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Adam P Sharples

Showing results (31-40 of 58) with videos related to

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Biorxiv : the Preprint Server for Biology|August 8, 2025
Response of UBR-box E3 ubiquitin ligases and protein quality control pathways to perturbations in protein synthesis and skeletal muscle sizeLeslie M Baehr, Luis Gustavo Oliveira de Sousa, Craig A Goodman, et al.
Molecular and Cellular Biochemistry|December 1, 2017
The role of resveratrol on skeletal muscle cell differentiation and myotube hypertrophy during glucose restrictionHannah F Dugdale, David C Hughes, Robert Allan, et al.
American Journal of Physiology. Cell Physiology|November 21, 2024
Human skeletal muscle possesses an epigenetic memory of high-intensity interval trainingAndrea M Pilotto, Daniel C Turner, Raffaele Mazzolari, et al.
Physiological Reports|June 5, 2019
Low pre-exercise muscle glycogen availability offsets the effect of post-exercise cold water immersion in augmenting PGC-1α gene expressionRobert Allan, Adam P Sharples, Matthew Cocks, et al.
Biomaterials|May 7, 2013
Factors affecting the structure and maturation of human tissue engineered skeletal muscleNeil R W Martin, Samantha L Passey, Darren J Player, et al.
Journal of Applied Physiology (Bethesda, Md. : 1985)|May 4, 2019
Graded reductions in preexercise muscle glycogen impair exercise capacity but do not augment skeletal muscle cell signaling: implications for CHO periodizationMark A Hearris, Kelly M Hammond, Robert A Seaborne, et al.
Journal of Cellular Physiology|February 15, 2021
Mechanical loading of bioengineered skeletal muscle in vitro recapitulates gene expression signatures of resistance exercise in vivoDaniel C Turner, Piotr P Gorski, Robert A Seaborne, et al.
The Journal of Physiology|April 4, 2025
Human skeletal muscle possesses both reversible proteomic signatures and a retained proteomic memory after repeated resistance trainingJuha J Hulmi, Eeli J Halonen, Adam P Sharples, et al.
Methods in Molecular Biology (Clifton, N.J.)|October 28, 2018
Exercising Bioengineered Skeletal Muscle In Vitro: Biopsy to BioreactorDaniel C Turner, Andreas M Kasper, Robert A Seaborne, et al.
American Journal of Physiology. Endocrinology and Metabolism|October 29, 2015
A systems-based investigation into vitamin D and skeletal muscle repair, regeneration, and hypertrophyDaniel J Owens, Adam P Sharples, Ioanna Polydorou, et al.
Pageof 6

Showing results (31-40 of 58) with videos related to

Sort By:
Pageof 6
Biorxiv : the Preprint Server for Biology|August 8, 2025
Response of UBR-box E3 ubiquitin ligases and protein quality control pathways to perturbations in protein synthesis and skeletal muscle sizeLeslie M Baehr, Luis Gustavo Oliveira de Sousa, Craig A Goodman, et al.
Molecular and Cellular Biochemistry|December 1, 2017
The role of resveratrol on skeletal muscle cell differentiation and myotube hypertrophy during glucose restrictionHannah F Dugdale, David C Hughes, Robert Allan, et al.
American Journal of Physiology. Cell Physiology|November 21, 2024
Human skeletal muscle possesses an epigenetic memory of high-intensity interval trainingAndrea M Pilotto, Daniel C Turner, Raffaele Mazzolari, et al.
Physiological Reports|June 5, 2019
Low pre-exercise muscle glycogen availability offsets the effect of post-exercise cold water immersion in augmenting PGC-1α gene expressionRobert Allan, Adam P Sharples, Matthew Cocks, et al.
Biomaterials|May 7, 2013
Factors affecting the structure and maturation of human tissue engineered skeletal muscleNeil R W Martin, Samantha L Passey, Darren J Player, et al.
Journal of Applied Physiology (Bethesda, Md. : 1985)|May 4, 2019
Graded reductions in preexercise muscle glycogen impair exercise capacity but do not augment skeletal muscle cell signaling: implications for CHO periodizationMark A Hearris, Kelly M Hammond, Robert A Seaborne, et al.
Journal of Cellular Physiology|February 15, 2021
Mechanical loading of bioengineered skeletal muscle in vitro recapitulates gene expression signatures of resistance exercise in vivoDaniel C Turner, Piotr P Gorski, Robert A Seaborne, et al.
The Journal of Physiology|April 4, 2025
Human skeletal muscle possesses both reversible proteomic signatures and a retained proteomic memory after repeated resistance trainingJuha J Hulmi, Eeli J Halonen, Adam P Sharples, et al.
Methods in Molecular Biology (Clifton, N.J.)|October 28, 2018
Exercising Bioengineered Skeletal Muscle In Vitro: Biopsy to BioreactorDaniel C Turner, Andreas M Kasper, Robert A Seaborne, et al.
American Journal of Physiology. Endocrinology and Metabolism|October 29, 2015
A systems-based investigation into vitamin D and skeletal muscle repair, regeneration, and hypertrophyDaniel J Owens, Adam P Sharples, Ioanna Polydorou, et al.
Pageof 6