Keyphrases
Skeletal muscle
100%
Protein Degradation
100%
Proteolytic Cascade
100%
Ubiquitin-proteasome System
100%
Acetate
100%
Phorbol Ester
100%
Protein Kinase
42%
Nuclear factor-B
28%
Total Protein
28%
Incubation Time
28%
Disease States
14%
Muscle Atrophy
14%
Nuclear Accumulation
14%
Myosin
14%
Muscle Cells
14%
Deubiquitinating Enzyme
14%
20S Proteasome
14%
Myotubes
14%
Dose-response Curve
14%
Maximal Effect
14%
Proteasome Subunits
14%
Lactacystin
14%
Protease Inhibitors
14%
Transcription Factor
14%
Functional Activity
14%
Incomplete Knowledge
14%
Myofibrillar Protein
14%
NF-B
14%
Inhibitory Proteins
14%
Co-incubation
14%
Induced Activation
14%
Calphostin C
14%
Cellular Mechanisms
14%
Resveratrol
14%
Induced Degradation
14%
Cellular Content
14%
Protein Kinase C Inhibitor
14%
Biochemistry, Genetics and Molecular Biology
Skeletal Muscle
100%
Protein Catabolism
100%
Proteasome
100%
Ubiquitin
100%
Upregulation
100%
calcium activated,phospholipid dependent protein kinase
57%
Incubation Time
28%
Complement Factor B
28%
Ubiquitin-Conjugating Enzyme
14%
Proteasome Inhibitor
14%
Dose Response
14%
Transcription Factors
14%
Calphostin C
14%
Resveratrol
14%
Myosin
14%
Pharmacology, Toxicology and Pharmaceutical Science
Proteasome
100%
Ubiquitin
100%
Phorbol Ester
100%
calcium activated,phospholipid dependent protein kinase
42%
Incubation Time
28%
Alternative Complement Pathway C3 C5 Convertase
28%
Nuclear Factor
28%
Protein
28%
Muscle Atrophy
14%
Muscle Protein
14%
Ubiquitin Conjugating Enzyme
14%
Lactacystin
14%
Transcription Factors
14%
Proteasome Inhibitor
14%
Calphostin C
14%
Resveratrol
14%
Protein Kinase C Inhibitor
14%
Diseases
14%