Browsing by Author Pattison, David

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Issue DateTitleAuthor(s)Citation
2010Ability of Hypochlorous Acid and N-Chloramines to Chlorinate DNA and Its ConstituentsHawkins, Clare; Pattison, David; Stanley, Naomi; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research InstituteAbility of Hypochlorous Acid and N-Chloramines to Chlorinate DNA and Its Constituents, Chemical Research in Toxicology, vol.23, 7, 2010,pp 1293-1302
2010Acetaminophen (paracetamol) inhibits myeloperoxidase-catalyzed oxidant production and biological damage at therapeutically achievable concentrationsDavies, Michael; Hawkins, Clare; Pattison, David; Fu, Shanlin; Graham, Garry G.; Kajer, Tracey; Keh, Jeremy S.; Kettle, Anthony J.; Koelsch, Maud; Mallak, Roger; Milligan, Marian K.; Newsham, Dawn W.; Nguyen, Ly Q.; Rees, Martin D; Scott, Kieran F; Ziegler, John B.; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research InstituteAcetaminophen (paracetamol) inhibits myeloperoxidase-catalyzed oxidant production and biological damage at therapeutically achievable concentrations, Biochemical Pharmacology, vol.79, 8, 2010,pp 1156-1164
2006Actions of ultraviolet light on cellular structures.Davies, Michael; Pattison, David; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research InstituteActions of ultraviolet light on cellular structures., EXS, vol.96, N/A, 2006,pp 131-157
2006Actions of ultraviolet light on cellular structures.Davies, Michael; Pattison, David; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research InstituteActions of ultraviolet light on cellular structures., EXS, vol.96, N/A, 2006,pp 131-157
2017Catalytic oxidant scavenging by selenium-containing compounds: Reduction of selenoxides and N-chloramines by thiols and redox enzymesCarroll, Luke; Davies, Michael; Hawkins, Clare; Pattison, David; Fu, Shanlin; Schiesser, Carl; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research InstituteCatalytic oxidant scavenging by selenium-containing compounds: Reduction of selenoxides and N-chloramines by thiols and redox enzymes, Redox Biology, vol.12, N/A, 2017,pp 872-882
2016Competitive kinetics as a tool to determine rate constants for reduction of ferrylmyoglobin by food componentsDavies, Michael; Pattison, David; Jonberg, Sisse; Lund, Marianne N; Skibsted, Leif H; Central Clinical School: Medicine; Central Clinical School: Heart Research InstituteCompetitive kinetics as a tool to determine rate constants for reduction of ferrylmyoglobin by food components, Food Chemistry, vol.199, N/A, 2016,pp 36-41
2012Computational design of effective, bioinspired HOCI antioxidants: The role of intramolecular C1(+) and H(+) shiftsDavies, Michael; Karton, Amir; O'Reilly, Robert; Pattison, David; Radom, Leo; Central Clinical School: Heart Research Institute; Chemistry; Chemistry; Central Clinical School: Heart Research Institute; ChemistryComputational design of effective, bioinspired HOCI antioxidants: The role of intramolecular C1(+) and H(+) shifts, Journal of the American Chemical Society, vol.134, 46, 2012,pp 19240-19245
2014Detection, quantification, and total synthesis of novel 3-hydroxykynurenine glucoside-derived metabolites present in human lensesDavies, Michael; Pattison, David; Gad, Nicholas A; Jamie, Joanne F.; Mizdrak, Jasminka; Truscott, Roger J. W.; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research InstituteDetection, quantification, and total synthesis of novel 3-hydroxykynurenine glucoside-derived metabolites present in human lenses, Investigative Ophthalmology & Visual Science, vol.55, 2, 2014,pp 849-855
2006Evidence for rapid inter- and intramolecular chlorine transfer reactions of histamine and carnosine chloramines: implications for the prevention of hypochlorous-Acid-mediated damage.Davies, Michael; Pattison, David; Central Clinical School: Heart Research Institute; Central Clinical School: MedicineEvidence for rapid inter- and intramolecular chlorine transfer reactions of histamine and carnosine chloramines: implications for the prevention of hypochlorous-Acid-mediated damage., Biochemistry, vol.45,(26),2006,pp 8152-8162
2017Formation and detection of oxidant-generated tryptophan dimers in peptides and proteinsCarroll, Luke; Davies, Michael; Pattison, David; Anderson, Robert; Davies, Justin; Lopez-Alarcon, Camilo; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research InstituteFormation and detection of oxidant-generated tryptophan dimers in peptides and proteins, Free Radical Biology and Medicine, vol.113, N/A, 2017,pp 132-142
2011High plasma thiocyanate levels in smokers are a key determinant of thiol oxidation induced by myeloperoxidaseCelermajer, David; Davies, Michael; Hawkins, Clare; Morgan, Philip; Pattison, David; Harmer, Jason A; Summers, Fiona; Talib, Jihan; Central Clinical School: Medicine; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research InstituteHigh plasma thiocyanate levels in smokers are a key determinant of thiol oxidation induced by myeloperoxidase, Free Radical Biology and Medicine, vol.51, 9, 2011,pp 1815-1822
2012High plasma thiocyanate levels modulate protein damage induced by myeloperoxidase and perturb measurement of 3-chlorotyrosineCelermajer, David; Davies, Michael; Pattison, David; Harmer, Jason A; Talib, Jihan; Central Clinical School: Medicine; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research InstituteHigh plasma thiocyanate levels modulate protein damage induced by myeloperoxidase and perturb measurement of 3-chlorotyrosine, Free Radical Biology and Medicine, vol.53, 1, 2012,pp 20-29
2008Hypochlorous acid oxidizes methionine and tryptophan residues in myoglobinDavies, Michael; Hawkins, Clare; Pattison, David; Witting, Paul; Ellis, Natasha; Szuchman-Sapir, Andrea J.; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research Institute; School of Medical Sciences: PathologyHypochlorous acid oxidizes methionine and tryptophan residues in myoglobin, Free Radical Biology and Medicine, vol.45, 6, 2008,pp 789-798
2003Hypochlorous Acid-Mediated Oxidation of Lipid Components and Antioxidants Present in Low Density Lipoproteins: Absolute Rate Constants, Product Analysis, and Computational ModelingDavies, Michael; Hawkins, Clare; Pattison, David; Central Clinical School: Heart Research Institute; Central Clinical School: Medicine; Central Clinical School: MedicineHypochlorous Acid-Mediated Oxidation of Lipid Components and Antioxidants Present in Low Density Lipoproteins: Absolute Rate Constants, Product Analysis, and Computational Modeling, Chemical Research in Toxicology, vol.16,(4),2003,pp 439-449
2007Hypochlorous Acid-Mediated Protein Oxidation: How Important Are Chloramine Transfer Reactions and Protein Tertiary Structure?Davies, Michael; Hawkins, Clare; Pattison, David; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research Institute; Central Clinical School: MedicineHypochlorous Acid-Mediated Protein Oxidation: How Important Are Chloramine Transfer Reactions and Protein Tertiary Structure?, Biochemistry, vol.46,(34),2007,pp 9853-9864
2009Hypothiocyanous acid reactivity with low-molecular-mass and protein thiols: absolute rate constants and assessment of biological relevanceDavies, Michael; Pattison, David; Skaff, Ojia; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research InstituteHypothiocyanous acid reactivity with low-molecular-mass and protein thiols: absolute rate constants and assessment of biological relevance, Biochemical Journal, vol.422, 1, 2009,pp 111-117
2012Inactivation of thiol-dependent enzymes by hypothiocyanous acid: role of sulfenyl thiocyanate and sulfenic acid intermediatesBarrett, Tessa; Davies, Michael; Hawkins, Clare; Pattison, David; Carroll, Kate; Leonard, Stephen; Central Clinical School: Office; Central Clinical School: Medicine; Central Clinical School: Heart Research Institute; Central Clinical School: Heart Research InstituteInactivation of thiol-dependent enzymes by hypothiocyanous acid: role of sulfenyl thiocyanate and sulfenic acid intermediates, Free Radical Biology and Medicine, vol.52, 6, 2012,pp 1075-1085
2004Kinetic Analysis Of The Reactions Of Hypobromous Acid With Protein Components: Implications For Cellular Damage And Use Of 3-Bromotyrosine As A Marker Of Oxidative Stress.Davies, Michael; Pattison, David; Central Clinical School: Heart Research Institute; Central Clinical School: MedicineKinetic Analysis Of The Reactions Of Hypobromous Acid With Protein Components: Implications For Cellular Damage And Use Of 3-Bromotyrosine As A Marker Of Oxidative Stress., Biochemistry, vol.43,(16),2004,pp 4799-4809
2005Kinetic analysis of the role of histidine chloramines in hypochlorous acid mediated protein oxidation.Davies, Michael; Pattison, David; Central Clinical School: Heart Research Institute; Central Clinical School: MedicineKinetic analysis of the role of histidine chloramines in hypochlorous acid mediated protein oxidation., Biochemistry 2005, vol.44,(19),2005,pp 7378-7387
2007Kinetics of hypobromous acid-mediated oxidation of lipid components and antioxidantsDavies, Michael; Pattison, David; Skaff, Ojia; Central Clinical School: Heart Research Institute; Central Clinical School: Medicine; ChemistryKinetics of hypobromous acid-mediated oxidation of lipid components and antioxidants, Chemical Research in Toxicology, vol.20,(12),2007,pp 1980-1988