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T Kase

Showing results (61-70 of 82) with videos related to

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Archives of Physiology and Biochemistry|September 3, 2013
PPARδ activation in human myotubes increases mitochondrial fatty acid oxidative capacity and reduces glucose utilization by a switch in substrate preferenceYuan Z Feng, Nataša Nikolić, Siril S Bakke, et al.
American Journal of Physiology. Cell Physiology|January 23, 2015
Myotubes from lean and severely obese subjects with and without type 2 diabetes respond differently to an in vitro model of exerciseYuan Z Feng, Nataša Nikolić, Siril S Bakke, et al.
Diabetes|March 29, 2005
Skeletal muscle lipid accumulation in type 2 diabetes may involve the liver X receptor pathwayEili T Kase, Andreas J Wensaas, Vigdis Aas, et al.
The Journal of Biological Chemistry|May 1, 1999
Molecular cloning of a novel human collectin from liver (CL-L1)K Ohtani, Y Suzuki, S Eda, et al.
Scientific Reports|December 5, 2018
Higher lipid turnover and oxidation in cultured human myotubes from athletic versus sedentary young male subjectsJenny Lund, Siw A Helle, Yuchuan Li, et al.
Journal of Virological Methods|June 28, 2014
Development of an improved RT-LAMP assay for detection of currently circulating rubella virusesH Abo, K Okamoto, M Anraku, et al.
Current Research in Pharmacology and Drug Discovery|December 15, 2021
SENP2 is vital for optimal insulin signaling and insulin-stimulated glycogen synthesis in human skeletal muscle cellsJenny Lund, Solveig A Krapf, Medina Sistek, et al.
Metabolism Open|April 4, 2023
SENP2 knockdown in human adipocytes reduces glucose metabolism and lipid accumulation, while increases lipid oxidationSolveig A Krapf, Jenny Lund, Hege G Bakke, et al.
Naunyn-Schmiedeberg'S Archives of Pharmacology|October 13, 2025
The SGLT2 inhibitor empagliflozin promotes increased fatty acid oxidation in skeletal muscle cellsStanislava Stevanovic, Parmeshwar B Katare, Hilde Mari Volledal, et al.
Acta Physiologica (Oxford, England)|May 7, 2024
Time-dependent reduction in oxidative capacity among cultured myotubes from spinal cord injured individualsStanislava Stevanovic, Andrea Dalmao-Fernandez, Derya Mohamed, et al.
Pageof 9

Showing results (61-70 of 82) with videos related to

Sort By:
Pageof 9
Archives of Physiology and Biochemistry|September 3, 2013
PPARδ activation in human myotubes increases mitochondrial fatty acid oxidative capacity and reduces glucose utilization by a switch in substrate preferenceYuan Z Feng, Nataša Nikolić, Siril S Bakke, et al.
American Journal of Physiology. Cell Physiology|January 23, 2015
Myotubes from lean and severely obese subjects with and without type 2 diabetes respond differently to an in vitro model of exerciseYuan Z Feng, Nataša Nikolić, Siril S Bakke, et al.
Diabetes|March 29, 2005
Skeletal muscle lipid accumulation in type 2 diabetes may involve the liver X receptor pathwayEili T Kase, Andreas J Wensaas, Vigdis Aas, et al.
The Journal of Biological Chemistry|May 1, 1999
Molecular cloning of a novel human collectin from liver (CL-L1)K Ohtani, Y Suzuki, S Eda, et al.
Scientific Reports|December 5, 2018
Higher lipid turnover and oxidation in cultured human myotubes from athletic versus sedentary young male subjectsJenny Lund, Siw A Helle, Yuchuan Li, et al.
Journal of Virological Methods|June 28, 2014
Development of an improved RT-LAMP assay for detection of currently circulating rubella virusesH Abo, K Okamoto, M Anraku, et al.
Current Research in Pharmacology and Drug Discovery|December 15, 2021
SENP2 is vital for optimal insulin signaling and insulin-stimulated glycogen synthesis in human skeletal muscle cellsJenny Lund, Solveig A Krapf, Medina Sistek, et al.
Metabolism Open|April 4, 2023
SENP2 knockdown in human adipocytes reduces glucose metabolism and lipid accumulation, while increases lipid oxidationSolveig A Krapf, Jenny Lund, Hege G Bakke, et al.
Naunyn-Schmiedeberg'S Archives of Pharmacology|October 13, 2025
The SGLT2 inhibitor empagliflozin promotes increased fatty acid oxidation in skeletal muscle cellsStanislava Stevanovic, Parmeshwar B Katare, Hilde Mari Volledal, et al.
Acta Physiologica (Oxford, England)|May 7, 2024
Time-dependent reduction in oxidative capacity among cultured myotubes from spinal cord injured individualsStanislava Stevanovic, Andrea Dalmao-Fernandez, Derya Mohamed, et al.
Pageof 9