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Date Name Thumbnail Size Description Versions
02:12, 1 April 2021 Schmitz 2010, Silencing of glycolysis in muscle experimental observation and numerical analysis.png (file) 103 KB   1
02:12, 1 April 2021 Li 2009, Role of NADH NAD+ transport activity and glycogen store on skeletal muscle energy metabolism.png (file) 20 KB   1
02:12, 1 April 2021 Hellsten 1999, AMP deamination and purine exchange in human skeletal muscle during and after intense exercise.png (file) 49 KB   1
02:11, 1 April 2021 Fiedler 2016, Skeletal muscle ATP synthesis and cellular H+ handling F6.png (file) 113 KB   1
02:11, 1 April 2021 Fiedler 2016, Skeletal muscle ATP synthesis and cellular H+ handling F2.png (file) 97 KB   1
02:11, 1 April 2021 Crowther 2002, Control of glycolysis in contracting skeletal muscle II Turning it off.png (file) 92 KB   1
02:11, 1 April 2021 Coccimiglio 2020, ADP is the dominant controller of AMP-activated protein kinase activity.png (file) 64 KB   1
02:10, 1 April 2021 Chen 1999, Fitting cytosolic ADP recovery after exercise with a step response function.png (file) 45 KB   1
02:10, 1 April 2021 Cannon 2014, Skeletal muscle ATP turnover by 31P magnetic resonance VO2.png (file) 113 KB   1
02:10, 1 April 2021 Behnke 2009, Recovery dynamics of skeletal muscle oxygen uptake during the exercise off-transient.png (file) 47 KB   1
02:10, 1 April 2021 Bartlett 2020, Oxidative ATP synthesis in human quadriceps.png (file) 6 KB   1
22:00, 30 March 2021 Walter 1999, In vivo ATP synthesis rates in single human muscles during high intensity exercise Glycolysis.png (file) 20 KB   1
22:00, 30 March 2021 Walter 1999, In vivo ATP synthesis rates in single human muscles during high intensity exercise Calculations.png (file) 66 KB   1
22:00, 30 March 2021 Spriet 1989, Muscle glycogenolysis and H+ concentration during maximal intermittent cycling T2.png (file) 27 KB   1
22:00, 30 March 2021 Spriet 1989, Muscle glycogenolysis and H+ concentration during maximal intermittent cycling F1.png (file) 18 KB   1
21:59, 30 March 2021 Schocke 2005, High-energy phosphate metabolism during calf exercise in humans PCr.png (file) 44 KB   1
21:59, 30 March 2021 Schmitz 2013, Combined in vivo and in silico investigations of activation of glycolysis in contracting skeletal muscle PFK.png (file) 104 KB   1
21:59, 30 March 2021 Schmitz 2013, Combined in vivo and in silico investigations of activation of glycolysis in contracting skeletal muscle PFK regulation.png (file) 18 KB   1
21:58, 30 March 2021 Sahlin 1976, Lactate content and pH in muscle obtained after dynamic exercise F3.png (file) 70 KB   1
21:58, 30 March 2021 Sahlin 1976, Lactate content and pH in muscle obtained after dynamic exercise F2.png (file) 23 KB   1
21:57, 30 March 2021 Richardson 2015, MRS Evidence of Adequate O2 Supply in Human Skeletal Muscle at the Onset of Exercise.png (file) 58 KB   1
21:57, 30 March 2021 Parolin 1999, Regulation of skeletal muscle glycogen phosphorylase and PDH during maximal intermittent exercise T2.png (file) 134 KB   1
21:57, 30 March 2021 Parolin 1999, Regulation of skeletal muscle glycogen phosphorylase and PDH during maximal intermittent exercise F4.png (file) 37 KB   1
21:57, 30 March 2021 Parolin 1999, Regulation of skeletal muscle glycogen phosphorylase and PDH during maximal intermittent exercise.png (file) 44 KB   1
21:56, 30 March 2021 Layec 2015, Impact of age on exercise-induced ATP supply during supramaximal plantar flexion in humans.png (file) 159 KB   1
21:56, 30 March 2021 Larsen 2014, High-Intensity Interval Training Alters ATP Pathway Flux During Maximal Muscle Contractions in Humans Glycolisys.png (file) 40 KB   1
21:52, 30 March 2021 Layec 2008, Accurate work-rate measurements during in vivo MRS studies of exercising human quadriceps PCr.png (file) 36 KB   1
21:52, 30 March 2021 Larsen 2014, High-Intensity Interval Training Alters ATP Pathway Flux During Maximal Muscle Contractions in Humans Calulations.png (file) 118 KB   1
21:51, 30 March 2021 Kushmerick 1992, Regulation of oxygen consumption in fast and slow-twitch muscle F3.png (file) 41 KB   1
21:51, 30 March 2021 Kushmerick 1992, Regulation of oxygen consumption in fast and slow-twitch muscle F2.png (file) 42 KB   1
21:51, 30 March 2021 Hargreaves 1998, Muscle metabolites and performance during high-intensity, intermittent exercise T3.png (file) 114 KB   1
21:51, 30 March 2021 Hargreaves 1998, Muscle metabolites and performance during high-intensity, intermittent exercise T2.png (file) 68 KB   1
21:51, 30 March 2021 Greiner 2007, High-energy phosphate metabolism in the calf muscle of healthy humans PCr.png (file) 33 KB   1
21:50, 30 March 2021 Grassi 2005, Delayed Metabolic Activation of Oxidative Phosphorylation in Skeletal Muscle at Exercise Onset.png (file) 140 KB   1
21:50, 30 March 2021 Davies 2017, Dissociating external power from intramuscular exercise intensity during intermittent bilateral knee-extension in humans.png (file) 271 KB   1
21:50, 30 March 2021 Combes 2016, Effect of work-rest cycle duration on VO2 fluctuations during intermittent exercise.png (file) 114 KB   1
21:50, 30 March 2021 Chidnok 2013, Muscle metabolic responses during highintensity intermittent exercise.png (file) 64 KB   1
21:49, 30 March 2021 Broxterman 2017, Bioenergetics and ATP Synthesis during Exercise.png (file) 170 KB   1
21:49, 30 March 2021 Bartlett 2020, Oxidative ATP synthesis in human quadriceps PCr.png (file) 9 KB   1
21:49, 30 March 2021 Bartlett 2020, Oxidative ATP synthesis in human quadriceps ADP.png (file) 8 KB   1
21:49, 30 March 2021 Bangsbo 2001, ATP production and efficiency of human skeletal muscle during intense exercise, effect of previous exercise.png (file) 32 KB   1
20:03, 16 April 2019 CaMKII, Rose 2006, In vitro autonomous Ca2+–calmodulin-dependent protein kinase II activity.png (file) 85 KB In vitro autonomous Ca2+–calmodulin-dependent protein kinase II activity 1
20:02, 16 April 2019 CaMKII, Rose 2006, Effect of exercise duration on skeletal muscle phospholamban phosphorylation.png (file) 25 KB Effect of exercise duration on skeletal muscle phospholamban phosphorylation 1
20:02, 16 April 2019 CaMKII, Rose 2006, Effect of exercise duration on skeletal muscle lysate Ca2+–calmodulin-dependent protein kinase II activity.png (file) 33 KB Effect of exercise duration on skeletal muscle lysate Ca2+–calmodulin-dependent protein kinase II activity 1
20:02, 16 April 2019 CaMKII, Rose 2006, Effect of exercise duration on skeletal muscle Ca2+–calmodulin-dependent protein kinase II phosphorylation.png (file) 25 KB Effect of exercise duration on skeletal muscle Ca2+–calmodulin-dependent protein kinase II phosphorylation 1
20:01, 16 April 2019 CaMKII, Bhattacharyya 2016, The domains of human CaMKII-a.png (file) 284 KB The domains of human CaMKII-a 1
20:00, 16 April 2019 CaMKII, Bhattacharyya 2016, Subunit exchange in CaMKII-b.png (file) 298 KB Bhattacharyya 2016, Subunit exchange in CaMKII-b 1
22:37, 10 April 2019 CaMKII, Rosenberg 2005, The holoenzyme model.png (file) 487 KB The holoenzyme model 1
22:37, 10 April 2019 CaMKII, Rose 2006, Ca2+–calmodulindependent kinase isoforms in human skeletal muscle.png (file) 29 KB Ca2+–calmodulindependent kinase isoforms in human skeletal muscle 1
22:37, 10 April 2019 CaMKII, Hudmon 2002, The autophosphorylation of CaMKII requires coincident Ca2+ CaM binding.png (file) 83 KB The autophosphorylation of CaMKII requires coincident Ca2+ CaM binding 1
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