Banting Lecture. Insulin action, diabetogenes, and the cause of type II diabetes
Kahn. 1994. “Banting Lecture. Insulin Action, Diabetogenes, and the Cause of Type II Diabetes”. Diabetes 43 (8): 1066-84.
Search
Search results
586 results found
Regulation of phosphatidylinositol 3-kinase activity in liver and muscle of animal models of insulin-resistant and insulin-deficient diabetes mellitus
Folli, Saad, Backer, and Kahn. 1993. “Regulation of Phosphatidylinositol 3-Kinase Activity in Liver and Muscle of Animal Models of Insulin-Resistant and Insulin-Deficient Diabetes Mellitus”. J Clin Invest 92 (4): 1787-94.
Two steps of insulin receptor internalization depend on different domains of the beta-subunit
Carpentier, Paccaud, Backer, Gilbert, Orci, Kahn, and Baecker J [corrected to Backer. 1993. “Two Steps of Insulin Receptor Internalization Depend on Different Domains of the Beta-Subunit”. J Cell Biol 122 (6): 1243-52.
The insulin receptor and its substrate: molecular determinants of early events in insulin action
Kahn, White, Shoelson, Backer, Araki, Cheatham, Csermely, Folli, Goldstein, and Huertas. 1993. “The Insulin Receptor and Its Substrate: Molecular Determinants of Early Events in Insulin Action”. Recent Prog Horm Res 48: 291-339.
Alterations in insulin receptor and substrate phosphorylation in hypertensive rats
Kahn, and Saad. 1992. “Alterations in Insulin Receptor and Substrate Phosphorylation in Hypertensive Rats”. J Am Soc Nephrol 3 (4 Suppl): S69-77.
Substitution of the insulin receptor transmembrane domain with the c-neu/erbB2 transmembrane domain constitutively activates the insulin receptor kinase in vitro
Yamada, Goncalves, Kahn, and Shoelson. 1992. “Substitution of the Insulin Receptor Transmembrane Domain With the C-Neu/ErbB2 Transmembrane Domain Constitutively Activates the Insulin Receptor Kinase in Vitro”. J Biol Chem 267 (18): 12452-61.
Effect of phospholipase treatment on insulin receptor signal transduction
Zoppini, and Kahn. 1992. “Effect of Phospholipase Treatment on Insulin Receptor Signal Transduction”. Diabetologia 35 (2): 109-15.
Autophosphorylation within insulin receptor beta-subunits can occur as an intramolecular process
Shoelson, Boni-Schnetzler, Pilch, and Kahn. 1991. “Autophosphorylation Within Insulin Receptor Beta-Subunits Can Occur As an Intramolecular Process”. Biochemistry 30 (31): 7740-6.
High fat feeding causes insulin resistance and a marked decrease in the expression of glucose transporters (Glut 4) in fat cells of rats
Pedersen, Kahn, Flier, and Kahn. 1991. “High Fat Feeding Causes Insulin Resistance and a Marked Decrease in the Expression of Glucose Transporters (Glut 4) in Fat Cells of Rats”. Endocrinology 129 (2): 771-7.
Coordinate phosphorylation of insulin-receptor kinase and its 175,000-Mr endogenous substrate in rat hepatocytes
Okamoto, Karasik, White, and Kahn. 1991. “Coordinate Phosphorylation of Insulin-Receptor Kinase and Its 175,000-Mr Endogenous Substrate in Rat Hepatocytes”. Diabetes 40 (1): 66-72.