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Results: 1-9 |
Results: 9
CONVERGENCE AND DIVERGENCE OF THE SIGNALING PATHWAYS FOR INSULIN AND PHOSPHOINOSITOLGLYCANS
Authors: MULLER G WIED S PIOSSEK C BAUER A BAUER J FRICK W
Citation: G. Muller et al., CONVERGENCE AND DIVERGENCE OF THE SIGNALING PATHWAYS FOR INSULIN AND PHOSPHOINOSITOLGLYCANS, Molecular medicine, 4(5), 1998, pp. 299-323
SIGNALING PATHWAYS OF AN INSULIN-MIMETIC PHOSPHOINOSITOLGLYCAN-PEPTIDE IN MUSCLE AND ADIPOSE-TISSUE
Authors: KESSLER A MULLER G WIED S CRECELIUS A ECKEL J
Citation: A. Kessler et al., SIGNALING PATHWAYS OF AN INSULIN-MIMETIC PHOSPHOINOSITOLGLYCAN-PEPTIDE IN MUSCLE AND ADIPOSE-TISSUE, Biochemical journal, 330, 1998, pp. 277-286
STRUCTURE-ACTIVITY RELATIONSHIP OF SYNTHETIC PHOSPHOINOSITOLGLYCANS MIMICKING METABOLIC INSULIN ACTION
Authors: FRICK W BAUER A BAUER J WIED S MULLER G
Citation: W. Frick et al., STRUCTURE-ACTIVITY RELATIONSHIP OF SYNTHETIC PHOSPHOINOSITOLGLYCANS MIMICKING METABOLIC INSULIN ACTION, Biochemistry, 37(38), 1998, pp. 13421-13436
A FRAGMENT DERIVED FROM A GLYCOSYL-PHOSPHATIDYLINOSITOL (GPI) MEMBRANE-PROTEIN ANCHOR EXERTS INSULIN-MIMETIC ACTIVITY IN ISOLATED FAT AND MUSCLE-CELLS - CHARACTERIZATION OF THE MOLECULAR MECHANISM
Authors: MULLER G KESSLER A WIED S UPHUES I JUNG C ECKEL J
Citation: G. Muller et al., A FRAGMENT DERIVED FROM A GLYCOSYL-PHOSPHATIDYLINOSITOL (GPI) MEMBRANE-PROTEIN ANCHOR EXERTS INSULIN-MIMETIC ACTIVITY IN ISOLATED FAT AND MUSCLE-CELLS - CHARACTERIZATION OF THE MOLECULAR MECHANISM, The FASEB journal, 11(9), 1997, pp. 1845-1845
PHOSPHOINOSITOLGLYCAN-PEPTIDES FROM YEAST POTENTLY INDUCE METABOLIC INSULIN ACTIONS IN ISOLATED RAT ADIPOCYTES, CARDIOMYOCYTES, AND DIAPHRAGMS
Authors: MULLER G WIED S CRECELIUS A KESSLER A ECKEL J
Citation: G. Muller et al., PHOSPHOINOSITOLGLYCAN-PEPTIDES FROM YEAST POTENTLY INDUCE METABOLIC INSULIN ACTIONS IN ISOLATED RAT ADIPOCYTES, CARDIOMYOCYTES, AND DIAPHRAGMS, Endocrinology, 138(8), 1997, pp. 3459-3475
GLUCOSE-INDUCED SEQUENTIAL PROCESSING OF A GLYCOSYL-PHOSPHATIDYLINOSITOL-ANCHORED ECTOPROTEIN IN SACCHAROMYCES-CEREVISIAE
Authors: MULLER G GROSS E WIED S BANDLOW W
Citation: G. Muller et al., GLUCOSE-INDUCED SEQUENTIAL PROCESSING OF A GLYCOSYL-PHOSPHATIDYLINOSITOL-ANCHORED ECTOPROTEIN IN SACCHAROMYCES-CEREVISIAE, Molecular and cellular biology, 16(1), 1996, pp. 442-456
GLUCOSE INDUCES AMPHIPHILIC TO HYDROPHILIC CONVERSION OF A SUBSET OF GLYCOSYL-PHOSPHATIDYLINOSITOL-ANCHORED ECTOPROTEINS IN YEAST
Authors: BANDLOW W WIED S MULLER G
Citation: W. Bandlow et al., GLUCOSE INDUCES AMPHIPHILIC TO HYDROPHILIC CONVERSION OF A SUBSET OF GLYCOSYL-PHOSPHATIDYLINOSITOL-ANCHORED ECTOPROTEINS IN YEAST, Archives of biochemistry and biophysics, 324(2), 1995, pp. 300-316
STIMULATION OF GLUCOSE-UTILIZATION IN 3T3 ADIPOCYTES AND RAT DIAPHRAGM IN-VITRO BY THE SULFONYLUREAS, GLIMEPIRIDE AND GLIBENCLAMIDE, IS CORRELATED WITH MODULATIONS OF THE CAMP REGULATORY CASCADE
Authors: MULLER G WIED S WETEKAM EM CRECELIUS A UNKELBACH A PUNTER J
Citation: G. Muller et al., STIMULATION OF GLUCOSE-UTILIZATION IN 3T3 ADIPOCYTES AND RAT DIAPHRAGM IN-VITRO BY THE SULFONYLUREAS, GLIMEPIRIDE AND GLIBENCLAMIDE, IS CORRELATED WITH MODULATIONS OF THE CAMP REGULATORY CASCADE, Biochemical pharmacology, 48(5), 1994, pp. 985-996
THE SULFONYLUREA DRUG, GLIMEPIRIDE, STIMULATES GLUCOSE-TRANSPORT, GLUCOSE-TRANSPORTER TRANSLOCATION, AND DEPHOSPHORYLATION IN INSULIN-RESISTANT RAT ADIPOCYTES IN-VITRO
Authors: MULLER G WIED S
Citation: G. Muller et S. Wied, THE SULFONYLUREA DRUG, GLIMEPIRIDE, STIMULATES GLUCOSE-TRANSPORT, GLUCOSE-TRANSPORTER TRANSLOCATION, AND DEPHOSPHORYLATION IN INSULIN-RESISTANT RAT ADIPOCYTES IN-VITRO, Diabetes, 42(12), 1993, pp. 1852-1867
Risultati: 1-9 |