Keyphrases
Skeletal muscle
86%
Speed Endurance Training
86%
Training Volume
81%
Intensified Training
75%
FXYD1
61%
Performance Improvement
58%
Trained Runners
56%
Running Economy
56%
Phosphorylation
55%
Cyclists
54%
Reduced Training
53%
Fiber Type-specific
51%
Na+-K+ Pump
51%
Reduced Volume
50%
Intense Exercise
48%
Fast-twitch muscle
43%
Protein Expression
43%
Fast-twitch
43%
Skeletal muscle Cells
42%
High-intensity Training
39%
VO2max
39%
Endurance Training
37%
Exercise Performance
36%
During Exercise
35%
Na +
34%
K+ Pump
34%
Na+-K+ ATPase
33%
Sprint Performance
33%
Work Capacity
33%
Yo-Yo IR2
31%
Adaptation
30%
Specific Difference
27%
Human Skeletal muscle
27%
Quadriceps
27%
Fatigue Development
26%
Slow-twitch
26%
Protein Production
25%
Football Training
25%
Mitochondrial Function
25%
VO2 Kinetics
25%
Glucose Control
25%
Training Effect
25%
Young Men
25%
Chloride Channel
25%
Intensive Training
25%
Type 2 Diabetes Mellitus (T2DM)
25%
Muscle Mass
25%
Resistance Exercise
25%
Volume Increase
25%
NHE1
25%
Medicine and Dentistry
Skeletal Muscle
100%
Adenosine Triphosphatase
44%
Potassium Ion
33%
Protein Expression
31%
Infusion
27%
Resistance Training
25%
Gastrocnemius
25%
Antioxidant
25%
Alpha Wave
25%
Protein Kinase C Alpha
25%
calcium activated,phospholipid dependent protein kinase
25%
Adenosine Triphosphatase (Potassium Sodium)
25%
Beta 2 Adrenergic Receptor
25%
Muscle Twitch
25%
Oxidoreductase
25%
Exercise
25%
Sympathomimetic Drug
25%
Salbutamol
25%
Blood Flow
25%
Maturity Onset Diabetes of the Young
25%
Protein Degradation
25%
Exercise Intensity
17%
Messenger RNA
17%
Muscle Protein
17%
Muscle Contraction
16%
Biochemistry, Genetics and Molecular Biology
Skeletal Muscle
94%
FXYD1
85%
Exercise
52%
Exercise Intensity
40%
Protein Expression
36%
ATPase
30%
Endurance Training
29%
Chloride Channel
25%
Alpha Wave
25%
Synapsin I
25%
Work Capacity
25%
Channel Protein
25%
calcium activated,phospholipid dependent protein kinase
25%
Blood Flow
25%
Isoform
19%
Dehydrogenase
16%
Oxidoreductase
16%