+ on reactions of parsley plastocyanin with different inorganic redox partners.
140. Kinetic studies on 1 : 1 electron-transfer reactions involving blue copper proteins. Part 5. Reactions of parsley plastocyanin and Pseudomonas aeruginosa azurin with the negatively charged oxidants [(NC)5FeCNCo(CN)5]5– and [Fe(CN)6]3–.
141. Reduction potentials for µ-superoxo/µ-peroxo-dicobalt(III) couples.
142. Influence of co-ordination number on copper(I)–copper(II) redox interconversions. Part 3. Reduction of a sterically constrained bis-(substituted phenanthroline) complex of copper(II) by iron(II) and ruthenium(II) complexes.
143. Studies on the µ-(NN′)-ethylenediaminetetra-acetato-di-µ-oxo-bis-[oxotungstate(V)], [W2O4(edta)]2–, complex in aqueous solutions. Formation of an aquo-ion and redox properties.
144. Intramolecular charge-transfer decomposition of the µ-peroxo-bis[penta-amminecobalt(III)]complex in acidic solutions. Stabilization by protonation and the effect of chloride and sulphate.
145. Kinetic data for outer-sphere V2+ and [Ru(NH3)6]2+ reductions of platinum(IV) complexes and a correlation of rate constants.
146. Preparation and characterization of dimeric molybdenum(III)–ethylenediaminetetra-acetate complexes.
147. Preparation and properties of new molybdenum–ethylenediaminetetra-acetato-complexes formed by the oxidation of the molybdenum(III,III) dimer [Mo2(O2CMe)(OH)2(edta)]–.
148. The influence of co-ordination number on copper(I)–(II) redox interconversions. Part 1. Reduction of five-co-ordinate (±)-5,5,7,12,12,14-hexamethyl-1,4,8,11-tetra-azacyclotetradecanecopper(II) complexes, [Cu II (tet-b)X]+(X–= Cl–, Br–, or thiourea), with Cr2+, V2+, and [Ru(NH3)6]2+
149. Aquation of formato-, NN-dimethylformamide-, and fluoro-penta-amminechromium(III) complexes. Identification of reaction paths and kinetic studies.
150. The Cr2+and V2+reduction of µ-carboxylato dicobalt(III) ammine complexes. Part VIII. The mechanism of reduction of the di-µ-hydroxo-µ-oxalato-bis[triamminecobalt(III)] complex.
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