| scholarly article | Q13442814 |
| P2093 | author name string | David A Bernlohr | |
| Eric K Long | |||
| Dalay M Olson | |||
| P2860 | cites work | Oxidative stress and covalent modification of protein with bioactive aldehydes | Q24649676 |
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| Role of aldehyde dehydrogenase isozymes in the defense of rat lens and human lens epithelial cells against oxidative stress | Q28567370 | ||
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| Analysis of a Model Reaction System Containing Cysteine and (E)-2-Methyl-2-butenal, (E)-2-Hexenal, or Mesityl Oxide | Q30883972 | ||
| Covalent adduction of nucleophilic amino acids by 4-hydroxynonenal and 4-oxononenal | Q31132956 | ||
| Covalent modification of epithelial fatty acid-binding protein by 4-hydroxynonenal in vitro and in vivo. Evidence for a role in antioxidant biology | Q33184894 | ||
| Carbonylation of adipose proteins in obesity and insulin resistance: identification of adipocyte fatty acid-binding protein as a cellular target of 4-hydroxynonenal | Q33268342 | ||
| Dysregulation of adipose glutathione peroxidase 3 in obesity contributes to local and systemic oxidative stress | Q33642761 | ||
| Downregulation of adipose glutathione S-transferase A4 leads to increased protein carbonylation, oxidative stress, and mitochondrial dysfunction | Q33803419 | ||
| Increased levels of 4-hydroxynonenal and acrolein in the brain in preclinical Alzheimer disease | Q33897525 | ||
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| Mitochondrial DNA damage and dysfunction, and oxidative stress are associated with endoplasmic reticulum stress, protein degradation and apoptosis in high fat diet-induced insulin resistance mice | Q34559096 | ||
| Stress, visceral obesity, and metabolic complications | Q34587960 | ||
| Basic aspects of the biochemical reactivity of 4-hydroxynonenal | Q35189509 | ||
| Role of 4-hydroxynonenal in stress-mediated apoptosis signaling | Q35189540 | ||
| Peroxiredoxin 3 is a key molecule regulating adipocyte oxidative stress, mitochondrial biogenesis, and adipokine expression. | Q35604034 | ||
| Increased macrophage migration into adipose tissue in obese mice | Q35696560 | ||
| Interactions of glutathione transferases with 4-hydroxynonenal | Q35731685 | ||
| Inflammation, insulin resistance, and obesity. | Q35918777 | ||
| Protein carbonylation and metabolic control systems | Q36129390 | ||
| Increased adipose protein carbonylation in human obesity | Q36279150 | ||
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| Mitochondrial effects of lipid-derived neurotoxins. | Q36961326 | ||
| 4-Hydroxynonenal-protein adducts: A reliable biomarker of lipid oxidation in liver diseases. | Q37044814 | ||
| A lipid-derived endogenous inducer of COX-2: a bridge between inflammation and oxidative stress. | Q37165141 | ||
| Differential contribution of the mitochondrial respiratory chain complexes to reactive oxygen species production by redox cycling agents implicated in parkinsonism | Q37420410 | ||
| TNF-alpha and obesity | Q37696085 | ||
| The expression and function of vascular endothelial growth factor in retinal pigment epithelial (RPE) cells is regulated by 4-hydroxynonenal (HNE) and glutathione S-transferaseA4-4. | Q39430933 | ||
| A lipid peroxidation-derived inflammatory mediator: identification of 4-hydroxy-2-nonenal as a potential inducer of cyclooxygenase-2 in macrophages | Q40517859 | ||
| 4-Hydroxynonenal and fat storage: A paradoxical pro-obesity mechanism? | Q42882285 | ||
| Consumption of a high glycemic index diet increases abdominal adiposity but does not influence adipose tissue pro-oxidant and antioxidant gene expression in C57BL/6 mice. | Q43130905 | ||
| 4-Hydroxy-2-nonenal is a powerful endogenous inhibitor of endothelial response | Q43636560 | ||
| Role of p38 mitogen-activated protein kinase in the 4-hydroxy-2-nonenal-induced cyclooxygenase-2 expression | Q43857537 | ||
| Gene expression in visceral and subcutaneous adipose tissue in overweight women | Q44200271 | ||
| Effects of dietary fat and zinc on adiposity, serum leptin and adipose fatty acid composition in C57BL/6J mice | Q44297579 | ||
| Trans-4-oxo-2-nonenal potently alters mitochondrial function | Q44390596 | ||
| Degradation of glyceraldehyde-3-phosphate dehydrogenase triggered by 4-hydroxy-2-nonenal and 4-hydroxy-2-hexenal | Q46501992 | ||
| Structural characterization of alpha,beta-unsaturated aldehydes by GC/MS is dependent upon ionization method | Q46508721 | ||
| Increased levels of 4-hydroxynonenal and acrolein, neurotoxic markers of lipid peroxidation, in the brain in Mild Cognitive Impairment and early Alzheimer's disease | Q46580300 | ||
| Role of the electrophilic lipid peroxidation product 4-hydroxynonenal in the development and maintenance of obesity in mice | Q46724603 | ||
| Residue-specific adduction of tubulin by 4-hydroxynonenal and 4-oxononenal causes cross-linking and inhibits polymerization | Q48105013 | ||
| Dietary sandalwood seed oil modifies fatty acid composition of mouse adipose tissue, brain, and liver | Q48623923 | ||
| Differential effects of high-fat-diet rich in lard oil or soybean oil on osteopontin expression and inflammation of adipose tissue in diet-induced obese rats. | Q51353294 | ||
| Relationship of oxidative stress with obesity and its role in obesity induced metabolic syndrome. | Q51354264 | ||
| The Human Visceral Fat Depot Has a Unique Inflammatory Profile | Q61774862 | ||
| Determination of the lipid peroxidation product (E)-4-hydroxy-2-nonenal in clinical samples by gas chromatography--negative-ion chemical ionisation mass spectrometry of the O-pentafluorobenzyl oxime. | Q67212130 | ||
| Determination of the lipid peroxidation product trans-4-hydroxy-2-nonenal in biological samples by high-performance liquid chromatography and combined capillary column gas chromatography-negative-ion chemical ionisation mass spectrometry | Q69652599 | ||
| Covalent attachment of 4-hydroxynonenal to glyceraldehyde-3-phosphate dehydrogenase. A possible involvement of intra- and intermolecular cross-linking reaction | Q70614534 | ||
| Pathophysiology and pathogenesis of visceral fat obesity | Q70951912 | ||
| Hepatic aldehyde dehydrogenases and lipid peroxidation | Q71082287 | ||
| 4-Hydroxynonenal formation during ischemia and reperfusion of rat small intestine | Q71965074 | ||
| Genotoxic properties of 4-hydroxyalkenals and analogous aldehydes | Q72104243 | ||
| Effect of 4-hydroxy-2,3-trans-nonenal and related aldehydes on phospholipase C activity of rat neutrophils | Q72165445 | ||
| Serum 4-hydroxy-2-nonenal-modified albumin is elevated in patients with type 2 diabetes mellitus | Q73524862 | ||
| Characterization of 4-oxo-2-nonenal as a novel product of lipid peroxidation | Q74217134 | ||
| Reactions of 1-methyl-2-phenylindole with malondialdehyde and 4-hydroxyalkenals. Analytical applications to a colorimetric assay of lipid peroxidation | Q77431145 | ||
| Glutathione peroxidase3 of Saccharomyces cerevisiae protects phospholipids during cadmium-induced oxidative stress | Q83180933 | ||
| Depot-specific overexpression of proinflammatory, redox, endothelial cell, and angiogenic genes in epicardial fat adjacent to severe stable coronary atherosclerosis | Q84376291 | ||
| P304 | page(s) | 390-398 | |
| P577 | publication date | 2013-05-28 | |
| P1433 | published in | Free Radical Biology and Medicine | Q5500023 |
| P1476 | title | High-fat diet induces changes in adipose tissue trans-4-oxo-2-nonenal and trans-4-hydroxy-2-nonenal levels in a depot-specific manner | |
| P478 | volume | 63 |
| Q49339905 | A role for long-chain acyl-CoA synthetase-4 (ACSL4) in diet-induced phospholipid remodeling and obesity-associated adipocyte dysfunction. |
| Q51009537 | ALDH2*2 Allele is a Negative Risk Factor for Cerebral Infarction in Chinese Women. |
| Q40955171 | Adipocyte-Specific Deletion of Manganese Superoxide Dismutase Protects From Diet-Induced Obesity Through Increased Mitochondrial Uncoupling and Biogenesis |
| Q90621939 | Adipose oxidative stress and protein carbonylation |
| Q28249276 | Branched-chain amino acids in metabolic signalling and insulin resistance |
| Q95661178 | Chromatin as a key consumer in the metabolite economy |
| Q60916152 | Disruption of the hippocampal and hypothalamic blood-brain barrier in a diet-induced obese model of type II diabetes: prevention and treatment by the mitochondrial carbonic anhydrase inhibitor, topiramate |
| Q41540768 | Effects of a wide range of dietary nicotinamide riboside (NR) concentrations on metabolic flexibility and white adipose tissue (WAT) of mice fed a mildly obesogenic diet. |
| Q27329108 | Free fatty acids, lipopolysaccharide and IL-1α induce adipocyte manganese superoxide dismutase which is increased in visceral adipose tissues of obese rodents |
| Q38614144 | Glutathionyl systems and metabolic dysfunction in obesity |
| Q34017989 | Impact of chronic low to moderate alcohol consumption on blood lipid and heart energy profile in acetaldehyde dehydrogenase 2-deficient mice |
| Q46762183 | In adipose tissue, increased mitochondrial emission of reactive oxygen species is important for short-term high-fat diet-induced insulin resistance in mice. |
| Q35140256 | Inflammation and ER stress regulate branched-chain amino acid uptake and metabolism in adipocytes |
| Q34001327 | Metabolic remodeling of white adipose tissue in obesity |
| Q90254951 | Obesity-induced protein carbonylation in murine adipose tissue regulates the DNA-binding domain of nuclear zinc finger proteins |
| Q90699040 | Oxidative modifications of mitochondrial complex II are associated with insulin resistance of visceral fat in obesity |
| Q38786583 | Oxidative stress and lipotoxicity |
| Q34038044 | Oxidative stress and metabolic pathologies: from an adipocentric point of view. |
| Q33568689 | Proinflammatory cytokines differentially regulate adipocyte mitochondrial metabolism, oxidative stress, and dynamics |
| Q42701691 | Short-term vitamin E treatment impairs reactive oxygen species signaling required for adipose tissue expansion, resulting in fatty liver and insulin resistance in obese mice |
| Q35571550 | Site-specific, intramolecular cross-linking of Pin1 active site residues by the lipid electrophile 4-oxo-2-nonenal |
| Q89620129 | The Impact of Oxidative Stress on Adipose Tissue Energy Balance |
| Q26797301 | Why does obesity promote cancer? Epidemiology, biology, and open questions |
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