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Peter Schjerling

Showing results (151-160 of 160) with videos related to

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Diabetes|April 19, 2023
TBC1D4-S711 Controls Skeletal Muscle Insulin Sensitization After Exercise and ContractionRasmus Kjøbsted, Jonas M Kristensen, Nicolas O Eskesen, et al.
Molecular Metabolism|August 28, 2014
Acute mTOR inhibition induces insulin resistance and alters substrate utilization in vivoMaximilian Kleinert, Lykke Sylow, Daniel J Fazakerley, et al.
Molecular Metabolism|September 23, 2016
mTORC2 and AMPK differentially regulate muscle triglyceride content via Perilipin 3Maximilian Kleinert, Benjamin L Parker, Rima Chaudhuri, et al.
FASEB Journal : Official Publication of the Federation of American Societies for Experimental Biology|September 24, 2020
Thyroid hormone receptor α in skeletal muscle is essential for T3-mediated increase in energy expenditureTrine S Nicolaisen, Anders B Klein, Oksana Dmytriyeva, et al.
Diabetes|January 26, 2013
LKB1 regulates lipid oxidation during exercise independently of AMPKJacob Jeppesen, Stine J Maarbjerg, Andreas B Jordy, et al.
Science Advances|August 9, 2023
TNIK is a conserved regulator of glucose and lipid metabolism in obesityT C Phung Pham, Lucile Dollet, Mona S Ali, et al.
Molecular Metabolism|June 7, 2020
Inducible deletion of skeletal muscle AMPKα reveals that AMPK is required for nucleotide balance but dispensable for muscle glucose uptake and fat oxidation during exerciseJanne R Hingst, Rasmus Kjøbsted, Jesper B Birk, et al.
Nature Communications|January 2, 2025
Pantothenate kinase 4 controls skeletal muscle substrate metabolismAdriana Miranda-Cervantes, Andreas M Fritzen, Steffen H Raun, et al.
Nature Communications|November 13, 2024
The mitochondrial mRNA-stabilizing protein SLIRP regulates skeletal muscle mitochondrial structure and respiration by exercise-recoverable mechanismsTang Cam Phung Pham, Steffen Henning Raun, Essi Havula, et al.
Nature Methods|November 1, 2013
The need for transparency and good practices in the qPCR literatureStephen A Bustin, Vladimir Benes, Jeremy Garson, et al.
Pageof 16

Showing results (151-160 of 160) with videos related to

Sort By:
Pageof 16
You have reached the last page of results.This site can display upto 160 results.
Diabetes|April 19, 2023
TBC1D4-S711 Controls Skeletal Muscle Insulin Sensitization After Exercise and ContractionRasmus Kjøbsted, Jonas M Kristensen, Nicolas O Eskesen, et al.
Molecular Metabolism|August 28, 2014
Acute mTOR inhibition induces insulin resistance and alters substrate utilization in vivoMaximilian Kleinert, Lykke Sylow, Daniel J Fazakerley, et al.
Molecular Metabolism|September 23, 2016
mTORC2 and AMPK differentially regulate muscle triglyceride content via Perilipin 3Maximilian Kleinert, Benjamin L Parker, Rima Chaudhuri, et al.
FASEB Journal : Official Publication of the Federation of American Societies for Experimental Biology|September 24, 2020
Thyroid hormone receptor α in skeletal muscle is essential for T3-mediated increase in energy expenditureTrine S Nicolaisen, Anders B Klein, Oksana Dmytriyeva, et al.
Diabetes|January 26, 2013
LKB1 regulates lipid oxidation during exercise independently of AMPKJacob Jeppesen, Stine J Maarbjerg, Andreas B Jordy, et al.
Science Advances|August 9, 2023
TNIK is a conserved regulator of glucose and lipid metabolism in obesityT C Phung Pham, Lucile Dollet, Mona S Ali, et al.
Molecular Metabolism|June 7, 2020
Inducible deletion of skeletal muscle AMPKα reveals that AMPK is required for nucleotide balance but dispensable for muscle glucose uptake and fat oxidation during exerciseJanne R Hingst, Rasmus Kjøbsted, Jesper B Birk, et al.
Nature Communications|January 2, 2025
Pantothenate kinase 4 controls skeletal muscle substrate metabolismAdriana Miranda-Cervantes, Andreas M Fritzen, Steffen H Raun, et al.
Nature Communications|November 13, 2024
The mitochondrial mRNA-stabilizing protein SLIRP regulates skeletal muscle mitochondrial structure and respiration by exercise-recoverable mechanismsTang Cam Phung Pham, Steffen Henning Raun, Essi Havula, et al.
Nature Methods|November 1, 2013
The need for transparency and good practices in the qPCR literatureStephen A Bustin, Vladimir Benes, Jeremy Garson, et al.
Pageof 16