Citation: Wj. Nicklas, INTERRELATIONSHIPS OF ENERGY-METABOLISM TO OXIDATIVE DAMAGE AND NEURODEGENERATION - INTRODUCTION, Developmental neuroscience, 20(4-5), 1998, pp. 399-400
Authors:
ZEEVALK GD
BERNARD LP
SINHA C
EHRHART J
NICKLAS WJ
Citation: Gd. Zeevalk et al., EXCITOTOXICITY AND OXIDATIVE STRESS DURING INHIBITION OF ENERGY-METABOLISM, Developmental neuroscience, 20(4-5), 1998, pp. 444-453
Citation: Gd. Zeevalk et al., ORIGINS OF THE EXTRACELLULAR GLUTAMATE RELEASED DURING TOTAL METABOLIC BLOCKADE IN THE IMMATURE RETINA, Journal of neurochemistry, 71(6), 1998, pp. 2373-2381
Citation: Gd. Zeevalk et al., ROLE OF OXIDATIVE STRESS AND THE GLUTATHIONE SYSTEM IN LOSS OF DOPAMINE NEURONS DUE TO IMPAIRMENT OF ENERGY-METABOLISM, Journal of neurochemistry, 70(4), 1998, pp. 1421-1430
Citation: Gd. Zeevalk et al., OXIDATIVE STRESS, GLUTATHIONE AND ACUTE TOXICITY IN RETINA DUE TO EXCITOTOXICITY OR ENERGY IMPAIRMENT, Journal of neurochemistry, 70, 1998, pp. 58-58
Citation: Gd. Zeevalk et Wj. Nicklas, ACTIVITY AT THE GABA TRANSPORTER CONTRIBUTES TO ACUTE CELLULAR SWELLING PRODUCED BY METABOLIC IMPAIRMENT IN RETINA, Vision research, 37(24), 1997, pp. 3463-3470
Citation: Gd. Zeevalk et Wj. Nicklas, EFFECT OF NONSUBSTRATE VS SUBSTRATE GABA TRANSPORT INHIBITORS ON ACUTE CELLULAR SWELLING-INDUCED BY METABOLIC STRESS, Journal of neurochemistry, 69, 1997, pp. 148-148
Authors:
ZEEVALK GD
BERNARD LP
ALBERS DS
MIROCHNITCHENKO O
NICKLAS WJ
SONSALLA PK
Citation: Gd. Zeevalk et al., ENERGY STRESS-INDUCED DOPAMINE LOSS IN GLUTATHIONE PEROXIDASE-OVEREXPRESSING TRANSGENIC MICE AND IN GLUTATHIONE-DEPLETED MESENCEPHALIC CULTURES, Journal of neurochemistry, 68(1), 1997, pp. 426-429
Citation: Gd. Zeevalk et Wj. Nicklas, CONTRIBUTION OF GLIAL METABOLISM TO NEURONAL DAMAGE CAUSED BY PARTIALINHIBITION OF ENERGY-METABOLISM IN RETINA, Experimental Eye Research, 65(3), 1997, pp. 397-405
Citation: Gd. Zeevalk et Wj. Nicklas, ATTENUATION OF EXCITOTOXIC CELL SWELLING AND GABA RELEASE BY THE GABATRANSPORT INHIBITOR SKF 89976A, Molecular and chemical neuropathology, 29(1), 1996, pp. 27-36
Citation: Gd. Zeevalk et Wj. Nicklas, HYPOTHERMIA AND METABOLIC STRESS - NARROWING THE CELLULAR SITE OF EARLY NEUROPROTECTION, The Journal of pharmacology and experimental therapeutics, 279(1), 1996, pp. 332-339
Citation: Gd. Zeevalk et al., RELATIVE VULNERABILITY OF DOPAMINE AND GABA NEURONS IN MESENCEPHALIC CULTURE TO INHIBITION OF SUCCINATE-DEHYDROGENASE BY MALONATE AND 3-NITROPROPIONIC ACID AND PROTECTION BY NMDA RECEPTOR BLOCKADE, The Journal of pharmacology and experimental therapeutics, 275(3), 1995, pp. 1124-1130
Citation: Gd. Zeevalk et al., EXCITOTOXICITY AT BOTH NMDA AND NON-NMDA GLUTAMATE RECEPTORS IS ANTAGONIZED BY AURINTRICARBOXYLIC ACID - EVIDENCE FOR DIFFERING MECHANISMS OF ACTION, Journal of neurochemistry, 64(4), 1995, pp. 1749-1758
Citation: Gd. Zeevalk et al., NMDA RECEPTOR INVOLVEMENT IN TOXICITY TO DOPAMINE NEURONS IN-VITRO CAUSED BY THE SUCCINATE-DEHYDROGENASE INHIBITOR 3-NITROPROPIONIC ACID, Journal of neurochemistry, 64(1), 1995, pp. 455-458
Citation: Mr. Gluck et al., STUDIES ON THE CHARACTERIZATION OF THE INHIBITORY MECHANISM OF 4'-ALKYLATED 1-METHYL-4-PHENYLPYRIDINIUM AND PHENYLPYRIDINE ANALOGS IN MITOCHONDRIA AND ELECTRON-TRANSPORT PARTICLES, Journal of neurochemistry, 63(2), 1994, pp. 655-661
Citation: Gd. Zeevalk et al., EXCITOTOXICITY IN DOPAMINERGIC-NEURONS FROM MESENCEPHALIC CULTURE, Journal of neurochemistry, 62, 1994, pp. 190000094-190000094
Citation: Mr. Gluck et al., CHARACTERIZATION OF THE INHIBITORY MECHANISM OF 1-METHYL-4-PHENYLPYRIDINIUM AND 4-PHENYLPYRIDINE ANALOGS IN INNER MEMBRANE PREPARATIONS, The Journal of biological chemistry, 269(5), 1994, pp. 3167-3174
Citation: Gd. Zeevalk et Wj. Nicklas, NITRIC-OXIDE IN RETINA - RELATION TO EXCITATORY AMINO-ACIDS AND EXCITOTOXICITY, Experimental Eye Research, 58(3), 1994, pp. 343-350
Citation: Gd. Zeevalk et Wj. Nicklas, HYPOTHERMIA, METABOLIC STRESS, AND NMDA-MEDIATED EXCITOTOXICITY, Journal of neurochemistry, 61(4), 1993, pp. 1445-1453
Citation: Gd. Zeevalk et al., AURINTRICARBOXYLIC ACID PREVENTS NMDA-MEDIATED EXCITOTOXICITY - EVIDENCE FOR ITS ACTION AS AN NMDA RECEPTOR ANTAGONIST, Journal of neurochemistry, 61(1), 1993, pp. 386-389