| scholarly article | Q13442814 |
| P356 | DOI | 10.1002/MNFR.200800310 |
| P698 | PubMed publication ID | 19496084 |
| P50 | author | Saeko Masumoto | Q52358936 |
| P2093 | author name string | Yumiko Takahashi | |
| Yukari Akimoto | |||
| Msauko Kobori | |||
| P2860 | cites work | Polyphenols and disease risk in epidemiologic studies | Q28301760 |
| Inhibition of the activation of heat shock factor in vivo and in vitro by flavonoids | Q38327273 | ||
| Tissue distribution of quercetin in rats and pigs | Q48828295 | ||
| P433 | issue | 7 | |
| P304 | page(s) | 859-868 | |
| P577 | publication date | 2009-07-01 | |
| P1433 | published in | Molecular Nutrition and Food Research | Q15751861 |
| P1476 | title | Dietary quercetin alleviates diabetic symptoms and reduces streptozotocin-induced disturbance of hepatic gene expression in mice | |
| P478 | volume | 53 |
| Q39002199 | A nondigestible saccharide, fructooligosaccharide, increases the promotive effect of a flavonoid, α-glucosyl-isoquercitrin, on glucagon-like peptide 1 (GLP-1) secretion in rat intestine and enteroendocrine cells |
| Q28389419 | Adaptive cellular stress pathways as therapeutic targets of dietary phytochemicals: focus on the nervous system |
| Q48076839 | Antidepressant-like effects of quercetin in diabetic rats are independent of hypothalamic-pituitary-adrenal axis |
| Q97523689 | Antidiabetic Potency, Antioxidant Effects, and Mode of Actions of Citrus reticulata Fruit Peel Hydroethanolic Extract, Hesperidin, and Quercetin in Nicotinamide/Streptozotocin-Induced Wistar Diabetic Rats |
| Q26771961 | Antidiabetic properties of dietary flavonoids: a cellular mechanism review |
| Q36135810 | Antioxidative Activity of Onion Peel Extract in Obese Women: A Randomized, Double-blind, Placebo Controlled Study |
| Q42744201 | Chronic dietary intake of quercetin alleviates hepatic fat accumulation associated with consumption of a Western-style diet in C57/BL6J mice. |
| Q51058664 | Comparative study of the binding of 3 flavonoids to the fat mass and obesity-associated protein by spectroscopy and molecular modeling. |
| Q37825944 | Diabetes is an inflammatory disease: evidence from traditional Chinese medicines |
| Q64914298 | Dietary Polyphenols-Important Non-Nutrients in the Prevention of Chronic Noncommunicable Diseases. A Systematic Review. |
| Q33780166 | Effects of resveratrol and other polyphenols in hepatic steatosis. |
| Q49700104 | Endocrine Disrupting Chemicals Mediated through Binding Androgen Receptor Are Associated with Diabetes Mellitus |
| Q35585881 | Estimated daily intake and seasonal food sources of quercetin in Japan |
| Q64905971 | Ethnomedicinal Investigation of Medicinal Plants of Chakrata Region (Uttarakhand) Used in the Traditional Medicine for Diabetes by Jaunsari Tribe. |
| Q35550679 | Evaluation of the effects of quercetin on damaged salivary secretion |
| Q36177982 | Fanconi anemia links reactive oxygen species to insulin resistance and obesity |
| Q93079853 | Flavonoids and Their Anti-Diabetic Effects: Cellular Mechanisms and Effects to Improve Blood Sugar Levels |
| Q37788333 | Flavonols and cardiovascular disease |
| Q35705388 | Flavonols in the Prevention of Diabetes-induced Vascular Dysfunction |
| Q26782437 | Fluorescence-based bioassays for the detection and evaluation of food materials |
| Q37728933 | Functional genomics of endothelial cells treated with anti-angiogenic or angiopreventive drugs |
| Q31143158 | Gene expression of sternohyoid and diaphragm muscles in type 2 diabetic rats |
| Q33838645 | Gene-Diet Interactions in Type 2 Diabetes: The Chicken and Egg Debate |
| Q28390350 | Growth hormone-releasing hormone disruption extends lifespan and regulates response to caloric restriction in mice |
| Q37094896 | Higher dietary flavonol intake is associated with lower incidence of type 2 diabetes |
| Q47159505 | Hypoglycemic, Hypolipidemic, and Wound Healing Potential of Quercetin in Streptozotocin-Induced Diabetic Rats |
| Q33853862 | Impact of dietary polyphenols on carbohydrate metabolism |
| Q46058136 | Insight into the dynamic interaction between different flavonoids and bovine serum albumin using molecular dynamics simulations and free energy calculations |
| Q50955239 | Modulation of cellular glucose metabolism in human HepG2 cells by combinations of structurally related flavonoids. |
| Q26752387 | Molecular Mechanisms of the Anti-Obesity and Anti-Diabetic Properties of Flavonoids |
| Q34443935 | Molecular and physiological actions of quercetin: need for clinical trials to assess its benefits in human disease |
| Q30368908 | Nutrigenetics and nutrigenomics insights into diabetes etiopathogenesis. |
| Q36906565 | Nutrigenomics and its Impact on Life Style Associated Metabolic Diseases |
| Q34781876 | Onion peel extracts ameliorate hyperglycemia and insulin resistance in high fat diet/streptozotocin-induced diabetic rats |
| Q37716059 | Oxidative stress-associated protein tyrosine kinases and phosphatases in Fanconi anemia |
| Q38916566 | Pioglitazone, quercetin and hydroxy citric acid effect on hepatic biomarkers in Non Alcoholic Steatohepatitis |
| Q51316810 | Pre-meal tomato (Lycopersicon esculentum) intake can have anti-obesity effects in young women? |
| Q40492024 | Protection afforded by quercetin against H2O2-induced apoptosis on PC12 cells via activating PI3K/Akt signal pathway |
| Q92723713 | Quercetin Regulates the Integrated Stress Response to Improve Memory |
| Q39068539 | Quercetin and the ocular surface: What we know and where we are going |
| Q34356099 | Quercetin potentiates insulin secretion and protects INS-1 pancreatic β-cells against oxidative damage via the ERK1/2 pathway |
| Q37603203 | Quercetin reduces obesity-associated ATM infiltration and inflammation in mice: a mechanism including AMPKα1/SIRT1. |
| Q35432222 | Quercetin represses apolipoprotein B expression by inhibiting the transcriptional activity of C/EBPβ. |
| Q37337265 | Quercetin suppresses immune cell accumulation and improves mitochondrial gene expression in adipose tissue of diet-induced obese mice |
| Q42805277 | Quercetin-rich onion peel extract suppresses adipogenesis by down-regulating adipogenic transcription factors and gene expression in 3T3-L1 adipocytes |
| Q51371467 | Quercitrin a bioflavonoid improves the antioxidant status in streptozotocin: induced diabetic rat tissues. |
| Q24601195 | Recent advances in understanding the anti-diabetic actions of dietary flavonoids |
| Q34738579 | Renoprotective, anti-oxidative and anti-apoptotic effects of oral low-dose quercetin in the C57BL/6J model of diabetic nephropathy. |
| Q90669908 | Rheum australe, an endangered high-value medicinal herb of North Western Himalayas: a review of its botany, ethnomedical uses, phytochemistry and pharmacology |
| Q54841829 | Role of red grape polyphenols as antidiabetic agents. |
| Q89861601 | The Effect of Nano-Epigallocatechin-Gallate on Oxidative Stress and Matrix Metalloproteinases in Experimental Diabetes Mellitus |
| Q97644223 | The Potential of Anti-Diabetic Rākau Rongoā (Māori Herbal Medicine) to Treat Type 2 Diabetes Mellitus (T2DM) Mate Huka: A Review |
| Q39304784 | The dietary flavonoids naringenin and quercetin acutely impair glucose metabolism in rodents possibly via inhibition of hypothalamic insulin signalling |
| Q35913162 | The effects of either resveratrol or exercise on macrophage infiltration and switching from M1 to M2 in high fat diet mice |
| Q36018270 | The protective effects of oral low-dose quercetin on diabetic nephropathy in hypercholesterolemic mice. |
| Q38113967 | The role of antioxidants and other agents in alleviating hyperglycemia mediated oxidative stress and injury in liver |
| Q33710347 | The use of transcriptomics to unveil the role of nutrients in Mammalian liver |
| Q41700402 | Whole Grains in Amelioration of Metabolic Derangements |
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