Insulin signaling

Genes candidatos como posibles marcadores de susceptibilidad a diabetes tipo 2

Genetics / Political Science / Life Style / Public Health / Type 2 Diabetes / Insulin signaling / Glucose Transport / Fatty Acid / Insulin signaling / Glucose Transport / Fatty Acid

Suppression of PC-1/ENPP-1 expression improves insulin sensitivity in vitro and in vivo

Type 2 Diabetes / Transgenic Mice / Signal Transduction / Cell line / Humans / Blood Glucose / Insulin / Fasting / Mice / Animals / Male / P-glycoprotein / Insulin signaling / Animal Model / Phosphorylation / European / Time Factors / Hepatocytes / Genetic Polymorphism / Transfection / Insulin Receptor / Tyrosine / Tyrosine Phosphorylation / Down-Regulation / Blood Glucose / Insulin / Fasting / Mice / Animals / Male / P-glycoprotein / Insulin signaling / Animal Model / Phosphorylation / European / Time Factors / Hepatocytes / Genetic Polymorphism / Transfection / Insulin Receptor / Tyrosine / Tyrosine Phosphorylation / Down-Regulation

Suppression of PC-1/ENPP-1 expression improves insulin sensitivity in vitro and in vivo

Type 2 Diabetes / Transgenic Mice / Signal Transduction / Cell line / Humans / Blood Glucose / Insulin / Fasting / Mice / Animals / Male / P-glycoprotein / Insulin signaling / Animal Model / Phosphorylation / European / Time Factors / Hepatocytes / Genetic Polymorphism / Transfection / Insulin Receptor / Tyrosine / Tyrosine Phosphorylation / Down-Regulation / Blood Glucose / Insulin / Fasting / Mice / Animals / Male / P-glycoprotein / Insulin signaling / Animal Model / Phosphorylation / European / Time Factors / Hepatocytes / Genetic Polymorphism / Transfection / Insulin Receptor / Tyrosine / Tyrosine Phosphorylation / Down-Regulation

Suppression of PC-1/ENPP-1 expression improves insulin sensitivity in vitro and in vivo

Transgenic Mice / Signal Transduction / Cell line / Humans / Blood Glucose / Insulin / Fasting / Mice / Animals / Male / P-glycoprotein / Insulin signaling / Animal Model / Phosphorylation / European / Time Factors / Hepatocytes / Genetic Polymorphism / Transfection / Insulin Receptor / Type 2 Diabetes Mellitus / Tyrosine / Tyrosine Phosphorylation / Down-Regulation / Insulin / Fasting / Mice / Animals / Male / P-glycoprotein / Insulin signaling / Animal Model / Phosphorylation / European / Time Factors / Hepatocytes / Genetic Polymorphism / Transfection / Insulin Receptor / Type 2 Diabetes Mellitus / Tyrosine / Tyrosine Phosphorylation / Down-Regulation

Suppression of PC-1/ENPP-1 expression improves insulin sensitivity in vitro and in vivo

Transgenic Mice / Signal Transduction / Cell line / Humans / Blood Glucose / Insulin / Fasting / Mice / Animals / Male / P-glycoprotein / Insulin signaling / Animal Model / Phosphorylation / European / Time Factors / Hepatocytes / Genetic Polymorphism / Transfection / Insulin Receptor / Type 2 Diabetes Mellitus / Tyrosine / Tyrosine Phosphorylation / Down-Regulation / Insulin / Fasting / Mice / Animals / Male / P-glycoprotein / Insulin signaling / Animal Model / Phosphorylation / European / Time Factors / Hepatocytes / Genetic Polymorphism / Transfection / Insulin Receptor / Type 2 Diabetes Mellitus / Tyrosine / Tyrosine Phosphorylation / Down-Regulation

PTP1B antisense oligonucleotide lowers PTP1B protein, normalizes blood glucose, and improves insulin sensitivity in diabetic mice

Obesity / Multidisciplinary / Adipose tissue / Blood Glucose / Insulin / Liver / Diabetes mellitus / Mice / Animals / Insulin signaling / Protein tyrosine phosphatase / Enzyme / Protein kinase B / Skeletal Muscle / Antisense Oligonucleotide Drugs / Protein Expression / Base Sequence / Glucose Tolerance Test / Type 2 Diabetes Mellitus / Reference Values / Protein Tyrosine Phosphatases / Insulin Receptor Substrate / Liver / Diabetes mellitus / Mice / Animals / Insulin signaling / Protein tyrosine phosphatase / Enzyme / Protein kinase B / Skeletal Muscle / Antisense Oligonucleotide Drugs / Protein Expression / Base Sequence / Glucose Tolerance Test / Type 2 Diabetes Mellitus / Reference Values / Protein Tyrosine Phosphatases / Insulin Receptor Substrate

Compact energy metabolism model: Brain controlled energy supply

Kinetics / Theoretical biology / Energy Metabolism / Signal Transduction / Biological Sciences / Brain / Humans / Computer Simulation / Blood Glucose / Diabetes mellitus / Mathematical Sciences / Animals / Stability Analysis / Insulin signaling / Oscillations / Dynamical System / Food intake / Mathematical Model / Theoretical / Biological clocks / Dynamic System / Energy Flux / Whole Body / Brain / Humans / Computer Simulation / Blood Glucose / Diabetes mellitus / Mathematical Sciences / Animals / Stability Analysis / Insulin signaling / Oscillations / Dynamical System / Food intake / Mathematical Model / Theoretical / Biological clocks / Dynamic System / Energy Flux / Whole Body

PTP1B antisense oligonucleotide lowers PTP1B protein, normalizes blood glucose, and improves insulin sensitivity in diabetic mice

Obesity / Multidisciplinary / Adipose tissue / Blood Glucose / Insulin / Liver / Diabetes mellitus / Mice / Animals / Insulin signaling / Protein tyrosine phosphatase / Enzyme / Protein kinase B / Skeletal Muscle / Antisense Oligonucleotide Drugs / Protein Expression / Base Sequence / Glucose Tolerance Test / Type 2 Diabetes Mellitus / Reference Values / Protein Tyrosine Phosphatases / Insulin Receptor Substrate / Liver / Diabetes mellitus / Mice / Animals / Insulin signaling / Protein tyrosine phosphatase / Enzyme / Protein kinase B / Skeletal Muscle / Antisense Oligonucleotide Drugs / Protein Expression / Base Sequence / Glucose Tolerance Test / Type 2 Diabetes Mellitus / Reference Values / Protein Tyrosine Phosphatases / Insulin Receptor Substrate

Suppression of PC-1/ENPP-1 expression improves insulin sensitivity in vitro and in vivo

Transgenic Mice / Signal Transduction / Cell line / Humans / Blood Glucose / Insulin / Fasting / Mice / Animals / Male / P-glycoprotein / Insulin signaling / Animal Model / Phosphorylation / European / Time Factors / Hepatocytes / Genetic Polymorphism / Transfection / Insulin Receptor / Type 2 Diabetes Mellitus / Tyrosine / Tyrosine Phosphorylation / Down-Regulation / Plasma Glucose / Insulin / Fasting / Mice / Animals / Male / P-glycoprotein / Insulin signaling / Animal Model / Phosphorylation / European / Time Factors / Hepatocytes / Genetic Polymorphism / Transfection / Insulin Receptor / Type 2 Diabetes Mellitus / Tyrosine / Tyrosine Phosphorylation / Down-Regulation / Plasma Glucose

Genes candidatos como posibles marcadores de susceptibilidad a diabetes tipo 2

Genetics / Political Science / Life Style / Public Health / Insulin signaling / Glucose Transport / Snp / Fatty Acid / Candidate Genes / Type 2 Diabetes Mellitus / Glucose Transport / Snp / Fatty Acid / Candidate Genes / Type 2 Diabetes Mellitus

Genes Candidatos Como Posibles Marcadores De Susceptibilidad a Diabetes Tipo 2

Genetics / Political Science / Life Style / Public Health / Insulin signaling / Glucose Transport / Snp / Fatty Acid / Candidate Genes / Type 2 Diabetes Mellitus / Glucose Transport / Snp / Fatty Acid / Candidate Genes / Type 2 Diabetes Mellitus

Copyright © 2017 DATOSPDF Inc.