Phlorizin
Top View
- SGLT-1 Transport and Deglycosylation Inside Intestinal Cells Are Key Steps in the Absorption and Disposition of S Calycosin-7-O-B-D-Glucoside in Rats
- Enzymatic Production of 3-OH Phlorizin, a Possible Bioactive Polyphenol from Apples, by Bacillus Megaterium CYP102A1 Via Regioselective Hydroxylation
- Phlorizin Treatment of Diabetic Rats Partially Reverses the Abnormal Expression of Genes Involved in Hepatic Glucose Metabolism
- In Vivo Glucosamine Infusion Induces Insulin Resistance in Normoglycemic but Not in Hyperglycemic Conscious Rats
- Phosphodiesterase-5 Inhibition Preserves Renal
- Quercetin Dietary Supplementation Advances Growth Performance, Gut Microbiota, and Intestinal Mrna Expression Genes in Broiler Chickens
- Use of Phlorizin Or Its Derivatives in Combination with a Chemotherapeutic Agent for the Treatment of Cancer
- SGLT2 Inhibitors
- The Importance of Lactose in the Human Diet: Outcomes of a Mexican Consensus Meeting
- Polyphenols Stilbenoids Flavonoids
- Sodium–Glucose Cotransporter 2 Inhibitors: a Case Study in Translational Research
- Treatment of Cancer with Phlorizin and Its Derivatives
- Acute Metabolic Actions of the Major Polyphenols in Chamomile: an in Vitro Mechanistic Study on Their Potential to Attenuate
- Flavonoid-Glycosides Are Not Transported by the Human Na /Glucose Transporter When Expressed in Xenopus Leavis Oocytes, but Effe
- Novel Therapeutic Advancements in Type 2 Diabetes
- The Control of Renal Blood Flow and Glomerular Filtration in Normal Man
- Dietary Intake, ADME, Antimicrobial Effects, and Interactions with Human Gut Microbiota
- Sodium–Glucose Cotransporter Inhibitors Diabetes Care Volume 38, December 2015