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Publications by Shinji Katayama

Hydroxylamine Enhances Glucose Uptake in C2C12 Skeletal Muscle Cells Through the Activation of Insulin Receptor Substrate 1

Biochemical and Biophysical Research Communications

English

Related publications

Apolipoprotein A-I Enhances Insulin-Dependent and Insulin-Independent Glucose Uptake by Skeletal Muscle

Scientific Reports

Multidisciplinary

2019

English

3,3′-Diindolylmethane Enhances Glucose Uptake Through Activation of Insulin Signaling in 3t3-L1 Adipocytes

English

Effect of Glucose and Insulin on Glucose Uptake and Insulin Removal Rate in Perfused Rat Skeletal Muscle

Nihon Chikusan Gakkaiho

1982

English

Human Glycated Albumin Affects Glucose Metabolism in L6 Skeletal Muscle Cells by Impairing Insulin-Induced Insulin Receptor Substrate (IRS) Signaling Through a Protein Kinase Cα-Mediated Mechanism

Journal of Biological Chemistry

English

Short-Term Replacement of Starch With Isomaltulose Enhances Both Insulin-Dependent and -Independent Glucose Uptake in Rat Skeletal Muscle

Journal of Clinical Biochemistry and Nutrition

Medicine

Nutrition

Clinical Biochemistry

Dietetics

2018

English

Cold-Induced PGC-1 Expression Modulates Muscle Glucose Uptake Through an Insulin Receptor/Akt-Independent, AMPK-dependent Pathway

American Journal of Physiology - Endocrinology and Metabolism

English

Raptor and Rheb Negatively Regulate Skeletal Myogenesis Through Suppression of Insulin Receptor Substrate 1 (IRS1)

Journal of Biological Chemistry

English

An Amino Acid Mixture Enhances Insulin-Stimulated Glucose Uptake in Isolated Rat Epitrochlearis Muscle

Journal of Applied Physiology

English

Decreased Insulin Responsiveness of Glucose Uptake in Cultured Human Skeletal Muscle Cells From Insulin-Resistant Nondiabetic Relatives of Type 2 Diabetic Families

English

Amanote Research

Discover open access scientific publications

Search, annotate, share and cite publications

Publications by Shinji Katayama

Hydroxylamine Enhances Glucose Uptake in C2C12 Skeletal Muscle Cells Through the Activation of Insulin Receptor Substrate 1

Related publications

Apolipoprotein A-I Enhances Insulin-Dependent and Insulin-Independent Glucose Uptake by Skeletal Muscle

3,3′-Diindolylmethane Enhances Glucose Uptake Through Activation of Insulin Signaling in 3t3-L1 Adipocytes

Effect of Glucose and Insulin on Glucose Uptake and Insulin Removal Rate in Perfused Rat Skeletal Muscle

Human Glycated Albumin Affects Glucose Metabolism in L6 Skeletal Muscle Cells by Impairing Insulin-Induced Insulin Receptor Substrate (IRS) Signaling Through a Protein Kinase Cα-Mediated Mechanism

Short-Term Replacement of Starch With Isomaltulose Enhances Both Insulin-Dependent and -Independent Glucose Uptake in Rat Skeletal Muscle

Cold-Induced PGC-1 Expression Modulates Muscle Glucose Uptake Through an Insulin Receptor/Akt-Independent, AMPK-dependent Pathway

Raptor and Rheb Negatively Regulate Skeletal Myogenesis Through Suppression of Insulin Receptor Substrate 1 (IRS1)

An Amino Acid Mixture Enhances Insulin-Stimulated Glucose Uptake in Isolated Rat Epitrochlearis Muscle

Decreased Insulin Responsiveness of Glucose Uptake in Cultured Human Skeletal Muscle Cells From Insulin-Resistant Nondiabetic Relatives of Type 2 Diabetic Families