| human | Q5 |
| P6178 | Dimensions author ID | 011351370417.15 |
| P496 | ORCID iD | 0000-0002-2373-6358 |
| P3829 | Publons author ID | 2500850 |
| P1053 | ResearcherID | J-5328-2014 |
| P108 | employer | University of Copenhagen | Q186285 |
| P734 | family name | Juel | Q6304703 |
| Juel | Q6304703 | ||
| Juel | Q6304703 | ||
| P735 | given name | Carsten | Q14639862 |
| Carsten | Q14639862 | ||
| P106 | occupation | researcher | Q1650915 |
| P21 | sex or gender | male | Q6581097 |
| Q37024607 | Changes in interstitial K+ and pH during exercise: implications for blood flow regulation. |
| Q60637915 | Dissociation between lactate and proton exchange in muscle during intense exercise in man |
| Q72446635 | Effect of glucose-6-phosphate and pH on glucose transport in skeletal muscle plasma membrane giant vesicles |
| Q44699737 | Effect of resistance training on Na,K pump and Na+/H+ exchange protein densities in muscle from control and patients with type 2 diabetes. |
| Q79460173 | Effect of two different intense training regimens on skeletal muscle ion transport proteins and fatigue development |
| Q50738410 | Effects of darbepoetin injections on erythrocyte membrane transport protein expressions in humans. |
| Q44666568 | Effects of high-intensity intermittent training on potassium kinetics and performance in human skeletal muscle. |
| Q81326618 | Effects of prolonged recombinant human erythropoietin administration on muscle membrane transport systems and metabolic marker enzymes |
| Q24678029 | Effects of strength training on muscle lactate release and MCT1 and MCT4 content in healthy and type 2 diabetic humans |
| Q67260227 | Enkephalin increases the efficacy of dopaminergic transmission in Helix pomatia |
| Q44064292 | Exercise-induced increase in maximal in vitro Na-K-ATPase activity in human skeletal muscle |
| Q54387505 | Exercise-induced regulation of muscular Na+-K+ pump, FXYD1, and NHE1 mRNA and protein expression: importance of training status, intensity, and muscle type. |
| Q80975167 | Exercise-induced regulation of phospholemman (FXYD1) in rat skeletal muscle: implications for Na+/K+-ATPase activity |
| Q45030210 | Expression of Na+/HCO3- co-transporter proteins (NBCs) in rat and human skeletal muscle |
| Q28365707 | Extracellular formation and uptake of adenosine during skeletal muscle contraction in the rat: role of adenosine transporters |
| Q44555281 | Formation of hydrogen peroxide and nitric oxide in rat skeletal muscle cells during contractions |
| Q68250226 | Human muscle lactate transport can be studied in sarcolemmal giant vesicles made from needle-biopsies |
| Q58818180 | Human muscle net K+ release during exercise is unaffected by elevated anaerobic metabolism, but reduced after prolonged acclimatization to 4,100 m |
| Q24657135 | Human skeletal muscle and erythrocyte proteins involved in acid-base homeostasis: adaptations to chronic hypoxia |
| Q79750208 | Importance of pH regulation and lactate/H+ transport capacity for work production during supramaximal exercise in humans |
| Q69849319 | Intracellular pH recovery and lactate efflux in mouse soleus muscles stimulated in vitro: the involvement of sodium/proton exchange and a lactate carrier |
| Q80062960 | K+ as a vasodilator in resting human muscle: implications for exercise hyperaemia |
| Q45154649 | Lactate and force production in skeletal muscle |
| Q53837138 | Lactate and potassium fluxes from human skeletal muscle during and after intense, dynamic, knee extensor exercise. |
| Q69357889 | Lactate transport in isolated mouse muscles studied with a tracer technique--kinetics, stereospecificity, pH dependency and maximal capacity |
| Q33652197 | Lactate transport in skeletal muscle - role and regulation of the monocarboxylate transporter. |
| Q47768156 | Lactate/H+ transport kinetics in rat skeletal muscle related to fibre type and changes in transport capacity. |
| Q41054266 | Lactate/proton co-transport in skeletal muscle: regulation and importance for pH homeostasis. |
| Q47955138 | Lactic acid efflux from white skeletal muscle is catalyzed by the monocarboxylate transporter isoform MCT3. |
| Q44185894 | Localization and function of ATP-sensitive potassium channels in human skeletal muscle |
| Q83555713 | Maximal Na⁺-K⁺-ATPase activity is upregulated in association with muscle activity |
| Q46751866 | Membrane proteins involved in potassium shifts during muscle activity and fatigue |
| Q46462955 | Metabolic alkalosis reduces exercise-induced acidosis and potassium accumulation in human skeletal muscle interstitium |
| Q41780323 | Muscle action potential propagation velocity changes during activity. |
| Q60686297 | Muscle blood flow during isometric activity and its relation to muscle fatigue |
| Q80093190 | Muscle fatigue and reactive oxygen species |
| Q70176168 | Muscle lactate transport studied in sarcolemmal giant vesicles |
| Q67888517 | Muscle lactate transport studied in sarcolemmal giant vesicles: dependence on fibre type and age |
| Q46795482 | Na(+)-K (+) pump location and translocation during muscle contraction in rat skeletal muscle |
| Q43153296 | Na+,K+-ATPase Na+ affinity in rat skeletal muscle fiber types |
| Q46262217 | Na+-K+-ATPase in rat skeletal muscle: muscle fiber-specific differences in exercise-induced changes in ion affinity and maximal activity |
| Q56240299 | Na,K-ATPase Activity in Mouse Muscle is Regulated by AMPK and PGC-1α |
| Q55039625 | Nitric oxide and Na,K-ATPase activity in rat skeletal muscle. |
| Q35327251 | Oxidative stress (glutathionylation) and Na,K-ATPase activity in rat skeletal muscle |
| Q69528523 | Potassium and sodium shifts during in vitro isometric muscle contraction, and the time course of the ion-gradient recovery |
| Q37600930 | Potassium-transporting proteins in skeletal muscle: cellular location and fibre-type differences. |
| Q72566617 | Pre- and postsynaptic effects of dopamine antagonists on dopaminergic synaptic transmission in Helix pomatia |
| Q72443531 | Presynaptic function in Helix pomatia is changed by phosphodiesterase inhibitors, cyclic nucleotide derivatives, and neurotransmitter induced cAMP |
| Q72500983 | Presynaptic modulation of synaptic transmission in Helix pomatia: The effects of serotonin and dopamine antagonists |
| Q53977567 | Prolonged administration of recombinant human erythropoietin increases submaximal performance more than maximal aerobic capacity. |
| Q82370190 | Purinergic activation of rat skeletal muscle membranes increases Vmax and Na+ affinity of the Na,K-ATPase and phosphorylates phospholemman and α1 subunits |
| Q35116216 | Purinergic effects on Na,K-ATPase activity differ in rat and human skeletal muscle |
| Q72109715 | Regulation of cellular pH in skeletal muscle fiber types, studied with sarcolemmal giant vesicles obtained from rat muscles |
| Q37081803 | Regulation of pH in human skeletal muscle: adaptations to physical activity. |
| Q77193618 | Reversibility of exercise-induced translocation of Na+-K+ pump subunits to the plasma membrane in rat skeletal muscle |
| Q44745121 | Strength training increases insulin-mediated glucose uptake, GLUT4 content, and insulin signaling in skeletal muscle in patients with type 2 diabetes. |
| Q71421152 | Symmetry and pH dependency of the lactate/proton carrier in skeletal muscle studied with rat sarcolemmal giant vesicles |
| Q54376274 | The effect of beta 2-adrenoceptor activation on ion-shifts and fatigue in mouse soleus muscles stimulated in vitro. |
| Q40618570 | The effect of exercise and beta2-adrenergic stimulation on glutathionylation and function of the Na,K-ATPase in human skeletal muscle. |
| Q36386100 | Training-induced changes in membrane transport proteins of human skeletal muscle |
| Q51688547 | β2-adrenergic stimulation enhances Ca2+ release and contractile properties of skeletal muscles, and counteracts exercise-induced reductions in Na+-K+-ATPase Vmax in trained men. |
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