Biochemistry, Genetics and Molecular Biology
Skeletal Muscle
100%
Mitochondrion
66%
Adenine
58%
Mitochondrial Membrane Transport Protein
58%
Translocase
58%
Acetylation
58%
Lysine
58%
Insulin Sensitivity
51%
Alpha Oxidation
45%
Insulin Resistance
42%
Adenosine Triphosphate
36%
ATPase
35%
Mouse
33%
Adenosine Diphosphate
33%
Honokiol
29%
Magnolia
29%
Protein Content
29%
Mitochondrial Protein
29%
Electron Transport Chain
29%
Germander
29%
Lamiaceae
29%
Tecoma Stans
29%
Bignoniaceae
29%
Eagle
29%
Hepatocyte
29%
Cell Culture Technique
29%
Acanthaceae
29%
Justicia (Plant)
29%
Preadipocyte
29%
Cucurbitaceae
29%
Transcription Factors
29%
Proteomics
27%
Crista
23%
Isoform
18%
Adipogenesis
18%
Oxidative Phosphorylation
17%
Gas Exchange
16%
Energy Transfer
13%
Messenger RNA
11%
Steady State
11%
Calorimetry
11%
Lipid
11%
Cell Proliferation
11%
Normal Human
7%
Lipid Storage
7%
Homology Modeling
7%
Conductance
7%
Factor VIII
7%
Dynein
7%
Mitochondrial Targeting Signal
7%
Keyphrases
Von Willebrand
29%
Magnolol
29%
Magnolia Dealbata
29%
Honokiol
29%
Fuel Choice
29%
Isoorientin
29%
Carbohydrates
29%
Teucrium
29%
Tecoma Stans
29%
Antidiabetic Plants
29%
Phoradendron
29%
Skeletal muscle
29%
Mexican Medicinal Plants
29%
Sedentary Workers
29%
Ibervillea Sonorae
29%
Low Intensity
29%
Justicia Spicigera
29%
Acanthaceae
29%
Fuel Oxidation
23%
Guazuma Ulmifolia
22%
Insulin Sensitivity
17%
31P-MRS
14%
Functional Content
14%
Whole-body
11%
Indirect Calorimetry
11%
Lipids
11%
Mitochondrial Content
11%
2-NBDG Uptake
9%
DPPH Method
9%
ABTS Method
9%
Glucose Fuel
7%
Muscle Proteomics
7%
Electrical Circuit Model
7%
P. Serotina
7%
Psittacanthus Calyculatus
7%
Gas Exchange
5%
Mild Exercise
5%
Work Cost
5%
Mechanical Efficiency
5%
Bi-exponential
5%
Power Output
5%
VO2peak
5%
Work Rate
5%
Muscle Biopsy
5%
PRPF4B
5%
Insulin Resistance
5%
State Cycle
5%
CNGA1
5%
SLC26A7
5%
Metabolic Inflexibility
5%