Diabetes

Vitamin-based combinatorial therapy for body weight control, energy homeostasis and TIIDM: A therapeutic mix encompassing Calcitriol and probiotic Lactobacillus acidophilus, decreases CADM1 and its downstream target genes that promote glucose-induced insulin secretion, improves insulin sensitivity, increases energy utilization, promotes weight loss and protects from diet-induced obesity and TIIDM via up regulation of its target gene, 29/June/2017, 7.38 am
Vitamin-based combinatorial therapy for body weight control, energy homeostasis and TIIDM: A therapeutic mix encompassing Calcitriol and probiotic Lactobacillus acidophilus, decreases CADM1 and its downstream target genes that promote glucose-induced insulin secretion, improves insulin sensitivity, increases energy utilization, promotes weight loss and protects from diet-induced obesity and TIIDM via up regulation of its target gene, 29/June/2017, 7.38 am 960 720 Dr Boomi's Genom-2-Discovery Center

Introduction: What they say A study from the Max Delbrück Center for Molecular Medicine, Berlin, Germany shows that “Regulation of body weight and energy homeostasis by neuronal cell adhesion molecule1.” This research paper…

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Molecular Hydrogen-based regenerative therapy for reversing diabetes: Hydrogen-rich water increases the expression of Sox17, Sox2, Pdx-1, and Ngn3, decreases mTOR expression, promotes regeneration of insulin-producing ß cells, increases insulin secretion, promotes glucose homeostasis and reverses T1D and T2D via down regulation of its target gene, 28/June/2017, 12.11 am
Molecular Hydrogen-based regenerative therapy for reversing diabetes: Hydrogen-rich water increases the expression of Sox17, Sox2, Pdx-1, and Ngn3, decreases mTOR expression, promotes regeneration of insulin-producing ß cells, increases insulin secretion, promotes glucose homeostasis and reverses T1D and T2D via down regulation of its target gene, 28/June/2017, 12.11 am 960 720 Dr Boomi's Genom-2-Discovery Center

Introduction: What they say A study from the Longevity Institute, School of Gerontology, Department of Biological Sciences, University of Southern California, 3715 McClintock Avenue, Los Angeles, California, USA; and Koch Institute…

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Natural product therapy for body weight control, energy homeostasis and TIIDM: A therapeutic mix encompassing Oleic acid and Kaempferol, isolated from Olive oil and Aloe vera, respectively, decreases CADM1 and its downstream target genes that promote glucose-induced insulin secretion, improves insulin sensitivity, increases energy utilization, promotes weight loss and protects from diet-induced obesity and TIIDM via up regulation of its target gene, 27/June/2017, 10.50 pm
Natural product therapy for body weight control, energy homeostasis and TIIDM: A therapeutic mix encompassing Oleic acid and Kaempferol, isolated from Olive oil and Aloe vera, respectively, decreases CADM1 and its downstream target genes that promote glucose-induced insulin secretion, improves insulin sensitivity, increases energy utilization, promotes weight loss and protects from diet-induced obesity and TIIDM via up regulation of its target gene, 27/June/2017, 10.50 pm 960 720 Dr Boomi's Genom-2-Discovery Center

Introduction: What they say A study from the Max Delbrück Center for Molecular Medicine, Berlin, Germany shows that “Regulation of body weight and energy homeostasis by neuronal cell adhesion molecule1.”…

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Natural product-derived therapy for glucose homeostasis and TIIDM: Astaxanthin, isolated from green algae heaematococcus pluvialis, Pandalus, and Phaffia, inhibits Amysin expression, increases insulin secretion, and decreases the risk of hyperglycemia via down regulation of its target gene Sox4, 26/June/2017, 11.58 pm
Natural product-derived therapy for glucose homeostasis and TIIDM: Astaxanthin, isolated from green algae heaematococcus pluvialis, Pandalus, and Phaffia, inhibits Amysin expression, increases insulin secretion, and decreases the risk of hyperglycemia via down regulation of its target gene Sox4, 26/June/2017, 11.58 pm 960 720 Dr Boomi's Genom-2-Discovery Center

Introduction: What they say Nobel laureate in Physiology/Medicine (1975) Prof. David Baltimore and his research team, from California Institute of Technology, California, USA, had reported in the September 14, 2014…

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Natural product-derived therapy for glucose homeostasis and TIIDM: Sulforaphane, isolated from Broccoli, increases Barr2 expression, augments the functional activity of CAMKII, increases insulin secretion, promotes glucose homeostasis, prevents progression to TIIDM and ameliorates obesity-associated metabolic deficits via down regulation of its target gene, 25/June/2017, 11.42 pm
Natural product-derived therapy for glucose homeostasis and TIIDM: Sulforaphane, isolated from Broccoli, increases Barr2 expression, augments the functional activity of CAMKII, increases insulin secretion, promotes glucose homeostasis, prevents progression to TIIDM and ameliorates obesity-associated metabolic deficits via down regulation of its target gene, 25/June/2017, 11.42 pm 960 720 Dr Boomi's Genom-2-Discovery Center

Introduction: What they say A study from the Molecular Signaling Section, Laboratory of Bioorganic Chemistry, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, Maryland 20892, USA shows that…

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Natural product-based therapy for Metabolic diseases: Sulforaphane, isolated from Broccoli, increases the expression of Caveolin-1, stabilizes insulin receptor, promotes insulin sensitivity, incrases vasorelaxation, and decreases the risk of hyperglycemia and TIIDM via up regulation of its target gene.., 25/June/2017, 10.43 pm
Natural product-based therapy for Metabolic diseases: Sulforaphane, isolated from Broccoli, increases the expression of Caveolin-1, stabilizes insulin receptor, promotes insulin sensitivity, incrases vasorelaxation, and decreases the risk of hyperglycemia and TIIDM via up regulation of its target gene.., 25/June/2017, 10.43 pm 960 720 Dr Boomi's Genom-2-Discovery Center

Introduction: What they say A study from the Institute for Molecular Systems Biology, ETH Zurich, Zurich, Switzerland shows that “MicroRNAs 103 and 107 regulate insulin sensitivity.” This study was published…

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