Oxidative-stress-induced epigenetic changes in chronic diabetic complications. - Wikidata - thesis-toulmin - TriplyDB

Oxidative-stress-induced epigenetic changes in chronic diabetic complications.

Oxidative-stress-induced epigenetic changes in chronic diabetic complications.

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Significance of epigenetic landscape in cartilage regeneration from the cartilage development and pathology perspective.Zinc and Oxidative Stress: Current Mechanisms Pathogenesis of chronic hyperglycemia: from reductive stress to oxidative stress.Promoter DNA demethylation of Keap1 gene in diabetic cardiomyopathy.Cell injury and repair resulting from sleep loss and sleep recovery in laboratory rats.Methylation of insulin DNA in response to proinflammatory cytokines during the progression of autoimmune diabetes in NOD mice.Quercetin Isolated from Toona sinensis Leaves Attenuates Hyperglycemia and Protects Hepatocytes in High-Carbohydrate/High-Fat Diet and Alloxan Induced Experimental Diabetic Mice.Causes and consequences of epigenetic regulation in wound healing.Evaluating the Phase II drugs currently under investigation for diabetic neuropathy.Epigenetics and Cardiovascular Disease in Diabetes.Redox Signaling in Diabetic Wound Healing Regulates Extracellular Matrix Deposition.High glucose induces Smad activation via the transcriptional coregulator p300 and contributes to cardiac fibrosis and hypertrophy.Improved Sp1 and Betaine Homocysteine-S-Methyltransferase Expression and Homocysteine Clearance Are Involved in the Effects of Zinc on Oxidative Stress in High-Fat-Diet-Pretreated Mice.LncRNAs: Proverbial Genomic "Junk" or Key Epigenetic Regulators During Cardiac Fibrosis in Diabetes?

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Oxidative-stress-induced epigenetic changes in chronic diabetic complications.

http://www.wikidata.org/entity/Q38093867

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article científic

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artikel ilmiah

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artículo científico

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Oxidative-stress-induced epigenetic changes in chronic diabetic complications.

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type

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Oxidative-stress-induced epigenetic changes in chronic diabetic complications.

@en

prefLabel

Oxidative-stress-induced epigenetic changes in chronic diabetic complications.

@en

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Canadian Journal of Physiology and Pharmacology

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Oxidative-stress-induced epigenetic changes in chronic diabetic complications.

@en

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Biao Feng

http://www.w3.org/2001/XMLSchema#string

Michael Anthony Ruiz

http://www.w3.org/2001/XMLSchema#string

Subrata Chakrabarti

http://www.w3.org/2001/XMLSchema#string

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Most mammalian mRNAs are conserved targets of microRNAs

MicroRNAs in insulin resistance and obesity

Genome regulation by long noncoding RNAs.

Functional siRNAs and miRNAs exhibit strand bias

Microarray analysis shows that some microRNAs downregulate large numbers of target mRNAs

MicroRNAs 103 and 107 regulate insulin sensitivity

Obesity-induced overexpression of miRNA-143 inhibits insulin-stimulated AKT activation and impairs glucose metabolism

Intravenous gene therapy with PIM-1 via a cardiotropic viral vector halts the progression of diabetic cardiomyopathy through promotion of prosurvival signaling

Auto-acetylation stabilizes p300 in cardiac myocytes during acute oxidative stress, promoting STAT3 accumulation and cell survival

Regulation of cardiomyocyte hypertrophy in diabetes at the transcriptional level

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213-220

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scholarly article

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10.1139/CJPP-2012-0251

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3

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91

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2012-12-17T00:00:00Z

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236088876

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23537434

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