Citation: Jk. Wi et al., REDUCED GLUCOSE CLEARANCE AS THE MAJOR DETERMINANT OF POSTABSORPTIVE HYPERGLYCEMIA IN DIABETIC RATS, American journal of physiology: endocrinology and metabolism, 37(2), 1998, pp. 257-264
Citation: Sh. Kang et al., A VERSATILE SYNTHETIC ROUTE TO INDOLIZIDINES, (-7-DEOXY-6-EPICASTANOSPERMINE, (-)-7,8-DIDEOXY-6-EPICASTANOSPERMINE AND (-)-N-ACETYLSLAFRAMINE()), Tetrahedron letters, 39(49), 1998, pp. 9047-9050
Citation: R. Herrmann et al., MOLECULES WITH POTENTIAL APPLICATIONS FOR NONLINEAR OPTICS - THE COMBINATION OF FERROCENE AND AZULENE, Journal of organometallic chemistry, 571(2), 1998, pp. 261-266
Citation: Jk. Kim et al., GROWTH-HORMONE CAUSES PERIPHERAL INSULIN-RESISTANCE INDEPENDENT OF PLASMA FFA AND INSULIN LEVELS, Diabetes, 47, 1998, pp. 939-939
Citation: Cs. Choi et al., REVERSAL OF FFA-INDUCED INSULIN-RESISTANCE IN RATS - ROLE OF INTRACELLULAR GLUCOSE-METABOLISM, Diabetes, 47, 1998, pp. 1082-1082
Citation: Jk. Kim et Jh. Youn, PROLONGED SUPPRESSION OF GLUCOSE-METABOLISM CAUSES INSULIN-RESISTANCEIN RAT SKELETAL-MUSCLE, American journal of physiology: endocrinology and metabolism, 35(2), 1997, pp. 288-296
Citation: B. Ozel et al., MEMBRANE GLYCOPROTEIN PC-1 IS NOT INVOLVED IN THE DEVELOPMENT OF INSULIN-RESISTANCE IN RATS, Journal of investigative medicine, 44(1), 1996, pp. 159-159
Authors:
OZEL B
YOUNGREN JF
KIM JK
GOLDFINE ID
SUNG CK
YOUN JH
Citation: B. Ozel et al., THE DEVELOPMENT OF INSULIN-RESISTANCE WITH HIGH-FAT FEEDING IN RATS DOES NOT INVOLVE EITHER DECREASED INSULIN-RECEPTOR TYROSINE KINASE-ACTIVITY OR MEMBRANE GLYCOPROTEIN PC-1, Biochemical and molecular medicine, 59(2), 1996, pp. 174-181
Authors:
STEIL GM
RICHEY J
KIM JK
WI JK
REBRIN K
BERGMAN RN
YOUN JH
Citation: Gm. Steil et al., EXTRACELLULAR GLUCOSE DISTRIBUTION IS NOT ALTERED BY INSULIN - ANALYSIS OF PLASMA AND INTERSTITIAL L-GLUCOSE KINETICS, American journal of physiology: endocrinology and metabolism, 34(5), 1996, pp. 855-864
Citation: Jk. Wi et al., MECHANISMS OF POSTABSORPTIVE HYPERGLYCEMIA IN STREPTOZOTOCIN-DIABETICRATS, American journal of physiology: endocrinology and metabolism, 33(5), 1996, pp. 752-758
Citation: Jh. Youn et Jk. Kim, PROLONGED SUPPRESSION OF GLUCOSE-METABOLISM DURING EUGLYCEMIC CLAMPS CAUSES INSULIN-RESISTANCE IN RATS, Diabetologia, 39, 1996, pp. 48-48
Citation: Jk. Wi et Jh. Youn, DECREASED GLUCOSE CLEARANCE IN DIABETIC RATS IS DUE TO REDUCED HEXOKINASE-ACTIVITY IN SKELETAL-MUSCLE, Diabetologia, 39, 1996, pp. 683-683
Citation: Jk. Kim et al., METABOLIC IMPAIRMENT PRECEDES INSULIN-RESISTANCE IN SKELETAL-MUSCLE DURING HIGH-FAT FEEDING IN RATS, Diabetes, 45(5), 1996, pp. 651-658
Citation: Jk. Kim et al., PLASMA-FREE FATTY-ACIDS DECREASE INSULIN-STIMULATED SKELETAL-MUSCLE GLUCOSE-UPTAKE BY SUPPRESSING GLYCOLYSIS IN CONSCIOUS RATS, Diabetes, 45(4), 1996, pp. 446-453
Citation: Jk. Kim et Jh. Youn, SUPPRESSION OF GLUCOSE-METABOLISM DURING EUGLYCEMIC HYPERINSULINEMIC CLAMPS CAUSES INSULIN-RESISTANCE IN SKELETAL-MUSCLE IN RATS, Diabetes, 45, 1996, pp. 609-609
Citation: Jk. Wi et Jh. Youn, REDUCED GLUCOSE EFFECTIVENESS IS RESPONSIBLE FOR DECREASED GLUCOSE CLEARANCE IN STZ DIABETIC RATS, Diabetes, 45, 1996, pp. 924-924
Citation: Jh. Youn et al., MEMBRANE GLYCOPROTEIN PC-1 IS NOT INVOLVED IN THE DEVELOPMENT OF INSULIN-RESISTANCE WITH HIGH-FAT FEEDING IN RATS, Diabetes, 45, 1996, pp. 1146-1146
Citation: Jh. Youn et al., ASSESSMENT OF EXTRACELLULAR GLUCOSE DISTRIBUTION AND GLUCOSE-TRANSPORT ACTIVITY IN CONSCIOUS RATS, American journal of physiology: endocrinology and metabolism, 31(4), 1995, pp. 712-721
Citation: Jh. Youn et al., MECHANISM BY WHICH PLASMA-FREE FATTY-ACIDS INHIBIT INSULIN-MEDIATED GLUCOSE-UPTAKE IN SKELETAL-MUSCLE, Diabetologia, 38, 1995, pp. 67-67
Citation: Jk. Wi et al., DECREASED GLUCOSE CLEARANCE IS RESPONSIBLE FOR POSTABSORPTIVE HYPERGLYCEMIA IN DIABETIC RATS, Diabetologia, 38, 1995, pp. 154-154
Citation: Jk. Wi et Jh. Youn, POSTABSORPTIVE HYPERGLYCEMIA IN STREPTOZOTOCIN-DIABETIC RATS IS DUE TO DECREASED GLUCOSE CLEARANCE, NOT TO INCREASED HEPATIC GLUCOSE OUTPUT, Diabetes, 44, 1995, pp. 193-193
Citation: Jk. Kim et al., PLASMA FFA DECREASES INSULIN-STIMULATED GLUCOSE-UPTAKE BY SUPPRESSINGGLYCOLYSIS WITHOUT ALTERING GLUCOSE-TRANSPORT ACTIVITY IN-VIVO, Diabetes, 44, 1995, pp. 245-245