Current Research Information SysTem In Norway
 
 

 English version


 
Hovedside
Forskningsresultater/NVI
Forskere
Prosjekter
Forskningsenheter
Logg inn
Om Cristin
 
 
   
Eksporter til


Viser treff 1-50 av 59 << Forrige 1 2    Neste >>

2021
1 Massar, Mohd Firdaus; Turner, Daniel C.; Gorski, Piotr Patryk; Seaborne, Robert A.; Strauss, Juliette A.; Shepherd, Sam O.; Cocks, Matt; Pillon, Nicolas J; Zierath, Juleen R.; Hulton, Andrew T; Drust, Barry; Sharples, Adam.
The comparative methylome and transcriptome after change of direction compared to straight line running exercise in human skeletal muscle. Frontiers in Physiology 2021
NIH Untitled
 
2 Turner, Daniel C.; Gorski, Piotr Patryk; Seaborne, Robert A.; Viggars, Mark; Murphy, Mark; Jarvis, Jonathan C.; Martin, Neil R.W.; Stewart, Claire E; Sharples, Adam.
Mechanical loading of bioengineered skeletal muscle in vitro recapitulates gene expression signatures of resistance exercise in vivo. Journal of Cellular Physiology 2021
NIH Untitled
 
2020
3 Allan, Robert; Morton, James P.; Close, Graeme L.; Drust, Barry; Gregson, Warren; Sharples, Adam.
PGC-1α alternative promoter (Exon 1b) controls augmentation of total PGC-1α gene expression in response to cold water immersion and low glycogen availability. European Journal of Applied Physiology 2020 ;Volum 120.(11) s. 2487-2493
NIH Untitled
 
4 Hearris, Mark A.; Owens, Daniel J.; Strauss, Juliette A.; Shepherd, Sam O.; Sharples, Adam; Morton, James P.; Louis, Julien.
Graded reductions in pre-exercise glycogen concentration do not augment exercise-induced nuclear AMPK and PGC-1α protein content in human muscle. Experimental Physiology 2020 s. -
NIH Untitled
 
5 Hughes, David C.; Turner, Daniel C.; Baehr, Leslie M; Seaborne, Robert A.; Viggars, Mark; Jarvis, Jonathan C.; Gorski, Piotr Patryk; Stewart, Claire E; Owens, Daniel J.; Bodine, Sue C; Sharples, Adam.
Knockdown of the E3 Ubiquitin ligase UBR5 and its role in skeletal muscle anabolism. American Journal of Physiology - Cell Physiology 2020 s. -
NIH Untitled
 
6 Seaborne, Robert A.; Sharples, Adam.
The interplay between exercise metabolism, epigenetics, and skeletal muscle remodeling. Exercise and sport sciences reviews 2020 ;Volum 48.(4) s. 188-200
NIH Untitled
 
7 Turner, Daniel C.; Gorski, Piotr Patryk; Massar, Mohd Firdaus; Seaborne, Robert A.; Baumert, Phillipp; Brown, Alexander D.; Kitchen, Mark O; Erskine, Robert M.; Dos-Remedios, Ian; Voisin, Sarah; Eynon, Nir; Sultanov, R I; Borisov, Oleg; Larin, Andrey; Semenova, Ekaterina A.; Popov, Daniil; Generozov, Edward V; Stewart, Claire E; Drust, Barry; Owens, Daniel J.; Ahmetov, Ildus I.; Sharples, Adam.
DNA methylation across the genome in aged human skeletal muscle tissue and muscle-derived cells: the role of HOX genes and physical activity. Scientific Reports 2020 ;Volum 10.(1) s. -
NIH Untitled
 
8 Voisin, Sarah; Harvey, Nicholas R; Haupt, Larisa M; Griffiths, Lyn R; Aston, Kevin J; Coffey, Vernon G.; Doering, Thomas M; Thompson, Jamie-Lee M; Benedict, Christian; Cedernaes, Jonathan; Lindholm, Malene E; Craig, Jeffrey M; Rowlands, David S; Sharples, Adam; Horvath, Steve; Eynon, Nir.
An epigenetic clock for human skeletal muscle. Journal of Cachexia, Sarcopenia and Muscle 2020 ;Volum 11.(4) s. 887-898
NIH Untitled
 
9 Voisin, Sarah; Jacques, M; Landen, S; Harvey, N; Haupt, L; Griffiths, L; Gancheva, S; Ouni, M; Jähnert, M; Ashton, K; Coffey, Vernon G.; Thompson, J; Doering, T; Gabory, A; Junien, C; Caiazzo, R; Verkindt, H; Raverdy, V; Pattou, F; Froguel, P; Craig, J; Blocquiaux, S; Thomis, M; Sharples, Adam; Schürmann, A; Roden, M; Horvath, S; Eynon, Nir.
Meta-analysis of genome-wide DNA methylation and integrative OMICs in human skeletal muscle. BioRxiv 2020 ;Volum 2020.09.28.315838.
NIH Untitled
 
2019
10 Allan, Robert; Sharples, Adam; Cocks, Matt; Drust, Barry; Dutton, John; Dugdale, Hannah F.; Mawhinney, Chris; Clucas, Angela; Hawkins, Will; Morton, James P.; Gregson, Warren.
Low pre-exercise muscle glycogen availability offsets the effect of post-exercise cold water immersion in augmenting PGC-1α gene expression. Physiological Reports 2019 ;Volum 7.(11) s. e14082-
Untitled
 
11 Hammond, Kelly M.; Sale, Craig; Fraser, William; Tang, Jonathan; Shepherd, Sam O.; Strauss, Juliette A.; Close, Graeme L.; Cocks, Matt; Louis, Julien; Pugh, Jamie; Stewart, Claire; Sharples, Adam; Morton, James P..
Post-exercise carbohydrate and energy availability induce independent effects on skeletal muscle cell signalling and bone turnover: implications for training adaptation. Journal of Physiology 2019 ;Volum 597.(18) s. 4779-4796
Untitled
 
12 Hearris, Mark A.; Hammond, Kelly M.; Seaborne, Robert A.; Stocks, Ben; Shepherd, Sam O.; Philp, Andrew; Sharples, Adam; Morton, James P.; Louis, Julien.
Graded reductions in pre-exercise muscle glycogen impair exercise capacity but do not augment cell skeletal muscle signalling: implication for CHO periodisation. Journal of applied physiology 2019 ;Volum 126.(6) s. 1587-1597
Untitled
 
13 Seaborne, Robert A.; Hughes, David C.; Turner, Daniel C.; Owens, Daniel J.; Baehr, Leslie M; Gorski, Piotr; Semenova, Ekaterina A.; Borisov, Oleg; Larin, Andrey; Popov, Daniil; Generozov, Edward V.; Sutherland, Hazel; Ahmetov, Ildus I.; Jarvis, Jonathan C.; Bodine, Sue C; Sharples, Adam.
UBR5 is a novel E3 ubiquitin ligase involved in skeletal muscle hypertrophy and recovery from atrophy. Journal of Physiology 2019 ;Volum 597.(14) s. 3727-3749
Untitled
 
14 Seaborne, Robert A.; Strauss, Juliette A.; Cocks, Matt; Shepherd, Sam O.; O'brien, Thomas D.; van Someren, Ken A.; Bell, Phillip G.; Murgatroyd, Christopher; Morton, James P.; Stewart, Claire; Sharples, Adam.
Researchers make gains in understanding epigenetic muscle memory. Scientific Reports 2019 ;Volum Video Abstract.
NIH Untitled
 
15 Seaborne, Robert A.; Viggars, Mark; Sharples, Adam.
Commentaries on Viewpoint: "Muscle memory" not mediated by myonuclear number? Secondary analysis of human detraining data. Journal of applied physiology 2019 ;Volum 127.(6) s. 1819-1820
NIH Untitled
 
16 Sharples, Adam; Seaborne, Robert A..
Exercise and DNA methylation in skeletal muscle. I: Sports, Exercise, and Nutritional Genomics : Current Status and Future Directions. Elsevier 2019 ISBN 9780128161937. s. 211-229
Untitled
 
17 Turner, Daniel C.; Kasper, Andreas M.; Seaborne, Robert A.; Brown, Alexander D.; Close, Graeme L.; Murphy, Mark; Stewart, Claire; Martin, Neil R.W.; Sharples, Adam.
Exercising Bioengineered Skeletal Muscle in-vitro: Biopsy to Bioreactor. Methods in molecular biology 2019 ;Volum 1889. s. 55-79
Untitled
 
18 Turner, Daniel C.; Seaborne, Robert A.; Sharples, Adam.
Comparative Transcriptome and Methylome Analysis in Human Skeletal Muscle Anabolism, Hypertrophy and Epigenetic Memory. Scientific Reports 2019 ;Volum 9.
Untitled
 
2018
19 Dugdale, Hannah F.; Hughes, David C.; Allan, Robert; Deane, Colleen S; Coxon, Christopher R; Morton, James P.; Stewart, Claire; Sharples, Adam.
The role of resveratrol on skeletal muscle cell differentiation and myotube hypertrophy during glucose restriction. Molecular and Cellular Biochemistry 2018 ;Volum 444.(1-2) s. 109-123
NIH Untitled
 
20 Impey, Sam G.; Hammond, Kelly M.; Naughton, R; Langen-Evans, Carl; Shepherd, Sam O.; Sharples, Adam; Cegielski, Jessica; Smith, K; Jeromson, S; Hamilton, David L.; Close, Graeme L.; Morton, James P..
Whey protein augments leucinemia and post-exercise p70S6K1 activity compared to a hydrolysed collagen blend when in recovery from training with low carbohydrate availability. International Journal of Sport Nutrition & Exercise Metabolism 2018 ;Volum 8.(6) s. 651-659
NIH Untitled
 
21 Seaborne, Robert A.; Strauss, J; Cocks, Matt; Shepherd, Sam O.; O'brien, Thomas D.; van Someren, Ken A.; Bell, Phillip G.; Murgatroyd, Christopher; Morton, James P.; Stewart, Claire; Sharples, Adam.
Human Skeletal Muscle Possesses an Epigenetic Memory of Hypertrophy. Scientific Reports 2018 ;Volum 8.(1)
NIH Untitled
 
22 Seaborne, Robert A.; Strauss, Juliette A.; Cocks, Matt; Shepherd, Sam O.; O'brien, Thomas D.; van Someren, Ken A.; Bell, Phillip G.; Murgatroyd, Christopher; Morton, James P.; Stewart, Claire; Sharples, Adam.
Methylome of Human Skeletal Muscle after Acute & Chronic Resistance Exercise Training, Detraining & Retraining. Scientific Data 2018 ;Volum 5, Article 180213.
NIH Untitled
 
23 Turner, Daniel C.; Seaborne, Robert A.; Stewart, Claire; Murphy, Mark; Jarvis, Jonathan C.; Martin, Neil R.W.; Sharples, Adam.
Mechanical loading of murine bioengineered skeletal muscle mimics the transcriptional and epigenetic response of human skeletal muscle after exercise. European Cells and Materials 2018 ;Volum eCM Online Periodical, 2018, Collection 4. s. 031-
NIH Untitled
 
2017
24 Allan, Robert; Sharples, Adam; Close, Graeme L.; Drust, Barry; Shepherd, Sam O.; Dutton, John; Morton, James P.; Gregson, Warren.
Postexercise cold water immersion modulates skeletal muscle PGC-1α mRNA expression in immersed and nonimmersed limbs: evidence of systemic regulation. Journal of applied physiology 2017 ;Volum 123.(2) s. 451-459
NIH Untitled
 
25 Brown, Alexander D.; Close, Graeme L.; Sharples, Adam; Stewart, Claire.
Murine Myoblast Migration: Influence of Replicative Ageing & Nutrition. Biogerontology (Dordrecht) 2017 ;Volum 18.(6) s. 947-964
NIH Untitled
 
26 Fisher, Andrew G.; Seaborne, Robert A.; Hughes, Thomas M.; Gutteridge, Andrew; Stewart, C; Coulson, J; Sharples, Adam; Jarvis, Jonathan C..
Transcriptomic and Epigenetic Regulation of Skeletal Muscle Disuse Atrophy and Recovery. The FASEB Journal 2017 ;Volum 31.(12) s. 5268-5282
NIH Untitled
 
27 Kasper, Andy M.; Turner, Daniel C.; Martin, Neil R.W.; Sharples, Adam.
Mimicking exercise in three-dimensional bioengineered skeletal muscle to investigate the cellular and molecular mechanisms of physiological adaptation. Journal of Cellular Physiology 2017 ;Volum 233.(3) s. 1985-1998
NIH Untitled
 
28 Sharples, Adam.
Cellular & Molecular Exercise Physiology: A Historical Perspective for Discovery of Mechanisms Contributing to Muscle Adaptation. Cellular and Molecular Exercise Physiology 2017 ;Volum 5.(1) s. e10-
NIH Untitled
 
2016
29 Sharples, Adam.
Does skeletal muscle have an ‘epi’-memory? The role of epigenetics in nutritional programming, metabolic disease, aging and exercise.. Aging Cell 2016 ;Volum 15.(4) s. 603-616
NIH Untitled
 
30 Sharples, Adam.
Fuel for the work required: A practical approach to amalgamating train-low paradigms for endurance athletes. Physiological Reports 2016 ;Volum 4.(10) s. e12803-
NIH Untitled
 
31 Sharples, Adam.
L-glutamine improves skeletal muscle cell differentiation and prevents myotube atrophy after cytokine (TNF-α) stress via reduced p38 MAPK signal transduction. Journal of Cellular Physiology 2016 ;Volum 231.(12) s. 2720-2732
NIH Untitled
 
32 Sharples, Adam.
Omega-3 fatty acid EPA improves regenerative capacity of mouse skeletal muscle cells exposed to saturated fat and inflammation.. Biogerontology (Dordrecht) 2016 ;Volum 18.(1) s. 109-129
NIH Untitled
 
33 Sharples, Adam.
Post exercise high-fat feeding supresses p70S6K1 activity in human skeletal muscle. Medicine & Science in Sports & Exercise 2016 ;Volum 48.(11) s. 2108-2117
NIH Untitled
 
34 Sharples, Adam.
Skeletal muscle cells possess a memory of acute early life TNF-α exposure: Role of epigenetic adaptation. Biogerontology (Dordrecht) 2016 ;Volum 17.(3) s. 603-617
NIH Untitled
 
35 Sharples, Adam.
Vitamin D & Skeletal Muscle Regeneration: A Systems Approach. Journal of Sports Medicine and Physical Fitness 2016 ;Volum 65. s. 157-
NIH Untitled
 
2015
36 Sharples, Adam.
A Systems Based Investigation into Vitamin D and Skeletal Muscle Repair, Regeneration and Hypertrophy. American Journal of Physiology. Endocrinology and Metabolism 2015 ;Volum 309.(12) s. E1019-1031
NIH Untitled
 
37 Sharples, Adam.
Comments on the CrossTalk proposal and opposing view: The dominant mechanism causing disuse muscle atrophy is decreased protein synthesis/proteolysis. Journal of Physiology 2015 ;Volum 592.(24) s. 5341-5343
NIH Untitled
 
38 Sharples, Adam.
Longevity and Skeletal Muscle Mass: The role of IGF signalling, the Sirtuins, dietary restriction and protein intake. Aging Cell 2015 ;Volum 14.(4) s. 511-523
NIH Untitled
 
39 Sharples, Adam.
Nucleotide supplementation does not improve repeated sprint performance. Journal of Sports Sciences 2015 ;Volum 33. Suppl. 1 s. s6-
NIH Untitled
 
40 Sharples, Adam.
Skeletal muscle myoblasts have a ‘memory’ of previous TNF-α insults: Role of DNA methylation. Proceedings of the Physiological Society 2015 ;Volum 33. s. PC23-
NIH Untitled
 
41 Sharples, Adam.
Testosterone enables growth & hypertrophy in fusion impaired myoblasts that display myotube atrophy: deciphering the role of androgen & IGF-I receptors. Biogerontology (Dordrecht) 2015 ;Volum 17.(3) s. 619-639
NIH Untitled
 
42 Sharples, Adam.
The role of SIRT1 in aged and glucose restricted skeletal muscle cells. Proceedings of the Physiological Society 2015 ;Volum 33. s. PC25-
NIH Untitled
 
2014
43 Sharples, Adam.
Acute mechanical overload increases IGF-I & MMP-9 mRNA in 3D tissue-engineered skeletal muscle. Biotechnology Letters 2014 ;Volum 36.(5) s. 1113-1124
NIH Untitled
 
2013
44 Sharples, Adam.
Combined Effect of Hyperhydration & Pre-Cooling on Endurance Cycling Performance in Hot and Humid Conditions. Medicine & Science in Sports & Exercise 2013 ;Volum 5S. s. 61-71
NIH Untitled
 
45 Sharples, Adam.
Factors affecting the structure and maturation of human tissue engineered skeletal muscle. Biomaterials 2013 ;Volum 34.(23) s. 5759-5765
NIH Untitled
 
46 Sharples, Adam.
Impaired hypertrophy in myoblasts is improved with testosterone administration. Journal of Steroid Biochemistry and Molecular Biology 2013 ;Volum 138. s. 152-161
NIH Untitled
 
47 Sharples, Adam.
The role of insulin-like-growth factor binding protein 2 (IGFBP2) and phosphatase and tensin homologue (PTEN) in the regulation of myoblast differentiation and hypertrophy.. Growth Hormone & IGF Research 2013 ;Volum 23.(3)
NIH Untitled
 
2012
48 Sharples, Adam.
Modelling in vivo skeletal muscle ageing in vitro using three-dimensional bioengineered constructs. Aging Cell 2012 ;Volum 11.(6) s. 986-995
NIH Untitled
 
49 Sharples, Adam.
Sirtuin 1 regulates skeletal myoblast survival and enhances differentiation in the presence of resveratrol. Experimental Physiology 2012 ;Volum 97.(3)
NIH Untitled
 
50 Sharples, Adam.
The effects of testosterone on molecular markers of hypertrophy in C2C12 skeletal muscle cells.. Proceedings of the Physiological Society 2012 ;Volum 26. s. PC61-
NIH Untitled
 
    Vis neste liste