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Journal Article
PloS one, ISSN 1932-6203, 2012, Volume 7, Issue 3, p. e33210
Brassinosteroids (BRs) and polyamines (PAs) are well-established growth regulators playing key roles in stress management among plants. In the present study,... 
OXIDATIVE STRESS | RESPONSIVE 2-COMPONENT SYSTEM | TOLERANCE | MULTIDISCIPLINARY SCIENCES | LIGHT | DROUGHT | TOXICITY | ABSCISIC-ACID | SPERMIDINE | CELL-DEATH | WATER | Trace Elements - metabolism | Glutathione Reductase - metabolism | Antioxidants - metabolism | NADPH Oxidases - metabolism | Spermidine - metabolism | Seedlings - growth & development | Brassinosteroids - metabolism | Chromium - toxicity | Raphanus - genetics | Abscisic Acid - metabolism | Plant Proteins - metabolism | Stress, Physiological - drug effects | Raphanus - metabolism | Superoxide Dismutase - metabolism | Brassinosteroids - pharmacology | Indoleacetic Acids - metabolism | Seedlings - drug effects | Chromium - metabolism | Enzyme Activation - drug effects | Reverse Transcriptase Polymerase Chain Reaction | Photosystem II Protein Complex - metabolism | Polyamines - metabolism | Catalase - metabolism | Plant Proteins - genetics | Gene Expression Regulation, Plant - drug effects | Polyamines - pharmacology | Raphanus - drug effects | Spermidine - pharmacology | Plant Growth Regulators - metabolism | Plant Growth Regulators - pharmacology | Peroxidase - metabolism | Seedlings - metabolism | Trace Elements - toxicity | Antioxidants | Enzymes | Physiological aspects | Superoxide | Photosynthesis | Polyamines | Metallothionein | Steroids | Oxidative stress | Regulators | Reactive oxygen species | Hydrogen peroxide | Ascorbic acid | Seeds | Horticulture | Genomics | Proline | Superoxide dismutase | Physiological responses | Catalase | Glutathione reductase | Betaine | Pigments | Abscisic acid | Physiology | Peroxidase | Glycine betaine | Plant sciences | Sugars | Glutathione | Soil contamination | Plants (botany) | Abiotic stress | Growth regulators | Brassinosteroids | Data processing | Phytochelatins | Metabolism | Photosynthetic pigments | Gene expression | Malondialdehyde | Seedlings | Salinity | Studies | Mitigation | Environmental science | Plant growth | Phenols | Chromium | Methods
Journal Article
Biological chemistry, ISSN 1431-6730, 11/2010, Volume 391, Issue 11, pp. 1249 - 1264
Journal Article
Biological chemistry, ISSN 1437-4315, 2010, Volume 391, Issue 11
Alcoholic liver disease (ALD) remains a major cause of morbidity and mortality worldwide. For example, the Veterans Administration Cooperative Studies reported... 
Journal Article
Journal Article
Clinical and Experimental Pharmacology and Physiology, ISSN 0305-1870, 05/2007, Volume 34, Issue 5, pp. 425 - 431
SUMMARY • It is known that stress causes disruption of homeostasis and an imbalanced anti-oxidant status in several organs. The aim of the present study was to... 
immobilization-cold stress | rat | glutathione | protein oxidation | cold stress | anti-oxidant enzymes | lipid peroxidation | immobilization stress | anti‐oxidant enzymes | immobilization–cold stress | Cold stress | Protein oxidation | Rat | Anti-oxidant enzymes | Immobilization-cold stress | Lipid peroxidation | Immobilization stress | Glutathione | CATALASE | ENZYME-ACTIVITIES | DEFENSE | PHYSIOLOGY | GLUCOCORTICOIDS | GLUTATHIONE-PEROXIDASE | BODY-WEIGHT | METABOLISM | AGE-RELATED-CHANGES | PHARMACOLOGY & PHARMACY | BRAIN | EXPOSURE | Protein Carbonylation | Rats, Wistar | Glutathione - metabolism | Zinc - metabolism | Antioxidants - metabolism | Male | Stress, Psychological - psychology | Immobilization - psychology | Kidney - metabolism | Myocardium - metabolism | Copper - metabolism | Corticosterone - blood | Weight Gain | Superoxide Dismutase - metabolism | Glutathione Peroxidase - metabolism | Cold Temperature | Liver - metabolism | Rats | Thiobarbituric Acid Reactive Substances - metabolism | Kidney - cytology | Liver - chemistry | Lipid Peroxidation - physiology | Myocardium - cytology | Catalase - metabolism | Animals | Selenium - metabolism | Models, Biological | Weight Loss | Kidney - chemistry | Liver - cytology | Liver, cytology | Thiobarbituric Acid Reactive Substances, metabolism | Superoxide Dismutase, metabolism | Zinc, metabolism | Antioxidants, metabolism | Kidney, metabolism | Glutathione, metabolism | Myocardium, metabolism | Immobilization, psychology | Corticosterone, blood | Catalase, metabolism | Selenium, metabolism | Liver, chemistry | Cold | Copper, metabolism | Lipid Peroxidation, physiology | Myocardium, cytology | Kidney, chemistry | Liver, metabolism | Glutathione Peroxidase, metabolism | Stress, Psychological, psychology | Kidney, cytology | Antioxidants | Comparative analysis | Oxidation-reduction reaction
Journal Article
Amino acids, ISSN 1438-2199, 2016, Volume 49, Issue 1, pp. 129 - 138
.... Oxidative stress is involved in the pathophysiology of many inborn errors of metabolism. However, little is known about the role of oxidative damage in hepatic and renal changes in hypermethioninemia... 
Life Sciences | Biochemistry, general | Oxidative stress | Analytical Chemistry | Life Sciences, general | Methionine sulfoxide | Biochemical Engineering | Proteomics | Neurobiology | Methionine | Delta aminolevulinic dehydratase | LIPID-PEROXIDATION | ANTIOXIDANTS | BIOCHEMISTRY & MOLECULAR BIOLOGY | DELTA-AMINOLEVULINATE DEHYDRATASE | DAMAGE | HYPERMETHIONINEMIA | METABOLISM | FAT | ADENOSYLTRANSFERASE I/III DEFICIENCY | PROTEINS | RESIDUES | Glycine N-Methyltransferase - metabolism | Liver - pathology | Reactive Oxygen Species - metabolism | Kidney - pathology | Rats, Wistar | Glycine N-Methyltransferase - deficiency | Male | Methionine - pharmacology | Porphobilinogen Synthase - metabolism | Amino Acid Metabolism, Inborn Errors - metabolism | Kidney - metabolism | Sulfhydryl Compounds - metabolism | Liver - drug effects | Methionine - analogs & derivatives | Injections, Subcutaneous | Female | Urea - metabolism | Amino Acid Metabolism, Inborn Errors - pathology | Superoxide Dismutase - metabolism | Glutathione Peroxidase - metabolism | Amino Acid Metabolism, Inborn Errors - chemically induced | Kidney - drug effects | Methionine - metabolism | Liver - metabolism | Rats | Thiobarbituric Acid Reactive Substances - metabolism | Cholesterol - metabolism | Enzyme Activation - drug effects | Triglycerides - metabolism | Catalase - metabolism | Animals | Glucose - metabolism | Oxidative Stress - drug effects | Lipid Peroxidation | Enzymes | Urea | Liver | Physiological aspects | Amino acids | Triglycerides | Superoxide | Index Medicus
Journal Article
Atherosclerosis, ISSN 0021-9150, 2012, Volume 221, Issue 2, pp. 375 - 382
Highlights ► Liraglutide can normalize TNF-α-induced pro-oxidant production in HUVEC probably through reduced expression of NADPH oxidase subunit gp91phox and... 
Cardiovascular | Oxidative stress | NF-κB | Endothelial cell | Inflammation | Apoptosis | CHRONIC HEART-FAILURE | TRANSLOCATION | PROTEIN-KINASE-C | PENTRAXIN 3 | ACTIVATION | CARDIAC & CARDIOVASCULAR SYSTEMS | IN-VITRO | NF-kappa B | ACUTE MYOCARDIAL-INFARCTION | DEGRADATION | PERIPHERAL VASCULAR DISEASE | DYSFUNCTION | VASCULAR NAD(P)H OXIDASE | Tumor Necrosis Factor-alpha - metabolism | Phosphorylation | Reactive Oxygen Species - metabolism | Human Umbilical Vein Endothelial Cells - metabolism | Membrane Glycoproteins - metabolism | Protein Kinase C-alpha - metabolism | Apoptosis - drug effects | Humans | NADPH Oxidases - metabolism | Human Umbilical Vein Endothelial Cells - immunology | NF-kappa B - metabolism | I-kappa B Proteins - metabolism | Dose-Response Relationship, Drug | C-Reactive Protein - metabolism | Transfection | I-kappa B Kinase - metabolism | Time Factors | Inflammation Mediators - metabolism | Superoxide Dismutase - metabolism | Recombinant Proteins - metabolism | Glutathione Peroxidase - metabolism | Human Umbilical Vein Endothelial Cells - drug effects | Anti-Inflammatory Agents - pharmacology | Glucagon-Like Peptide 1 - analogs & derivatives | Cells, Cultured | Glucagon-Like Peptide 1 - pharmacology | Antioxidants - pharmacology | NADPH Oxidase 2 | Protein Transport | Catalase - metabolism | NF-kappa B - genetics | Signal Transduction - drug effects | Serum Amyloid P-Component - metabolism | Oxidative Stress - drug effects | Liraglutide
Journal Article
PloS one, ISSN 1932-6203, 2014, Volume 9, Issue 4, p. e95319
Oxidative stress and the antioxidant response induced by high environmental ammonia (HEA) were investigated in the liver and gills of three freshwater teleosts... 
SUBLETHAL AMMONIA | RAINBOW-TROUT | LIPID-PEROXIDATION | MULTIDISCIPLINARY SCIENCES | HIGH ENVIRONMENTAL AMMONIA | TOXICITY | PRIMARY CULTURES | SEA BASS | TROUT ONCORHYNCHUS-MYKISS | SALMO-SALAR L | FREE-RADICALS | Adaptation, Physiological | Superoxide Dismutase - genetics | Oxidative Stress | Species Specificity | Glutathione - metabolism | Glutathione Reductase - metabolism | Glutathione Reductase - genetics | Ascorbate Peroxidases - metabolism | Gills - drug effects | Goldfish - genetics | Liver - drug effects | Ascorbate Peroxidases - genetics | Xanthine Oxidase - genetics | Superoxide Dismutase - metabolism | Malondialdehyde - metabolism | Oncorhynchus mykiss - metabolism | Carps - metabolism | Glutathione Peroxidase - metabolism | Xanthine Oxidase - metabolism | Goldfish - metabolism | Catalase - genetics | Liver - metabolism | Ammonia - toxicity | Gills - metabolism | Oncorhynchus mykiss - genetics | Glutathione Peroxidase - genetics | Hydrogen Peroxide - metabolism | Catalase - metabolism | Gene Expression Regulation - drug effects | Animals | Carps - genetics | Physiological aspects | Oxidative stress | Genetic aspects | Molybdenum compounds | Trout | Analysis | Hydrogen peroxide | Ascorbic acid | Hydrogen | Liver | L-Ascorbate peroxidase | Superoxide dismutase | Accumulation | Antioxidants | Catalase | Glutathione reductase | Rodents | Fish | Peroxidase | Species | Glutathione | Glutathione peroxidase | Carp | Salmon | Gills | Exposure | Xanthine | Malondialdehyde | Ammonia | Xanthine oxidase | System effectiveness
Journal Article
Journal of Molecular and Cellular Cardiology, ISSN 0022-2828, 2014, Volume 79, pp. 275 - 283
Abstract Background Obesity leads to metabolic heart disease (MHD) that is associated with a pathologic increase in myocardial fatty acid (FA) uptake and... 
Cardiovascular | Obesity | Metabolic heart disease | Mitochondria | Lipid excess | OXIDATIVE STRESS | CARDIAC & CARDIOVASCULAR SYSTEMS | PROLIFERATOR-ACTIVATED RECEPTOR | KINASE-C | FATTY-ACIDS | CELL BIOLOGY | REDUCES DIABETIC CARDIOMYOPATHY | SKELETAL-MUSCLE | LIPOTOXIC CARDIOMYOPATHY | FAILING HEART | COACTIVATOR PGC-1 | TRANSCRIPTIONAL CONTROL | Mitochondria, Heart - ultrastructure | Phosphorylation | Mitochondria, Heart - metabolism | Carnitine - metabolism | RNA, Messenger - metabolism | Fatty Acid Transport Proteins - metabolism | Diglycerides - metabolism | Protein Kinase C - metabolism | Adenosine Triphosphate - metabolism | Myocardium - metabolism | Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha | Carnitine - analogs & derivatives | Proto-Oncogene Proteins c-akt - metabolism | Myocardium - ultrastructure | Ceramides - metabolism | Sphingomyelins - metabolism | RNA, Messenger - genetics | Gene Expression Regulation | Oxygen Consumption | Lipids - adverse effects | Myocardium - pathology | Organ Specificity | Hydrogen Peroxide - metabolism | Catalase - metabolism | Transcription Factors - metabolism | Animals | Electron Transport Complex II - metabolism | Models, Biological | Cyclic AMP Response Element-Binding Protein - metabolism | Myocytes, Cardiac - metabolism | Mice | PPAR alpha - metabolism | Fatty acids | Analysis | Mitochondrial DNA | Index Medicus | Metabolic Heart Disease | Lipid Excess
Journal Article