DrGregoryQuinlan

MOAT NE, EVANS TE, QUINLAN GJ, GUTTERIDGE JMCet al., 1993, CHELATABLE IRON AND COPPER CAN BE RELEASED FROM EXTRACORPOREALLY CIRCULATED BLOOD DURING CARDIOPULMONARY BYPASS, FEBS LETTERS, Vol: 328, Pages: 103-106, ISSN: 1873-3468

• Author Web Link
• Cite
• Citations: 42

MESSENT M, QUINLAN GJ, GRIFFITHS MJD, GUTTERIDGE JMC, EVANS TWet al., 1993, CHARACTERIZATION OF ISCHEMIA/REPERFUSION DAMAGE IN AN ISOLATED-PERFUSED RAT LUNG, AMERICAN REVIEW OF RESPIRATORY DISEASE, Vol: 147, Pages: A931-A931, ISSN: 0003-0805

• Author Web Link
• Cite
• Citations: 1

GUTTERIDGE JMC, QUINLAN GJ, 1993, ANTIOXIDANT PROTECTION AGAINST ORGANIC AND INORGANIC OXYGEN RADICALS BY NORMAL HUMAN PLASMA - THE IMPORTANT PRIMARY ROLE FOR IRON-BINDING AND IRON-OXIDIZING PROTEINS, BIOCHIMICA ET BIOPHYSICA ACTA, Vol: 1156, Pages: 144-150, ISSN: 0006-3002

• Author Web Link
• Cite
• Citations: 87

GUTTERIDGE JMC, QUINLAN GJ, 1992, ANTIOXIDANT PROTECTION AGAINST ORGANIC AND INORGANIC OXYGEN RADICALS BY NORMAL HUMAN PLASMA - THE IMPORTANT PRIMARY ROLE FOR IRON-BINDING AND IRON-OXIDIZING PROTEINS, BIOCHIMICA ET BIOPHYSICA ACTA, Vol: 1159, Pages: 248-254, ISSN: 0006-3002

• Author Web Link
• Cite
• Citations: 66

QUINLAN GJ, COUDRAY C, HUBBARD A, GUTTERIDGE JMCet al., 1992, VANADIUM AND COPPER IN CLINICAL SOLUTIONS OF ALBUMIN AND THEIR POTENTIAL TO DAMAGE PROTEIN-STRUCTURE, JOURNAL OF PHARMACEUTICAL SCIENCES, Vol: 81, Pages: 611-614, ISSN: 0022-3549

• Author Web Link
• Cite
• Citations: 22

REDHEAD K, QUINLAN GJ, DAS RG, GUTTERIDGE JMCet al., 1992, ALUMINUM-ADJUVANTED VACCINES TRANSIENTLY INCREASE ALUMINUM LEVELS IN MURINE BRAIN-TISSUE, PHARMACOLOGY & TOXICOLOGY, Vol: 70, Pages: 278-280, ISSN: 0901-9928

• Author Web Link
• Cite
• Citations: 27

QUINLAN GJ, GUTTERIDGE JMC, 1991, DNA-BASE DAMAGE BY BETA-LACTAM, TETRACYCLINE, BACITRACIN AND RIFAMYCIN ANTIBACTERIAL ANTIBIOTICS, BIOCHEMICAL PHARMACOLOGY, Vol: 42, Pages: 1595-1599, ISSN: 0006-2952

• Author Web Link
• Cite
• Citations: 28

ARUOMA OI, HALLIWELL B, LAUGHTON MJ, QUINLAN GJ, GUTTERIDGE JMCet al., 1989, THE MECHANISM OF INITIATION OF LIPID-PEROXIDATION - EVIDENCE AGAINST A REQUIREMENT FOR AN IRON(II) IRON(III) COMPLEX, BIOCHEMICAL JOURNAL, Vol: 258, Pages: 617-620, ISSN: 0264-6021

• Author Web Link
• Cite
• Citations: 200

QUINLAN GJ, GUTTERIDGE JMC, 1989, BACITRACIN AND A BACITRACIN-ZINC COMPLEX DAMAGE DNA AND CARBOHYDRATE IN THE PRESENCE OF IRON AND COPPER-SALTS, FREE RADICAL RESEARCH COMMUNICATIONS, Vol: 7, Pages: 37-44, ISSN: 8755-0199

• Author Web Link
• Cite
• Citations: 12

QUINLAN GJ, HALLIWELL B, MOORHOUSE CP, GUTTERIDGE JMCet al., 1988, ACTION OF LEAD(II) AND ALUMINUM(III) IONS ON IRON-STIMULATED LIPID-PEROXIDATION IN LIPOSOMES, ERYTHROCYTES AND RAT-LIVER MICROSOMAL FRACTIONS, BIOCHIMICA ET BIOPHYSICA ACTA, Vol: 962, Pages: 196-200, ISSN: 0006-3002

• Author Web Link
• Cite
• Citations: 228

QUINLAN GJ, GUTTERIDGE JMC, 1988, OXIDATIVE DAMAGE TO DNA AND DEOXYRIBOSE BY BETA-LACTAM ANTIBIOTICS IN THE PRESENCE OF IRON AND COPPER-SALTS, FREE RADICAL RESEARCH COMMUNICATIONS, Vol: 5, Pages: 149-158, ISSN: 8755-0199

• Author Web Link
• Cite
• Citations: 16

QUINLAN GJ, GUTTERIDGE JMC, 1988, HYDROXYL RADICAL GENERATION BY THE TETRACYCLINE ANTIBIOTICS WITH FREE-RADICAL DAMAGE TO DNA, LIPIDS AND CARBOHYDRATE IN THE PRESENCE OF IRON AND COPPER-SALTS, FREE RADICAL BIOLOGY AND MEDICINE, Vol: 5, Pages: 341-348, ISSN: 0891-5849

• Author Web Link
• Cite
• Citations: 52

QUINLAN GJ, GUTTERIDGE JMC, 1987, OXYGEN RADICAL DAMAGE TO DNA BY RIFAMYCIN-SV AND COPPER IONS, BIOCHEMICAL PHARMACOLOGY, Vol: 36, Pages: 3629-3633, ISSN: 0006-2952

• Author Web Link
• Cite
• Citations: 61

Moorhouse PC, Grootveld M, Halliwell B, Quinlan JG, Gutteridge JMet al., 1987, Allopurinol and oxypurinol are hydroxyl radical scavengers., FEBS Lett, Vol: 213, Pages: 23-28, ISSN: 0014-5793

Allopurinol is a scavenger of the highly reactive hydroxyl radical (k2 approx. 10(9) M-1 X s-1). One product of attack of hydroxyl radical upon allopurinol is oxypurinol, which is a major metabolite of allopurinol. Oxypurinol is a better hydroxyl radical scavenger than is allopurinol (k2 approx. 4 X 10(9) M-1 X s-1) and it also reacts with the myeloperoxidase-derived oxidant hypochlorous acid. Hence the protective actions of allopurinol against reperfusion damage after hypoxia need not be entirely due to xanthine oxidase inhibition.

• Abstract
• Author Web Link
• Cite

GUTTERIDGE JMC, QUINLAN GJ, 1986, CARMINIC ACID-PROMOTED OXYGEN RADICAL DAMAGE TO LIPID AND CARBOHYDRATE, FOOD ADDITIVES AND CONTAMINANTS PART A-CHEMISTRY ANALYSIS CONTROL EXPOSURE & RISK ASSESSMENT, Vol: 3, Pages: 289-293, ISSN: 1944-0049

• Author Web Link
• Cite
• Citations: 10

GUTTERIDGE JMC, BEARD APC, QUINLAN GJ, 1985, CATALASE ENHANCES DAMAGE TO DNA BY BLEOMYCIN-IRON(II) - THE ROLE OF HYDROXYL RADICALS, BIOCHEMISTRY INTERNATIONAL, Vol: 10, Pages: 441-449, ISSN: 0158-5231

• Author Web Link
• Cite
• Citations: 5

GUTTERIDGE JMC, QUINLAN GJ, CLARK I, HALLIWELL Bet al., 1985, ALUMINUM SALTS ACCELERATE PEROXIDATION OF MEMBRANE-LIPIDS STIMULATED BY IRON SALTS, BIOCHIMICA ET BIOPHYSICA ACTA, Vol: 835, Pages: 441-447, ISSN: 0006-3002

• Author Web Link
• Cite
• Citations: 322

GUTTERIDGE JMC, QUINLAN GJ, 1985, FREE-RADICAL DAMAGE TO DEOXYRIBOSE BY ANTHRACYCLINE, AUREOLIC ACID AND AMINOQUINONE ANTITUMOUR ANTIBIOTICS - AN ESSENTIAL REQUIREMENT FOR IRON, SEMIQUINONES AND HYDROGEN-PEROXIDE, BIOCHEMICAL PHARMACOLOGY, Vol: 34, Pages: 4099-4103, ISSN: 0006-2952

• Author Web Link
• Cite
• Citations: 41

THOMAS AH, QUINLAN GJ, GUTTERIDGE JMC, 1984, ASSAY OF DOXORUBICIN AND 4'-EPIDOXORUBICIN BY REVERSED-PHASE ION-PAIR CHROMATOGRAPHY, JOURNAL OF CHROMATOGRAPHY, Vol: 299, Pages: 489-494, ISSN: 0021-9673

• Author Web Link
• Cite
• Citations: 14

GUTTERIDGE JMC, QUINLAN GJ, WILKINS S, 1984, MITOMYCIN C-INDUCED DEOXYRIBOSE DEGRADATION INHIBITED BY SUPEROXIDE-DISMUTASE - A REACTION INVOLVING IRON, HYDROXYL AND SEMIQUINONE RADICALS, FEBS LETTERS, Vol: 167, Pages: 37-41, ISSN: 0014-5793

• Author Web Link
• Cite
• Citations: 46

Gutteridge JM, Quinlan GJ, 1983, Malondialdehyde formation from lipid peroxides in the thiobarbituric acid test: the role of lipid radicals, iron salts, and metal chelators., J Appl Biochem, Vol: 5, Pages: 293-299, ISSN: 0161-7354

Most of the chromogen formed when peroxidized material is heated with thiobarbituric acid (TBA) can be ascribed to a colored complex formed between malondialdehyde (MDA) and TBA. Even when little MDA is present, large amounts of MDA-TBA adduct can be formed. This is because lipid peroxides break down to release MDA during the test conditions. Iron is not essential for the breakdown of the peroxides but is essential for the formation of TBA reactivity. This can be related to the ability of iron to decompose lipid peroxides with the release of peroxy radicals, which are precursors of MDA. These peroxy radicals, when released, can initiate further peroxidation during the heating stage of the TBA test. Fatty acids in the absence of lipid peroxides do not undergo significant peroxidation during the acid-heating stage of the TBA test.

• Abstract
• Author Web Link
• Cite

GUTTERIDGE JMC, BEARD APC, QUINLAN GJ, 1983, SUPEROXIDE-DEPENDENT LIPID-PEROXIDATION - PROBLEMS WITH THE USE OF CATALASE AS A SPECIFIC PROBE FOR FENTON-DERIVED HYDROXYL RADICALS, BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, Vol: 117, Pages: 901-907, ISSN: 0006-291X

• Author Web Link
• Cite
• Citations: 30

Thomas AH, Pharm B, Newland P, Quinlan GJet al., 1981, Identification and determination of the qualitative composition of nystatin using thin-layer chromatography and high-performance liquid chromatography, Journal of Chromatography A, Vol: 216, Pages: 367-373, ISSN: 0021-9673

• Cite
• Citations: 18