Client Publications: RSM users - OLIS, Inc.olisweb.com/olisweb_old/PDFs/RSMusers-pub.pdfClient...
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Client Publications: RSM users BR Kelemen, M Du, RB Jensen. Proteorhodopsin in living color: diversity of spectral properties within living bacterial cells. BBA Biomembranes 1618, 25-32. 2003. L Bao, D Sun, H Tachikawa, VL Davidson. Improved Sensitivity of a Histamine Sensor Using an Engineered Methylamine Dehydrogenase. Anal. Chem. 74, 1144-1148. 2002. JJ Warren and JM Mayer. Tuning of the Thermochemical and Kinetic Properties of Ascorbate by Its Local Environment: Solution Chemistry and Biochemical Implications. JACS 132,7784-7793. 2010. J Shey, CM McGinley, KM McCauley, AS Dearth, BT Young, WA van der Donk. Mechanistic Investigation of a Novel Vitamin B12-Catalyzed Carbon-Carbon Bond Forming Reaction, the Reductive Dimerization of Arylalkenes. J. Org. Chem. 67, 837-845. 2002. J DePriest, GY Zheng, N Goswami, DM Eichhorn, C Woods, DP Rillema. Structure, Physical, and Photphysical Properties of Platinum (II) Complexes Containing Bidentate Aromatic and Bis(diphenylphosphino)methane as Ligands. Inorg. Chem. 39, 1955-1963. 2000. AM Leone, DO Hull, W Wang, HH Thorp, RW Murry. Electrocatalysis in Nucleic Acid Molten Salts. J. Phys. Chem. A 108, 9787-9793. 2004. A Wu, EA Mader, A Datta, DA Hrovat, WT Borden, JM Mayer. Nitroxyl Radical plus Hydroxylamine Pseudo Self-Exchange Reactions: Tunneling in Hydrogen Atom Transfer. JACS 131,11985-11997. 2009. V Martin-Dia Conescu P Kennepohl. Effects of Hyperconjugation on the Electronic Structure and Photoreactivity of Organic Sulfonyl Chlorides. Inorg. Chem. 48, 1038-1044. 2009. DL Casher, H Tsuji, A Sano, M Katkevics, A Toshimitsu, K Tamao, M Kubota, T Kobayashi, CH Ottosson, DE David, J Michl. The Disilane Chromophore: Photoelectron and Electronic Spectra of Hexalkyldisilanes and 1,(n+2)-Disila(n,n,n,) Propellanes. J. Phys. Chem. A 107, 3559-3566. 2003. MG El-Din, DW Smith, F Al Momani, W Wang. Oxidation of resin and fatty acids by ozone: Kinetics and toxicity study. Water Research 40, 392-400. 2006. S Harold, S Kalinga, T Matsui, Y Watanabe. Mechanistic Studies of the Isomerization of Peroxynitrite to Nitrate Catalyzed by Distal Histidine Metmyoglobin Mutants. JACS 126, 6945- 6955. 2004. EA Mader, ER Davidson, JM Mayer. Large Ground-State Entropy Changes for Hydrogen Atom Transfer Reactions of Iron Complexes. Journal of the American Chemical Society 129 5133- 5166. 2007. P Tkac, M Precek, A Paulenova. Redox Reactions of Pu(IV) and Pu(III) in the Presence of Acetohydroxamic Acid in HNO3 Solutions. Inorg. Chem. 48, 11935-11944. 2009. A Mukherjee, VV Smirnov, MP Lanci, DE Brown, EM Shepard, DM Dooley, JP Roth. Inner- Sphere Mechanism for Molecular Oxygen Reduction Catalyzed by Copper Amine Oxidases. JACS 130 9459-9473. 2008. A Wu and JM Mayer. Hydrogen Atom Transfer Reactions of a Ruthenium Imidazole Complex: Hydrogen Tunneling and the Applicability of the Marcus Cross Relation. JACS 130, 14745-14754. 2008.
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Transcript of Client Publications: RSM users - OLIS, Inc.olisweb.com/olisweb_old/PDFs/RSMusers-pub.pdfClient...
Client Publications: RSM users
BR Kelemen, M Du, RB Jensen. Proteorhodopsin in living color: diversity of spectral propertieswithin living bacterial cells. BBA Biomembranes 1618, 25-32. 2003.
L Bao, D Sun, H Tachikawa, VL Davidson. Improved Sensitivity of a Histamine Sensor Using anEngineered Methylamine Dehydrogenase. Anal. Chem. 74, 1144-1148. 2002.
JJ Warren and JM Mayer. Tuning of the Thermochemical and Kinetic Properties of Ascorbate byIts Local Environment: Solution Chemistry and Biochemical Implications. JACS 132,7784-7793.2010.
J Shey, CM McGinley, KM McCauley, AS Dearth, BT Young, WA van der Donk. MechanisticInvestigation of a Novel Vitamin B12-Catalyzed Carbon-Carbon Bond Forming Reaction, theReductive Dimerization of Arylalkenes. J. Org. Chem. 67, 837-845. 2002.
J DePriest, GY Zheng, N Goswami, DM Eichhorn, C Woods, DP Rillema. Structure, Physical, andPhotphysical Properties of Platinum (II) Complexes Containing Bidentate Aromatic andBis(diphenylphosphino)methane as Ligands. Inorg. Chem. 39, 1955-1963. 2000.
AM Leone, DO Hull, W Wang, HH Thorp, RW Murry. Electrocatalysis in Nucleic Acid MoltenSalts. J. Phys. Chem. A 108, 9787-9793. 2004.
A Wu, EA Mader, A Datta, DA Hrovat, WT Borden, JM Mayer. Nitroxyl Radical plusHydroxylamine Pseudo Self-Exchange Reactions: Tunneling in Hydrogen Atom Transfer. JACS131,11985-11997. 2009.
V Martin-Dia Conescu P Kennepohl. Effects of Hyperconjugation on the Electronic Structure andPhotoreactivity of Organic Sulfonyl Chlorides. Inorg. Chem. 48, 1038-1044. 2009.
DL Casher, H Tsuji, A Sano, M Katkevics, A Toshimitsu, K Tamao, M Kubota, T Kobayashi, CHOttosson, DE David, J Michl. The Disilane Chromophore: Photoelectron and Electronic Spectra ofHexalkyldisilanes and 1,(n+2)-Disila(n,n,n,) Propellanes. J. Phys. Chem. A 107, 3559-3566.2003.
MG El-Din, DW Smith, F Al Momani, W Wang. Oxidation of resin and fatty acids by ozone:Kinetics and toxicity study. Water Research 40, 392-400. 2006.
S Harold, S Kalinga, T Matsui, Y Watanabe. Mechanistic Studies of the Isomerization ofPeroxynitrite to Nitrate Catalyzed by Distal Histidine Metmyoglobin Mutants. JACS 126, 6945-6955. 2004.
EA Mader, ER Davidson, JM Mayer. Large Ground-State Entropy Changes for Hydrogen AtomTransfer Reactions of Iron Complexes. Journal of the American Chemical Society 129 5133-5166. 2007.
P Tkac, M Precek, A Paulenova. Redox Reactions of Pu(IV) and Pu(III) in the Presence ofAcetohydroxamic Acid in HNO3 Solutions. Inorg. Chem. 48, 11935-11944. 2009.
A Mukherjee, VV Smirnov, MP Lanci, DE Brown, EM Shepard, DM Dooley, JP Roth. Inner-Sphere Mechanism for Molecular Oxygen Reduction Catalyzed by Copper Amine Oxidases.JACS 130 9459-9473. 2008.
A Wu and JM Mayer. Hydrogen Atom Transfer Reactions of a Ruthenium Imidazole Complex:Hydrogen Tunneling and the Applicability of the Marcus Cross Relation. JACS 130, 14745-14754.2008.
EA Mader, ER Davidson, JM Mayer. Large Ground-State Entropy Changes for Hydrogen AtomTransfer Reactions of Iron Complexes. JACS 129, 5153-5166. 2007.
M Li, A Ellern, JH Espenson. Rhenium (V) Complexes with Thiolate and Dithiolao Ligands:Synthesis, Structures, and Monomerization Reactions. Inorg. Chem. 44, 3690-3699. 2005.
HA Fogarty, R Imhof, J Michl. From the Cover: Magnetic circular dichroism of peralkylatedtetrasilane conformers . PNAS 101, 10517-10522. 2004.
JR Bryant and JM Mayer. Oxidation of C-H Bonds by [(bpy)2(py)RuIVO]2+ Occurs by HydrogenAtom Abstraction. JACS 125, 10351-10361. 2003.
Y Chen and MW Perkovic. Photophysical observations on Cr(III) bis-cyclam dimers. InorganicaChimica Acta 317, 127-132. 2001.
DC Wynne, MM Olmstead, PG Jessop. Supercritical and Liquid Solvent Effects on theEnantioselectivity of Assymetric Cyclopropanation with Tetrakis [1-[(4-tert-butylphenyl)-sulfonyl]-(2S)-pyrrolidinecarboxylate]dirhodium(II). JACS 122, 7638-7647. 2000.
ET Papish, FC Rix, N Spetseris, JR Norton, RD Williams. Protonation of CPW(CO)2(PM3)H: Isthe Metal of the Hydride the Kinetic Site. JACS 122, 12235-12242. 2000.
GD Klungress and RH Byrne. Comparative hydrolysis behavior of the rare earths and yttrium: theinfluence of temperature and ionic strength. Polyhedron 19, 99-107. 2000.
KS Haygarth, TW Marin, I Janik, K Kanjana, CM Stanisky, DM Bartels. Carbonate RadicalFormation in Radiolysis of Sodium Carbonate and Bicarbonate Solutions up to 250 °C and theMechanism of its Second Order Decay. J Phys Chem A 114, 2142-2150. 2010.
A Wu, EA Mader, A Datta, DA Hrovat, WT Borden, JM Mayer. Nitroxyl Radical PlusHydroxylamine Pseudo Self-Exchange Reactions: Tunneling in Hydrogen Atom Transfer. JACS131, 11985-11997. 2009.
DC Crans, B Baruah, E Gaidamauskas, BG Lemons, BB Lorenz, MD Johnson. Impairment ofascorbic acid’s anti-oxidant properties in confined media: Inter and intramolecular reactions withair and vanadate at acidic pH. J Inorganic Biochem. 102, 1334-1347. 2008.
MJ Vasbinder and A Bakac. Kinetics and mechanism of the reactions of ozone with superoxo,hydroperoxo, and hydrido complexes of rhodium(III). Inorganica Chemica Acta 361, 3193-3198.2008.
T Egawa, A Tsuneshige, M Suematsu, T Yonetoni. Method for Determination of Association andDissociation Rate Constants of Reversible Bimolecular Reactions by Isothermal TitrationCalorimeters. Anal. Chem. 79, 2972-2978. 2007.
O Pestovsky and A Bakac. Aqueous Ferryl(IV) Ion: Kinetics of Oxygen Atom Transfer toSubstrates and Oxo Exchange with Solvent Water. Inorg. Chem. 45, 814-820. 2006.
Y Cai, N Koshino, B Saha, JH Espenson. Kinetics of Self-Decomposition and Hydrogen AtomTransfer Reactions of Substituted Phthalimide N-Oxyl Radicals in Acetic Acid. J. Org. Chem. 70,238-243. 2005.
AF Vanin, AA Papina, VA Serezhenkov, WH Koppenol. The mechanisms of S-nitrosothioldecomposition catalyzed by iron. Nitric Oxide 10, 60-73. 2004.
G Bodemer, LM Ellis, PJ Lace, PE Mooren, NK Patel, MP ver Haag, AA Pacheco.Photochemically-induced reduction and rearrangements of N,N_-bis-(carboxymethyl)-N,N_-dinitroso-1,4-phenylenediamine. J Photochemistry and Photobiolog A: Chemistry. 2004.
JD Soper, IJ Rhile, AG DiPasquale, JM Mayer. Oxidation of TpOsIII(NH2Ph)Cl2 toTpOsIV(NHPh)Cl2 by O2. Polyhedron 23, 323-329. 2004.
S Herold. Nitrotyrosine, dityrosine, and nitrotryptophan formation from metmyoglobin, hydrogenperoxide, and nitrite. Free Radical Biology and Medicine 36, 565-579. 2004.
X Shan, A Ellern, IA Guzei, JH Espenson. Ligand Displacement and Oxidation Reactions ofMethyl (oxo)rhenium(V) Complexes. Inorg. Chem. 43, 3854-3862. 2004.
CR Curz, R Kissner, T Nauser, D Perrin, WH Koppenol. Rapid scavenging of peroxynitrous acidby monohydroascorbate. Free Radical Biology and Medicine. 2003.
N Koshino, Y Cai, JH Espenson. Kinetic Study of the Phthalimide N-Oxyl (PINO) Radical in AceticAcid. Hydrogen Abstraction from C_H Bonds and Evaluation of O_H Bond Dissociation Energy ofN-Hydroxyphthalimide. J. Phys. Chem A 107, 4262-4267. 2003.
J Sun and DM Stanbury. Trace metal-ion catalysis of oxidation of aqueous hydrogen sulfide byouter-sphere oxidants. Inorganica Chimica Acta 336, 39-45. 2002.
JH Espenson, X Shan, Y Wang, R Huang, DW Lahti, J Dixon, G Lente, A Ellern, IA Guzei.Synthesis and Characterization of Dimetallic Oxorhenium (V) and Dioxorhenium (VII)Compounds, and a Study of Stoichiometric and Catalytic Reactions. Inorg. Chem. 41, 2583-2591.2002.
MP Jensen and DP Riley. Peroxynitrate Decomposition Activities of Iron Porphyrin Complexes.Inorg. Chem. 41, 4788-4797. 2002.
D Schweitzer, J Shearer, DK Rittenberg, SC Shoner, JJ Ellison, R Loloee, S Lovell, D Barnhart,JA Kovacs. Enhancing Reactivity via Structural Distortion. Inorg. Chem. 41, 3128-3136. 2002.
Y Han, J Harlan, P Stroessel, BJ Frost, JR Norton, S Miller, B Bridgewater, Q Xu. Rhenium OxoComplexes of a Chelating Diyne Ligand. Sythesis and Study of the Kinetics of Protonation. Inorg.Chem. 40, 2942-2952. 2001.
MT Caudle and VL Pecoraro. Mechanism for the Reduction of the Mixed-Valent Mn(III)Mn(IV)[2-Ohsalpn]2+ Cmplex by Tertiary Amines. Inorg. Chem. 39, 5831-5837. 2000.
JI Alakoskela and PKJ Kinnunen. Probing Phospholipid Main Phase Transition by FluorescenceSpectroscopy and a Surface Redox Reaction. J. Phys. Chem. B 105, 11294-11301. 2001.
A soli and RH Byrne. CO2 system hydration and dehydration kinetics and the equilibriumCO2/H2CO3 ratio in aqueous NaCl solution. Marine Chemistry 78, 65-73. 2002.
AM Carver, M De, H Bayaktar, S Rana, VM Rotello, MJ Knapp. Intermolecular Electron-TransferCatalyzed on Nanoparticle Surfaces. JACS 131, 3798-3799. 2009.
N Dimitrijevic, DM Bartels, CD Jonah, K Takahashi, T Rajh. Radiolytically Induced Formation andOptical Absorption Spectra of Colloidal Silver Nanoparticles in Supercritical Ethane,. J. Phys.Chem. B 105, 954-959. 2001.
DW Brinkley and JP Roth. Determination of a Large Reorganization Energy Barrier for HydrideAbstraction by Glucose Oxidase. Journal of the American Chemical Society 127, 15720-15721.2005.
JJ Barrett, ML McKee, DM Stanbury. Acidic Aqueous Decomposition of Thiocyanogen. Inorg.Chem. 43 5021-5033. 2004.
S Herold, M Exner, F Boccini. The Mechanism of the Peroxynitrite-Mediated Oxidation ofMyoglobin in the Absence and Presence of Carbon Dioxide. Chem. Res. Toxicology 16, 390-402.2003.
EA Mader, VW Manner, TF Markle, A Wu, JA Franz, TM Mayer. Trends in Ground-StateEntropies for Transition Metal Based Hydrogen Atom Transfer Reactions. JACS 131, 4335-4345.2009.
JJ Warren and JM Mayer. Hydrogen Atom Transfer Reactions of Iron_Porphyrin_ImidazoleComplexes as Models for Histidine-Ligated Heme Reactivity. JACS 130, 2774-2776. 2008.
VV Smirnov and JP Roth. Evidence for Cu_O2 Intermediates in Superoxide Oxidations byBiomimetic Copper(II) Complexes. JACS 128, 3683-3695. 2006.
X Wang and DM Stanbury. Oxidation of Iodide by a Series of Fe(III) Complexes in Acetonitrile.Inorg. Chem. 45, 3415-3423. 2006.
A Bakac, C Shi, O Pestovsky. Acid-Catalyzed Oxidation of Iodide Ions by Superoxo Complexesof Rhodium and Chromium. Inorg. Chem. 43, 5416-5421. 2004.
EA Mader, AS Larson, JM Mayer. Hydrogen Atom Transfer from Iron(II)_Tris[2,2‘-bi(tetrahydropyrimidine)] to TEMPO: A Negative Enthalpy of Activation Predicted by the MarcusEquation. JACS 126, 8066-8067. 2004.
O Pestovsky and A Bakac. Reactivity of Aqueous Fe(IV) in Hydride and Hydrogen Atom TransferReactions. JACS 126, 13757-13764. 2004.
JC Yoder, JP Roth, EM Gussenhoven, AS Larson, JM Mayer. Electron and Hydrogen-Atom Self-Exchange Reactions of Iron and Cobalt Coordination Complexes. JACS 125, 2629-2640. 2003.
AE Visser, MP Jensen, I Laszak, KL Nash, GR Choppin, RD Rogers. Uranyl CoordinationEnvironment in Hydrophobic Ionic Liquids: An in Situ Investigation. Inorg. Chem. 42, 2197-2199.2003.
X Shan and JH Espenson. Kinetics and Mechanisms of Reactions of ReO(_2-edt)(_2-edtMe):Phosphane Displacement of the Thioether Group and Inversion of the Thioether Sulfur.Organometallics 22, 1250-1254. 2003.
J Shearer, RC Scarrow, JA Kovacs. Synthetic Models for the Cysteinate-Ligated Non-Heme IronEnzyme Superoxide Reductase: Observation and Structural Characterization by XAS of anFeIII_OOH Intermediate. JACS 124, 11709-11717. 2002.
J Shearer, IY Kung, S Lovell, W Kaminsky, JA Kovacs. Why Is There an “Inert” Metal Center inthe Active Site of Nitrile Hydratase? Reactivity and Ligand Dissociation from a Five-CoordinateCo(III) Nitrile Hydratase Model. JACS 123, 463-468. 2001.
DW Lahti and JH Espenson. Issues of Microscopic Reversibility and an Isomeric Intermediate inLigand Substitution Reactions of Five-Coordinate Oxorhenium(V) Dithiolate Complexes. JACS123, 6014-6024. 2001.
MHV Huynh, JM Lasker, M Wetzler, B Mort, LF Szczepura, LM Witham, JM Cintron, ACMarschilok, LJ Ackerman, RK Castelleno, DL Jameson, MR Churchill, AJ Jircitano, KJ Takeuchi.Remarkable Spectator Ligand Effect on the Rate Constant of Ligand Substitution of(Aqua)ruthenium(II) Complexes. JACS 123, 8780-8784. 2001.
NM Dimitrijevic, ZV Saponjic, DM Bartels, MC Thurnauer, DM Tiede, T Rajh. Revealing theNature of Trapping sites in Nanocrystalline Titanium Dioide by Selective Surface Modification. J.Phys. Chem. B 107, 7368-7375. 2003.
P Chelme-Ayala, M Gamal El-Din, and DW Smith. Kinetics and mechanism of the degradation oftwo pesticides in aqueous solutions by ozonation. Chemosphere 78, 557-562. 2010.
D Gupta, B Harish, R Kissner, WH Koppenol. Peroxynitrate is formed rapidly duringdecomposition of peroxynitrite at neutral pH. Dalton Trans. 2009, 5730-5736. 2009.
C Feng, G Tollin, JT Hazzard, NJ Nahm, JG Guillemette, JC Salerno, DK Ghosh. DirectMeasurement by Laser Flash Photolysis of Intraprotein Electron Transfer in a Rat Neuronal NitricOxide Synthase. JACS 129, 5621-5629. 2007.
MZ Cabail, V Mona, E Bae, A Meyor, AA Pacheco. Quantifying the Photoinduced Release ofNitric Oxide from N,N‘-Bis(carboxymethyl)-N,N‘-dinitroso-1,4-phenylenediamine. Effect ofReducing Agents on the Mechanism of the Photoinduced Reactions. J Phys. Chem. A. 111,1207-1213. 2007.
MZ Cabail, PJ Lace, J Uselding, AA Pacheco. Kinetic studies of the photoinitiated NO-releasingreactions of N,N_-bis-(carboxymethyl)-N,N_-dinitroso-1,4-phenylenediamine. J Photochemistryand Photobiology: Chemistry 152, 109-121. 2002.
JJ Warren and JM Mayer. Surprisingly Long-Lived Ascorbyl Radicals in Acetonitrile: ConcertedProton_Electron Transfer Reactions and Thermochemistry. JACS 130, 7546-7547. 2008.
N Song and DM Stanbury. Proton-Coupled Electron-Transfer Oxidation of Phenols byHexachloroiridate(IV). Inorg. Chem 47, 11458-11460. 2008.
VW Manner, AG DiPasquale, JM Mayer. Facile Concerted Proton_Electron Transfers in aRuthenium Terpyridine-4_-Carboxylate Complex with a Long Distance Between the Redox andBasic Sites. JACS 130, 7210-7211. 2008.
MJ Vashinder and A Bakac. Hydrogen-Atom Transfer from Transition Metal Hydroperoxides,Hydrogen Peroxide, and Alkyl Hydroperoxides to Superoxo and Oxo Metal Complexes. Inorg.Chem. 46, 2921-2928. 2007.
M Sturzbecher, R Kissner, T Nauser, WH Koppenol. Homolysis of the Peroxynitrite AnionDetected with Permanganate. Inorg. Chem. 46, 10655-10658. 2007.
MJ Vashinder and A Bakac. Kinetics of Oxidation of Nitroxyl Radicals with SuperoxometalComplexes of Chromium and Rhodium. Inorg. Chem. 46, 2322-2327. 2007.
AA Papina and WH Koppenol. Two Pathways of Carbon Dioxide Catalyzed Oxidative Coupling ofPhenol by Peroxynitrite. Chem. Res. Toxicol. 19, 382-391. 2006.
S Herold and F. Boccini. NO• Release from MbFe(II)NO and HbFe(II)NO after Oxidation byPeroxynitrite. Inorg. Chem. 45, 6933-6943. 2006.
G Du and JH Espenson. Oxidation of Vanadium(III) by Hydrogen Peroxide and the OxoMonoperoxo Vanadium(V) Ion in Acidic Aqueous Solutions: A Kinetic and Simulation Study.Inorg. Chem. 44, 5514-5522. 2005.
T Matsuo and JM Mayer. Oxidations of NADH Analogues by cis[RuIV(bpy)2(py)(O)]2+. Inorg.Chem. 44, 2150-2158. 2005.
M Hung and A Bakac. Kinetics and Mechanism of Acid-Catalyzed Oxidation of Bromide Ions bythe Aqueous Chromyl(IV) Ion. Inorg. Chem. 44, 9293-9298. 2005.
M Hung and DM Stanbury. Catalytic and Direct Oxidation of Cysteine by Octacyanomolybdate(V).Inorg. Chem. 44, 3541-3550. 2005.
P Shi and DA Scherson. Diffusion Boundary Layer of a Rotating Disk Electrode As a Thin-LayerSpectroelectrochemical Cell. Anal. Chem. 76, 2398-2400. 2004.
F Boccinni and S Herold. Mechanistic Studies of the Oxidation of Oxyhemoglobin byPeroxynitrite. Biochemistry 43, 16393-16404. 2004.
IJ Rhile and JM Mayer. One-Electron Oxidation of a Hydrogen-Bonded Phenol Occurs byConcerted Proton-Coupled Electron Transfer. JACS 126, 12718-12719. 2004.
MJ Harrigan and JD Atwood. Hydride Participation in Electron Transfer Processes between MetalCarbonyl Anions and Cations. Organometallics 23, 846-849. 2004.
SC Weatherly, IV Yang, PA Armistead, H Holden Thorp. Proton-Coupled Electron Transfer inGuanine Oxidation: Effects of Isotope, Solvent, and Chemical Modifications. J. Phys. Chem. B107, 372-378. 2003.
P Maurer, CF Thomas, R Kissner, H Ruegger, O Greter, U Rothlisberger, WH Koppenol.Oxidation of Nitrite by Peroxynitrous Acid. J. Phys. Chem. A 107, 1763-1769. 2003.
AS Larsen, K Wang, A Lockwood, GL Rice, TJ Won, S Lovell, M Salilek, F Turecek, JM Mayer.Hydrocarbon Oxidation by Bis-_-oxo Manganese Dimers: Electron Transfer, Hydride Transfer,and Hydrogen Atom Transfer Mechanisms. JACS 124, 10112-10123. 2002.
B Xie, LJ Wilson, DM Stanbury. Cross-Electron-Transfer Reactions of the [CuI/II(bpy)]2+/+ RedoxCouple. Inorg. Chem. 40, 3606-3614. 2001.
B Saha and DM Stanbury. Oxidation of [Ru(NH3)5isn](BF4)2 by Hypochlorous Acid and Chlorinein Aqueous Acidic Media. Inorg. Chem. 40, 5139-5146. 2001.
T Nauser, M Merkofer, R Kissner, WH Koppenol. Gibbs Energy of Formation of Peroxynitrite.Chem. Res. Toxicol. 14, 348-350. 2001.
B Saha and DM Stanbury. Thermal and Photchemical Reduction of Aqueous Chlorine byRuthenium (II) Polypyridyl Complexes. Inorg. Chem. 39, 1294-1300. 2000.
Y Furukawa, K Ishimori, I Morishima. Electron Transfer Reactions in Zn-Substituted CytochromeP450Cam. Biochemistry 39, 10996-11004. 2000.
M Exner and S Herold. Kinetic and Mechanistic Studies of the Peroxynitrite-Mediated Oxidation ofOxymyoglobin and Oxyhemoglobin. Chem. Res. Toxicol. 13, 287-293. 2000.
H Tsuji, A Toshimitsu, K Tamao, J Michl. UV, MCD, and LD Spectra of a ConformationallyConstrained ortho-Tetrasilane: Support for the Avoided Crossing Model of ConformationalEffects on Excited States. J. Phys. Chem. A 105, 10246-10248. 2001.
M Park and TC Bruice. Binding studies of cationic uridyl ribonucleic guanidine (RNG) to DNA.Chemical and Medicinal Chemistry Letters 15, 3247-3251. 2005.
MA Khan, H Yumak, DJ Goss. Kinetic Mechanism for the Binding of eIF4F and Tobacco EtchVirus Internal Ribosome Entry Site RNA: EFFECTS OF eIF4B AND POLY(A)-BINDINGPROTEIN . J Biol Chem 284, 35461-35470. 2009.
RD Gray and JB Chaires. Kinetics and Mechanism of K+- and Na+- Induced Folding of Models ofHuman Telomeric DNA into G-Quadruplex Structures. Nucleic Acids Res. 36, 4191-4203. 2008.
M Park, JW Toporowski, TC Bruice. Ribonucleic guanidine demonstrates an unexpected markedpreference for complementary DNA rather than RNA. Bioorg. Chem. 14, 1743-1749. 2006.
J Gidden, A Ferzoco, ES Baker, MT Bowers. Duplex Formation and the Onset of Helicity in Polyd(CG)n Oligonucleotides in a Solvent-Free Environment. JACS 126, 15132-15140. 2004.
BA Linkletter and TC Bruice. Solid-phase synthesis of positively charged deoxynucleic guanidine(DNG) modified oligonucleotides containing neutral urea linkages: effect of charge deletions onbinding and fidelity. Bioorganic and Medicinal Chemistry 8, 1893-1901. 2000.
F Al Momani, DW Smith, MG El Din. Degradation of cyanobacteria toxin by advanced oxidationprocesses. J Hazardous Materials 150, 238-249. 2008.
P Filipe, LK Patterson, DM Bartels, GL Hug, JP Freitas, JC Maziera, R Santus, P Morliere.Albumin-Bound Quercetin Repairs Vitamin E Oxidized by Apolipoprotein Radicals in Native HDL3and LDL. Biochemistry 46, 14305-14315. 2007.
J-MI Alkoskela and PKJ Kinnunen. Control of a Redox Reaction on Lipid Bilayer Surfaces byMembrane Dipole Potential. Biophys J 80, 294-304. 2001.
A Coronado-Gray and R van Antwerpen. The physical state of the LDL core influences theconformation of apolipoprotein B-100 on the lipoprotein surface. FEBS Lett. 533, 21-24. 2003.
CE Sabel, S St-Denis, JM Neureuthes, R Carbone, S Siemann. Alkaline earth metals are notrequired for the restoration of the apoform of anthrax lethal factor to its holoenzyme state.Biophys. Biochem. Res. Comm. 403, 209-213. 2010.
LM Hughes, R Covian, GW Gribble, BL Trumpower. Probing binding determinants in center P ofthe cytochrome bc1 complex using novel hydroxy-naphthoquinones. BBA Bioenergetics 1797, 38.2010.
C Armishaw, AA Jensen, T Balle, RJ Clark, K Harpsoe, C Skonberg, T Liljefors, K Stromgaard.Rational Design of _-Conotoxin Analogues Targeting _7 Nicotinic Acetylcholine Receptors:IMPROVED ANTAGONISTIC ACTIVITY BY INCORPORATION OF PROLINE DERIVATIVES . JBiol Chem 284, 9498-9512. 2009.
MA Khan, H Miyoshi, DR Gallie, DJ Goss. Potyvirus Genome-linked Protein, VPg, Directly AffectsWheat Germ in Vitro Translation: INTERACTIONS WITH TRANSLATION INITIATION FACTORSeIF4F AND eIFiso4F . J Biol Chem 283, 1340-1349. 2008.
R Covian, K Zwicker, FA Rotsaert, BL Trumpower. Asymmetric and Redox-specific Binding ofQuinone and Quinol at Center N of the Dimeric Yeast Cytochrome bc1 Complex:
CONSEQUENCES FOR SEMIQUINONE STABILIZATION . J Biol Chem 282, 24198-24208.2007.
R Covian, T Kleinschroth, B Ludwig, BL Trumpower. Asymmetric Binding of Stigmatellin to theDimeric Paracoccus denitrificans bc1 Complex: EVIDENCE FOR ANTI-COOPERATIVEUBIQUINOL OXIDATION AND COMMUNICATION BETWEEN CENTER P UBIQUINOLOXIDATION SITES . J Biol Chem 282, 22289-22297. 2007.
TD Turbeville, J Zhang, GA Hunter, GC Ferreira. Histidine 282 in 5-Aminolevulinate SynthaseAffects Substrate Binding and Catalysis. Biochemistry 46, 5972-5981. 2007.
L Varanasi, D Mills, A Murphree, J Gray, C Purser, R Baker, J Hosler. Altering Conserved LipidBinding Sites in Cytochrome c Oxidase of Rhodbacter sphaeroides Perturbs the InteractionBetween Subunits I and II and Promotes Suicide Inactivation of the Enzyme. Biochemistry 45,14896-14907. 2006.
SW Crawley, MA de la Roche, S-F Shee, Z Li, S Chitayat, SP Smith, GP Cote. Identification andCharacterization of an 8-kDa Light Chain Associated with Dictyostelium discoideum MyoB, aClass I Myosin . J Biol Chem 281, 6307-6315. 2006.
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M Castellani, R Covian, T Kleinschroth, O Anderkay, B Ludwig, BL Trumpower. DirectDemonstration of Half-of-the-sites Reactivity in the Dimeric Cytochrome bc1 Complex: ENZYMEWITH ONE INACTIVE MONOMER IS FULLY ACTIVE BUT UNABLE TO ACTIVATE THESECOND UBIQUINOL OXIDATION SITE IN RESPONSE TO LIGAND BINDING AT THEUBIQUINONE REDUCTION SITE . JBC 285, 502-510. 2010.
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EJ Fogle and WA van der Donk. Pre-Steady State Studies of Phosphite DeydrogenaseDemonstrate That Hydride Transfer is Fully Rate Limiting. Biochemistry 46, 13101-13108. 2007.
JK Ma, Y Wang, CJ Carrell, FS Mathews, VL Davidson. A Single Methionine Residue Dictatesthe Kinetic Mechanism of Interprotein Electron Transfer from Methylamine Dehydrogenase toAmicyanin. Biochemistry 46, 11137-11146. 2007.
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TV Demidkina, NG Faleev, AI Papisova, NP Bazhulina, VV Kulikova, PD Gollnick, RS Phillips.Aspartic acid 214 in Citrobacter freundii tyrosine phenol-lyase ensures sufficient C–H-acidity ofthe external aldimine intermediate and proper orientation of the cofactor at the active site. BBAProteins and Proteomics 1764, 1268-1276. 2006.
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CH Li and SC Tu. Active Site Hydrophobicity Is Critical to the Bioluminescence Activity of Vibrioharveyi Luciferase. Biochemistry 44, 12970-12977. 2005.
CH Li and SC Tu. Probing the Functionalities of _Glu328 and _Ala74 of Vibrio harveyi Luciferaseby Site-Directed Mutagenesis and Chemical Rescue. Biochemistry 44, 13866-13873. 2005.
DA Mills, L Geren, C Hiser, B Schmidt, B Durham, F Millet, S Ferguson-Miller. An Arginine toLysine Mutation in the Vicinity of the Heme Propionates Affects the Redox Potentials of theHemes and Associated Electron and Proton Transfer in Cytochrome c Oxidase. Biochemistry 44,10457-10465. 2005.
WE Karsten, T Ohshiro, Y Izumi, PF Cook. Reaction of Serine-Glyoxylate Aminotransferase withthe Alternative Substrate Ketomalonate Indicates Rate-Limiting Protonation of a QuinonoidIntermediate. Biochemistry 44, 15930-15936. 2005.
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GA Hunter, E Rivera, GC Ferreira. Supraphysiological concentrations of 5-aminolevulinic aciddimerize in solution to produce superoxide radical anions via a protonated dihydropyrazineintermediate. ABB 437, 128-137. 2005.
MZ Cabail, J Kostera, AA Pacheco. Laser Photoinitiated Nitrosylation of 3-Electron Reduced Nmeuropaea Hydroxylamine Oxidoreductase: Kinetic and Thermodynamic Properties of theNitrosylated Enzyme. Inorg. Chem. 44, 225-231. 2005.
RS Phillips and G Holterman. Differential Effects of Temperature and Hydrostatic Pressure on theFormation of Quinonoid Intermediates from l-Trp and l-Met by H463F Mutant Escherichia coliTryptophan Indole-lyase. Biochemistry 44, 14289-14297. 2005.
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MT Cash, EW Miles, RS Phillips. The reaction of indole with the aminoacrylate intermediate ofSalmonella typhimurium tryptophan synthase: observation of a primary kinetic isotope effect with3-[2H]indole. ABB 432, 233-243. 2004.
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RS Phillips, HY Chen, D Shin, S Lima, K Tavakoli, B Sundararaju. Role of Lysine-256 inCitrobacter freundii Tyrosine Phenol-lyase in Monovalent Cation Activation. Biochemistry 43,14412-14419. 2004.
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VB Gawandi, D Liskey, S Lima, RS Phillips. Reaction of Pseudomonas fluorescens Kynureninasewith _-Benzoyl-l-alanine: Detection of a New Reaction Intermediate and a Change in Rate-Determining Step. Biochemistry 43, 3230-3237. 2004.
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K -H Tang, AD Casarez, W Wu, PA Frey. Kinetic and biochemical analysis of the mechanism ofaction of lysine 5,6-aminomutase. ABB 418, 49-54. 2003.
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PJ Halbrooks, QY He, SK Briggs, SJ Everse, VC Smith, RTA MacGillivray. Investigation of theMechanism of Iron Release from the C-Lobe of Human Serum Transferrin: Mutational Analysis ofthe Role of a pH Sensitive Triad. Biochemistry 42, 3701-3707. 2003.
S Daum, CH Tai, PF Cook. Characterization of the S272A, D Site-Directed Mutations of O-Acetylserine Sulhydrylase: Involvement of the Pyridine Ring in the alpha, beta EliminationReaction. Biochemistry 42, 106-113. 2003.
S Herold and F-JK Rehmann. Kinetics of the reactions of nitrogen monoxide and nitrite with ferrylhemoglobin. Free Radical Biology and Medicine 34, 531-545. 2003.
SA Seibold, T Ball, LC His, DA Mills, RD Abeysinghe, R Micielli, CJ Rieke, RI Cukier, WL Smith.Histidine 386 and Its Role in Cyclooxygenase and Peroxidase Catalysis by Prostaglandin-endoperoxide H Synthases . J Biol Chem 278, 46163-46170. 2003.
VL Davidson. Probing mechanisms of catalysis and electron transfer by methylaminedehydrogenase by site-directed mutagenesis of _Phe55. BBA Proteins and Proteomics 1647,230-233. 2003.
D Sun and VL Davidson. Effects of Engineering Uphill Electron Transfer into the MethylamineDehydrogenase_Amicyanin_Cytochrome c-551i Complex. Biochemistry 42, 1772-1776. 2003.
DA Mills, Z Tan, S Ferguson-Miller, J Hosler. A Role for Subunit III in Proton Uptake into the DPathway and a Possible Proton Exit Pathway in Rhodobacter sphaeroides Cytochrome cOxidase. Biochemistry 42, 7410-7417. 2003.
PD Gollnick and RS Phillips. Role of Aspartate-133 and Histidine-458 in the Mechanism ofTryptophan Indole-Lyase from Proteus vulgaris. Biochemistry 42, 11161-11169. 2003.
S Neny, K Imai, H Hori, I Ishikawa, K Ishimori, D Okuno, S Nagatomo, T Hoshino, M Hata, NFunasaki. Iron Hemiporphycene as a Functional Prosthetic Group for Myoglobin. Inorg. Chem.42, 1456-1461. 2003.
ZM Beharry, DM Elby, ED Coulter, R Viswanathans, EL Neidle, RS Phillips, DM Kurtz, Jr..Histidine Ligand Protonation and Redox Potential in the Rieske Dioxygenases: Role of aConserved Aspartate in Anthranilate 1,2-Dioxygenase. Biochemistry 42, 13625-13636. 2003.
FP Guengerich, WA McCormick, JB Wheeler. Analysis of the Kinetic Mechanism of HaloalkaneConjugation by Mammalian _-Class Glutathione Transferases. Chem. Res. Toxicol. 16, 1493-1499. 2003.
JP Emerson, ED Coulter, RS Phillips, DM Kurtz Jr.. Kinetics of the Superoxide ReductaseCatalytic Cycle. J Biol Chem 278, 39662-39668. 2003.
KS Lyle, JA Haas, BG Fox. Rapid-Mix and Chemical Quench Studies of Ferredoxin-ReducedStearoyl-Acyl Carrier Protein Desaturase. Biochemistry 42, 5857-5866. 2003.
SP Wu and JA Cowan. Iron-Sulfur Cluster Biosynthesis. A Comparative Kinetic Analysis of Nativeand Cys-Substituted ISA-Mediated [2Fe-2S]2+ Cluster Transfer to an Apoferredoxin Target.Biochemistry 42, 5784-5791. 2003.
C-A Yu, X Wen, K Xiao, D Xia, L Yu. Inter- and intra-molecular electron transfer in thecytochrome bc1 complex. BBA Bioenergetics 1555, 65-70. 2002.
DA Mills and S Ferguson-Miller. Influence of structure, pH and membrane potential on protonmovement in cytochrome oxidase. BBA Bioenergetics 1555, 96-100. 2002.
DA Mills, B Schmidt, C Hiser, E Whestley, S Furgeson-Miller. Membrane Potential-controlledInhibition of Cytochromec Oxidase by Zinc . J Biol Chem 277, 14894-14901. 2002.
EB Gutierrez-Cirlos, T Merbitz-Zahradnik, BL Trumpower. Failure to Insert the Iron-Sulfur Clusterinto the Rieske Iron-Sulfur Protein Impairs Both Center N and Center P of the Cytochrome bc 1Complex . J Biol Chem 277, 50703-50709. 2002.
GL Squadrito and WA Pryor. Mapping the Reaction of Peroxynitrite with CO2: Energetics,Reactive Species, and Biological Implications. Chem. Res. Toxic. 15, 885-895. 2002.
JC Low and SC Tu. Functional Roles of Conserved Residues in the Unstructured Loop of Vibrioharveyi Bacterial Luciferase. Biochemistry 41, 1724-1731. 2002.
JP Emerson, ED Coulter, DE Cabelli, RS Phillips, DM Kurtz Jr.. Kinetics and Mechanism ofSuperoxide Reduction by Two-Iron Superoxide Reductase from Desulfovibrio vulgaris.Biochemistry 41, 4348-4357. 2002.
MJ Ryle, A Liu, RB Muthukumaran, RYN Ho, KD Koehntop, J McCracken, L Que, Jr., RPHausinger. O2- and _-Ketoglutarate-Dependent Tyrosyl Radical Formation in TauD, an _-KetoAcid-Dependent Non-Heme Iron Dioxygenase. Biochemistry 42, 1854-1862. 2002.
WE Karsten and PF Cook. Detection of intermediates in reactions catalyzed by PLP-dependentenzymes: O-acetylserine sulfhydrylase and serine-glyoxalate aminotransferase. Methods inEnzymology 354, 223-237. 2002.
AS Pawate, J Morgan, A Namslauer, D Mills, P Brzezinski, S Ferguson-Miller. RB Gennis. AMutation in Subunit I of Cytochrome Oxidase from Rhodobacter sphaeroides Results in an
Increase in Steady-State Activity but Completely Eliminates Proton Pumping. Biochemistry 41,13417-13423. 2002.
C Furdui and SW Ragsdale. The Roles of Coenzyme A in the Pyruvate:FerredoxinOxidoreductase Reaction Mechanism: Rate Enhancement of Electron Transfer from a RadicalIntermediate to an Iron_Sulfur Cluster. Biochemistry 41, 9921-9937. 2002.
T Tosha, S Yoshioka, H Hori, S Takahashi, K Ishimori, I Morishima. Molecular Mechanism of theElectron Transfer Reaction in Cytochrome P450cam_Putidaredoxin: Roles of Glutamine 360 atthe Heme Proximal Site. Biochemistry 41, 13883-13893. 2002.
Y Zhen, B Schmidt, UG Kang, W Antholine, S Ferguson-Miller. Mutants of the CuA Site inCytochrome c Oxidase of Rhodobacter sphaeroides: I. Spectral and Functional Properties.Biochemistry 41, 2288-2297. 2002.
J Zhang and GC Ferreira. Transient State Kinetic Investigation of 5-Aminolevulinate SynthaseReaction Mechanism . J Biol Chem 277, 44660-44669. 2002.
S Wu, G Wu, KK Surerus, JA Cowan. Iron-Sulfur Cluster Biosynthesis. Kinetic Analysis of [2Fe-2S] Cluster Transfer from Holo ISV to Apo Fd: Role of Redox Chemistry and a ConservedAspartate. Biochemistry 41, 8876-8885. 2002.
AD Hegeman, JW Gross, PA Frey. Probing Catalysis by Eschrichia Coli dTDP-Glucose-4,6-dehydratase: Identification and Preliminary Characterization of Functional amino Acid Residuesat the Active Site. Biochemistry 40, 6598-6610. 2001.
B Gerratana, WW Cleland, PA Frey. Mechanistic Roles of Thr134, Tyr160, and Lys164 in theReaction Catalyzed by dTDP-Glucose-4,6-Dehydrogenase. Biochemistry 40, 9187-9195. 2001.
KH Tang, CH Chang, PA Frey. Electron Transfer in the Substrate-Dependent Suicide Inactivationof Lysine 5,6-Aminomutase. Biochemistry 40, 5190-5199. 2001.
MD Joshi, G Sidhu, JE Nielson, JD Brayer, SG Withers, LP McIntosh. Dissecting the ElectrostaticInteractions and pH-Dependent Activity of a Family II Glycosidase. Biochemistry 40, 10115-10139. 2001.
OL Guryex, AA Gilep, SA Usanov, RW Estabrook. Interaction of Apo-cytochrome b5 withCytochrome P450A4 and P45017A: Relevance of Heme Transfer Reactions. Biochemistry 40,5018-5031. 2001.
S Herold, M Exner, T Nauser. Kinetic and Mechanistic Studies of the NO-mediated Oxidation ofOxymyoglobin and Oxyhemoglobin. Biochemistry 40, 3385-3395. 2001.
T Sakamoto and DA Bryant. Requirement of Nickel as an Essential Micronutrient for theUtilization of Urea in the Marine Cyanobacterium. Microbes and Environments 16, 177-184. 2001.
EB Watkins and RS Phillips. Inhibition of Tyrosine Phenol-lyase from Citrobacter freundii by 2-Azatyrosine and 3-Azatyrosine. Biochemistry 40, 14862-14868. 2001.
I Efimov, CN Cronin, WS McIntire. Effects of Noncovalent and Covalent FAD Binding on theRedox and Catalytic Properties of p-Cresol Methylhydroxylase. Biochemistry 40, 2155-2166.2001.
D Nurizzo, HM Baker, QY He, RTA MacGillivray, AB Mason, RC Woodworth, EN Baker. CrystalStructures and Iron Release Properties of Mutants (K206A and K296A) that Abolish the DilysineInteraction in the N-lobe of Human Transferrin. Biochemistry 40, 1616-1623. 2001.
C-A Chen, L Chi-Hung, JA Cowan. Functional role of a conserved tryptophan residueof Chromatium vinosum high potential iron protein. Inorganica Chimica Acta 300, 91-95. 2000.
CH Snyder, EB Gutierrez-Cirlos, BL Trumpower. Evidence for a Concerted Mechanism ofUbiquinol Oxidation by the Cytochrome bc 1 Complex . J Biol Chem 275, 13535-13541. 2000.
CS Farmer, DM Kurtz, RS Phillips, J Ai, J Sanders-Loehr. A Leucine Residue “Gates” Solvent butNot O2Access to the Binding Pocket of Phascolopsis gouldiiHemerythrin . J Biol Chem 275,17043-17050. 2000.
GJ Colpas and RP Hausinger. In Vivo and in Vitro Kinetics of Metal Transfer by the Klebsiellaaerogenes Urease Nickel Metallochaperone, UreE*,210. J Biol chem 275, 10731-10737. 2000.
J Hirst and DB Goodin. Unusual Oxidative Chemistry ofN _-Hydroxyarginine and N-Hydroxyguanidine Catalyzed at an Engineered Cavity in a Heme Peroxidase . J Biol Chem 275,8582-8591. 2000.
JW Gross, AD Hegeman, MM Vestling, PA Frey. Characterization of Enzymatic Processes byRapid Mix-Quench Mass Spectrometry: The Case of dTDP-Glucose 4,6-Dehydratase.Biochemistry 39, 13633-13640. 2000.
K Xiao, L Yu, G-A Yu. Confirmation of the Involvement of Protein Domain Movement during theCatalytic Cycle of the Cytochrome bc 1Complex by the Formation of an Intersubunit DisulfideBond between Cytochrome b and the Iron-Sulfur Protein . J Biol Chem 275, 38597-38604. 2000.
L Zhang, C-H, Tai, L Yu, C-A Yu. pH-induced Intramolecular Electron Transfer between the Iron-Sulfur Protein and Cytochrome c 1 in Bovine Cytochrome bc 1 Complex. J Biol Chem 275, 7656-7661. 2000.
V Bandarian and GH Reed. Isotope Effects in the Transient Phases of the Reaction Catalyzed byEthanolamine Ammonia-Lyase: Determination of the Number of Exchangeable Hydrogens in theEnzyme-Cofactor Complex. Biochemistry 39, 12069-12075. 2000.
VL Davidson, LH Jones, ME Graichen, Z Zhu. Tyr30 of amicyanin is not critical for electrontransfer to cytochrome c-551i: implications for predicting electron transfer pathways. BBABioenergetics 1457, 27-35. 2000.
B Sundararaju, H Chen, S Shilcutt, RS Phillips. The Role of Glutamic Acid-69 in the Activation ofCitrobacter freundii Tyrosine Phenol-Lyase by Monovalent Cations. Biochemistry 39, 8546-8555.2000.
BT Farrer and HH Throp. Redox Pathways in DNA Oxidation: Kinetic Studies of Guanine andSugar Oxidation by Para-Substituted Derivatives of Oxoruthenium(IV). Inorg. Chem. 39, 44-49.2000.
FI Rosell, TR Harris, DP Heldebrand, S Dopner, P Hildebrandt, AG Mauk. Characterization of anAlkaline Transition Intermediate Stabilized in the Phe82Trp Variant of Yeast iso-1-Cytochrome c.Biochemistry 39, 9047-9054. 2000.
J Xiong, RS Phillips, DM Kurtz, Jr., S Jin, J ai, J Sanders-Loehr. The O2 Binding Pocket ofMyohemerythrin: Role of a Conserved Leucine. Biochemistry 39, 8526-8536. 2000.
RK Nandigama and DL Edmondson. Structure_Activity Relations in the Oxidation ofPhenethylamine Analogues by Recombinant Human Liver Monoamine Oxidase A. Biochemistry39, 15258-15265. 2000.
RS Phillips, B Sundararaju, N Faleev. Proton Transfer and Carbon_Carbon Bond Cleavage in theElimination of Indole Catalyzed by Escherichia coli Tryptophan Indole-Lyase. JACS 122, 1008-1014. 2000.
R Franco, JG Ma, Y Lu, GC Ferreira, JA Shelnutt. Porphyrin Interactions with Wild-Type andMutant Mouse Ferrochelatase. Biochemistry 39, 2517-2529. 2000.
C Feng, C Thomas, MA Holliday, G Tollin, JC Salerno, DK Ghosh, JH Enemark. DirectMeasurement by Laser Flash Photolysis of Intramolecular Electron Transfer in a Two-DomainConstruct of Murine Inducible Nitric Oxide Synthase. JACS 128, 3808-3811. 2006.
Z Huang, L Hearne, CE Irby, SB King, SK Ballas, DB Kim-Shapiro. Kinetics of IncreasedDeformability of Deoxygenated Sickle Cells upon Oxygenation. Biophys J 85. 2374-2383. 2003.
A Tiwari and P Pospisil. Superoxide oxidase and reductase activity of cytochrome b559 inphotosystem II. BBA Bioenergetics 1787, 985-994. 2009.
Y Sakuragi, B Zybailov, G Shen, AD Jones, PR Chitnisi, A van der Est, R Bittl, S Zech, D Stehlik,JH Golbeck, DA Bryant. Insertional Inactivation of the MenG Gene Encoding 2-Phytyl-1, 4-Naphtoquinone Methyltransferase of Synechocystis sp. PCC 6803 Results in the Incorporation of2-Phytyl-1, 4 Naphthoquinone into A1 Site and Alteration of the Equilibrium Constant Between A1and Fx in Photosystem I. Biochem 41, 394-405. 2002.
G Shen, J Zhao, SK Reimer, ML Antonkine, Q Cai, SM Weiland, JH Golbeck, DA Bryant.Assembly of Photosystem 1. 1. Inactivation of the rubA Gene Encoding a Membrane-AssociatedRubredoxin in the Cyanobacterium Synechoccus sp PCC 7002 Causes a Loss of Photosystem IActivity. JBC 277, 20343-20354. 2002.
X Qian, T Mester, L Morgado, T Arkawa, ML Sharma, K Inoue, C Joseph, CA Salgueiro, MJMaroney, DR Lovley. Biochemical characterization of purified OmcS, a c-type cytochromerequired for insoluble Fe(III) reduction in Geobacter sulfurreducens. BBA Bioenergetics. 2011.
E Salsi, R Guan, B Campanini, S Bettati, J Lin, PF Cook, A Mozzarelli. Exploring O-acetylserinesulfhydrylase-B isoenzyme from Salmonella typhimurium by fluorescence spectroscopy. Arch.Biochem. Biophys 505, 178-185. 2011.
JJ Warren and JM Mayer. Predicting organic hydrogen atom transfer rate constants using theMarcus cross relation . PNAS 107, 5282-5287. 2010.
H-S Seo, Y Ma, EW Debler, D Wacker, S Kutik, G Blobel, A Hoelz. Structural and functionalanalysis of Nup120 suggests ring formation of the Nup84 complex. PNAS 106, 14281-14286.2009.
JH Ippel, CJC de Haas, A Bunschoten, JAG Strijp, JAW Kruijtzer, RMJ Liskamp, J Kemmink.Structure of the Tyrosine-sulfated C5a Receptor N Terminus in Complex with ChemotaxisInhibitory Protein of Staphylococcus aureus . J Biol Chem 284, 12363-12372. 2009.
M Choi, N Sukumar, A Liu, VL Davidson. Defining the Role of the Axial Ligand of the Type 1Copper Site in Amicyanin by Replacement of Methionine with Leucine. Biochemistry 48, 9174-9184. 2009.
RD Gray, L Petraccone, JO Trent, JB Chaires. Characterization of a K+-Induced ConformationalSwitch in a Human Telomeric DNA Oligonucleotide Using 2-Aminopurine Fluorescence.Biochemistry 49, 179-194. 2009.
R Bizzarri, M Serresi, F Cardarelli, S Abbruzzetti, B Campanini, C Viappiani, F Beltran. SingleAmino Acid Replacement Makes Aequorea victoria Fluorescent Proteins ReversiblyPhotoswitchable. JACS 132, 85-95. 2009.
A Tiwari and P Pospisil. Superoxide oxidase and reductase activity of cytochrome b559 inphotosystem II. BBA-Bioenergetics 1787, 985-994. 2009.
A Sinaga, TA Hattan, KC Tan. Poly(acrylic acid)-block-poly(L-Valine): Evaluation of beta SheetFormation and its Stability Using Circular Dichroism Techniques. Biomacromolecules 8, 2801-2808. 2007.
E Ritter, M Elgeti, KP Hofman, FJ Bartl. Deactivation and Proton Transfer in Light-inducedMetarhodopsin II/Metarhodopsin III Conversion: A TIME-RESOLVED FOURIER TRANSFORMINFRARED SPECTROSCOPIC STUDY . J Biol Chem 282, 10720-10730. 2007.
L Qin, DA Mills, C Hiser, A Murphree, RM Gravito, S Ferguson-Miller, J Hosler. CrystallographicLocation and Mutational Analysis of Zn and Cd Inhibitory Sites and Role of Lipidic Carboxylates inRescuing Proton Path Mutants in Cytochrome C Oxidase. Biochemistry 46, 6239-6248. 2007.
A Chattopadhyay, M Meier, S Ivaniskii, P Burkhard, F Speroni, B Camanin, S Bettata, AMozzarelli, WM Rabeh, L Li, PF Cook. Structure, Mechanism, and Conformational Dynamics ofO-Acetylserine Sulfhydrylase from Salmonella typhimurium: Comparison of A and B Isozymes.Biochemistry 46, 8315-8330. 2007.
NG James, CL Berger, SL Byrne, VC Smith, TA MacGiiivray, AB Mason. Intrinsic FluorescenceReports a Global Conformational Change in the N-Lobe of Human Serum Transferrin followingIron Release†. Biochemistry 46 10603-10611. 2007.
RE Berry, TK Shokhireva, I Filippov, MN Shokirev, H Zhang, FA Walker. Effect of the N-Terminuson Heme Cavity Structure, Ligand Equilibrium, Rate Constants, and Reduction Potentials ofNitrophorin 2 from Rhodnius prolixus. Biochemistry 46, 6830-6843. 2007.
JK Ma, CJ Carrell, FS Mathews, VL Davidson. Site Directed Mutagenesis of Proline 52 to Glycinein Amicyanin Converts a True Electron Transfer Reaction into One That is ConformationallyGated. Biochemistry 45, 8284-8293. 2006.
K Lecours, M-H Tremblay, M-EL Gagne, SM Gagne, D LeClerc. Purification and biochemicalcharacterization of a monomeric form of papaya mosaic potexvirus coat protein. ProteinExpression and Purification 47, 273-280. 2006.
C Feng, HL Wilson, G Tollin, AV Astashkin, JT Hazzard, KV Rajagopalan, JH Enemark. ThePathogenic Human Sulfite Oxidase Mutants G473D and A208D are Defective in IntramolecularElection Transfer. Biochemistry 44, 13734-13743. 2005.
FJ Bartl, O Fritze, E Ritter, R Hermann, V Kuksa, E Palczewski, KP Hofman, OP Ernst. PartialAgonism in a G Protein-coupled Receptor: ROLE OF THE RETINAL RING STRUCTURE INRHODOPSIN ACTIVATION . J Biol Chem 280, 34259-34267. 2005.
NB Gillespie, L Ren, L Ramos, H Daniell, D Dews, KA Utzat, JA Stuart, CH Buck, RR Birge.Characterization and Photochemistry of 13-Desmethyl Bacteriorhodopsin. J. Phys. Chem. B 109,16142-16152. 2005.
E Maklashina, AB Kotlyar, G Cecchini. Active/de-active transition of respiratory complex I inbacteria, fungi, and animals. BBA Bioenergetics 1606, 95-103. 2003.
D Sung, ZW Chen, FS Mathews, VL Davidson. Mutation of _Phe55 of MethylamineDehydrogenase Alters the Reorganization Energy and Electronic Coupling for Its ElectronTransfer Reaction with Amicyanin,. Biochemistry 41, 13926-13933. 2002.
MJ Holden, MP Mayhew, DT Gallagher, VL Vilker. Chorismate lyase: kinetics and engineering forstability. BBA Protein Structure and Molecular Enzymology 1594, 160-167. 2002.
NB Gillespie, KJ Wise, L Ren, JA Stuart, DL Marcy, Hillebrecht, Q Li, L Ramos, K Jordan, SFyvie, RR Birge. Characterization of the Branched-Photocycle Intermediates P and Q ofBacteriorhodopsin. J. Phys. Chem. B 106, 13352-13361. 2002.
RS Phillips, N Johnson AV Kanath. Formation in Vitro of Hybrid Dimers of H463F and Y74FMutant Escherichia coli Tryptophan Indole-lyase Rescues Activity with l-Tryptophan. Biochemistry41, 4012-4019. 2002.
X Xu, VL Lockamy, K Chen, Z Huang, H Shields, SB King, SK Ballas, JS Nichols, MT Gladwin,CT Noguchi, AN Schechter, DB Kim-Shapiro. Effects of Iron Nitrosylation on Sickle CellHemoglobin Solubility . J Biol Chem 277, 36787-36792. 2002.
K Zhu, A Jutila, EKJ Tuominen, SA Patkar, A Svendsen, PKJ Kinnunen. Impact of the tryptophanresidues of Humicola lanuginosa lipase on its thermal stability. BBA Protein Structure andMolecular Enzymology 1547, 329-338. 2001.
C Hiser, DA Mills, M Schall, S Ferguson-Miller. C-Terminal Truncation and Histidine-Tagging ofCytochrome c Oxidase Subunit II Reveals the Native Processing Site, Shows Involvement of theC-Terminus in Cytochrome c Binding, and Improves the Assay for Proton Pumping. Biochemistry40, 1606-1615. 2001.
RW Noble, HL Hui, CD Kwiatkowski, P Paily, A DeYoung, A Wierzba, JE Colby, S Bruno, AMozzarelli. Mutational Effects at the Subunit Interfaces of Human Hemoglobin: Evidence for aUnique Sensitivity of the T Quaternary State to Changes in the Hinge Region of the _1_2Interface. Biochemistry 40, 12357-12368. 2001.
DA Mills, L Floens, C Hiser, J Qian, S Ferguson-Miller. Where is ‘outside’ in cytochrome coxidase and how and when do protons get there?. BBA Bioenergetics 1458, 180-187. 2000.
JF Andersen, XD Ding, C Balfour, TK Shokireva, DE Champagne, FA Walker, WR Monfort.Kinetics and Equilibria in Ligand Binding by Nitrophorins 1_4: Evidence for Stabilization of aNitric Oxide_Ferriheme Complex through a Ligand-Induced Conformational Trap. Biochemistry39, 10118-10131. 2000.
QY He, AB Mason, R Pakdaman, ND Chasteen, BK Dixon, BM Tam, V Nguyen, RTAMacGillivray, RC Woodworth. Mutations at the Histidine 249 Ligand Profoundly Alter the Spectraland Iron-Binding Properties of Human Serum Transferrin N-Lobe. Biochemistry 39, 1205-1210.2000.
