scholarly article | Q13442814 |
P2093 | author name string | Ke Li | |
Hua Zhao | |||
Xin Gen Lei | |||
Ji-Chang Zhou | |||
Kang-Ning Wang | |||
Xin-Jie Xia | |||
Jia-Yong Tang | |||
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Tanis: a link between type 2 diabetes and inflammation? | Q24298152 | ||
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Cloning of adiponectin receptors that mediate antidiabetic metabolic effects | Q24304889 | ||
Activation of the selenoprotein SEPS1 gene expression by pro-inflammatory cytokines in HepG2 cells | Q24312093 | ||
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Regulation of the selenoprotein SelS by glucose deprivation and endoplasmic reticulum stress - SelS is a novel glucose-regulated protein | Q24323792 | ||
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Characterization of mammalian selenoproteomes. | Q27863319 | ||
Structure-function relations, physiological roles, and evolution of mammalian ER-resident selenoproteins. | Q27863410 | ||
Adipocyte/macrophage fatty acid binding proteins control integrated metabolic responses in obesity and diabetes | Q28264518 | ||
Genetic variation in selenoprotein S influences inflammatory response | Q28277290 | ||
Fat and carbohydrate overfeeding in humans: different effects on energy storage | Q28292352 | ||
Treatment of diabetes and atherosclerosis by inhibiting fatty-acid-binding protein aP2 | Q28305340 | ||
Characterization of mammalian selenoprotein o: a redox-active mitochondrial protein | Q28854578 | ||
Prevalence of obesity and trends in the distribution of body mass index among US adults, 1999-2010 | Q29555853 | ||
Mechanisms linking obesity to insulin resistance and type 2 diabetes | Q29614887 | ||
High-fat-diet-induced obesity and heart dysfunction are regulated by the TOR pathway in Drosophila | Q30497986 | ||
Prolonged dietary selenium deficiency or excess does not globally affect selenoprotein gene expression and/or protein production in various tissues of pigs | Q30520447 | ||
Reduced body weight and increased energy expenditure in transgenic mice over-expressing soluble leptin receptor | Q33638441 | ||
Diabetic kidney disease in thedb/dbmouse | Q34195384 | ||
Poverty and obesity: the role of energy density and energy costs | Q34284834 | ||
Supplemental dietary inulin of variable chain lengths alters intestinal bacterial populations in young pigs | Q34308272 | ||
Impacts of dietary selenium deficiency on metabolic phenotypes of diet-restricted GPX1-overexpressing mice | Q34519430 | ||
Minireview: human obesity-lessons from monogenic disorders | Q34536432 | ||
Glutathione peroxidases and redox-regulated transcription factors | Q34653039 | ||
Physiological role of phospholipid hydroperoxide glutathione peroxidase in mammals | Q34655223 | ||
RNAi-mediated germline knockdown of FABP4 increases body weight but does not improve the deranged nutrient metabolism of diet-induced obese mice | Q34666088 | ||
Selenium regulation of the selenoprotein and nonselenoprotein transcriptomes in rodents | Q34729873 | ||
Leptin-receptor polymorphisms relate to obesity through blunted leptin-mediated sympathetic nerve activation in a Caucasian male population | Q34810969 | ||
Development of insulin resistance and obesity in mice overexpressing cellular glutathione peroxidase | Q34827699 | ||
Selenium status highly regulates selenoprotein mRNA levels for only a subset of the selenoproteins in the selenoproteome | Q35102040 | ||
Emerging trends in the search for genetic variants predisposing to human obesity | Q35154206 | ||
The selenium deficiency disease exudative diathesis in chicks is associated with downregulation of seven common selenoprotein genes in liver and muscle | Q35173407 | ||
Selenoprotein K binds multiprotein complexes and is involved in the regulation of endoplasmic reticulum homeostasis | Q35604604 | ||
Eukaryotic selenoproteins and selenoproteomes | Q36316623 | ||
Dietary selenium deficiency partially rescues type 2 diabetes-like phenotypes of glutathione peroxidase-1-overexpressing male mice. | Q36398560 | ||
A high-selenium diet induces insulin resistance in gestating rats and their offspring | Q36421324 | ||
Increased selenoprotein p levels in subjects with visceral obesity and nonalcoholic Fatty liver disease | Q36628915 | ||
Metabolic regulation and function of glutathione peroxidase-1. | Q36804687 | ||
Physiological role and regulation of iodothyronine deiodinases: a 2011 update | Q36943500 | ||
Selenoprotein gene expression in thyroid and pituitary of young pigs is not affected by dietary selenium deficiency or excess | Q37082614 | ||
On the importance of selenium and iodine metabolism for thyroid hormone biosynthesis and human health | Q37237529 | ||
Adipokine dysregulation, adipose tissue inflammation and metabolic syndrome | Q37580095 | ||
High-fat diet-induced obesity in animal models | Q37803278 | ||
Deiodinases: the balance of thyroid hormone: local control of thyroid hormone action: role of type 2 deiodinase | Q37835565 | ||
Selenium biochemistry and its role for human health | Q38159453 | ||
Modulation of circulating leptin levels by its soluble receptor | Q38306099 | ||
Increased serum soluble leptin receptor levels in children and adolescents with type 1 diabetes mellitus | Q38335543 | ||
Obesity-induced inflammatory changes in adipose tissue. | Q40348859 | ||
Association of glutathione peroxidase activity with insulin resistance and dietary fat intake during normal pregnancy | Q44690315 | ||
Mitochondria-specific transgenic overexpression of phospholipid hydroperoxide glutathione peroxidase (GPx4) attenuates ischemia/reperfusion-associated cardiac dysfunction | Q44939866 | ||
Postprandial cytokine concentrations and meal composition in obese and lean women. | Q46136920 | ||
Effects of a supranutritional dose of selenate compared with selenite on insulin sensitivity in type II diabetic dbdb mice | Q46401673 | ||
Molecular mechanisms for hyperinsulinaemia induced by overproduction of selenium-dependent glutathione peroxidase-1 in mice | Q46534639 | ||
Effects of dietary fat types on body fatness, leptin, and ARC leptin receptor, NPY, and AgRP mRNA expression | Q48608444 | ||
The relation of leptin and soluble leptin receptor levels with metabolic and clinical parameters in obese and healthy children. | Q51324470 | ||
iTRAQ-based quantitative protein expression profiling and MRM verification of markers in type 2 diabetes. | Q54288436 | ||
Overexpression of Agrt leads to obesity in transgenic mice. | Q55067245 | ||
Visceral Fat Adipokine Secretion Is Associated With Systemic Inflammation in Obese Humans | Q63866263 | ||
[The influence hypocaloric diet on induces of carbohydrate metabolism and concentration of leptin and soluble leptin receptor in the blood serum of the type 2 diabetic patients] | Q79335749 | ||
Macrophage infiltration into omental versus subcutaneous fat across different populations: effect of regional adiposity and the comorbidities of obesity | Q79996607 | ||
The development of porcine models of obesity and the metabolic syndrome | Q80512407 | ||
New roles for an old selenoenzyme: evidence from glutathione peroxidase-1 null and overexpressing mice | Q81245963 | ||
Serum selenoprotein P levels in patients with type 2 diabetes and prediabetes: implications for insulin resistance, inflammation, and atherosclerosis | Q84371320 | ||
P433 | issue | 7 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | obesity | Q12174 |
P304 | page(s) | 1394-1401 | |
P577 | publication date | 2015-05-13 | |
P1433 | published in | Journal of Nutrition | Q3186931 |
P1476 | title | Expression of Selenoprotein Genes Is Affected by Obesity of Pigs Fed a High-Fat Diet | |
P478 | volume | 145 |
Q55404044 | Agouti Signaling Protein and Its Receptors as Potential Molecular Markers for Intramuscular and Body Fat Deposition in Cattle. |
Q90107547 | Damage to the myogenic differentiation of C2C12 cells by heat stress is associated with up-regulation of several selenoproteins |
Q47947121 | Effect of Low-Selenium/High-Fat Diet on Pig Peripheral Blood Lymphocytes: Perspectives from Selenoproteins, Heat Shock Proteins, and Cytokines |
Q52561076 | Evolution, regulation, and function of porcine selenogenome. |
Q38809001 | Expression of Selenoprotein Genes Is Affected by Heat Stress in IPEC-J2 Cells |
Q90132767 | Maternal selenium status is profoundly involved in metabolic fetal programming by modulating insulin resistance, oxidative balance and energy homeostasis |
Q37706635 | Oxidative stress induced by Se-deficient high-energy diet implicates neutrophil dysfunction via Nrf2 pathway suppression in swine |
Q41200956 | Pancreatic atrophy caused by dietary selenium deficiency induces hypoinsulinemic hyperglycemia via global down-regulation of selenoprotein encoding genes in broilers. |
Q91742127 | Polymorphisms of the ASIP gene and the haplotype are associated with fat deposition traits and fatty acid composition in Chinese Simmental steers |
Q51407876 | Response of Selenium and Selenogenome in Immune Tissues to LPS-Induced Inflammatory Reactions in Pigs. |
Q64137620 | Role of glutathione peroxidase 1 in glucose and lipid metabolism-related diseases |
Q92893666 | SBP2 deficiency in adipose tissue macrophages drives insulin resistance in obesity |
Q38792169 | Selenoprotein X Gene Knockdown Aggravated H2O2-Induced Apoptosis in Liver LO2 Cells |
Q47829121 | Sexual dimorphism in the effect of maternal obesity on antioxidant defense mechanisms in the human placenta. |
Q51692604 | Supranutritional dietary selenium depressed expression of selenoprotein genes in three immune organs of broilers. |
Q90867704 | The protective effect of selenium from heat stress-induced porcine small intestinal epithelial cell line (IPEC-J2) injury is associated with regulation expression of selenoproteins |
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