Keyphrases
Triphosphate
100%
Inositol
100%
Myo-inositol
100%
Attenuation
100%
In Cancer
100%
Protein Degradation
100%
Cancer Cachexia
100%
Skeletal muscle Atrophy
100%
Protein Synthesis
66%
Esters
66%
Phosphorylation
33%
Skeletal muscle
33%
Autophosphorylation
33%
Muscle Wasting
33%
Proteolytic Cascade
33%
Proteolysis-inducing Factor
33%
Ubiquitin-proteasome System
33%
Cancer Patients
33%
Caspase-3
33%
Myotubes
33%
Novel Therapeutics
33%
Eukaryotic Initiation Factor
33%
Angiotensin II (Ang II)
33%
4E-BP1
33%
EEF2
33%
Double-stranded RNA-dependent Protein Kinase
33%
Hyperphosphorylation
33%
Tumor Model
33%
Metal Binding
33%
Tissue Wasting
33%
Binding Agent
33%
Polyanionic Materials
33%
To Determine the Effectiveness
33%
Carcass Mass
33%
Biochemistry, Genetics and Molecular Biology
Inositol
100%
Skeletal Muscle
100%
Protein Catabolism
100%
Protein Biosynthesis
50%
Angiotensin
25%
Binding Protein
25%
Autophosphorylation
25%
Eukaryotic Initiation Factor
25%
Proteasome
25%
Protein Kinase R
25%
Body Weight
25%
Synapsin I
25%
Ubiquitin
25%
Caspase 3
25%
Elongation Factor 2
25%
Hyperphosphorylation
25%
Eukaryotic Elongation Factors
25%
Metal Binding
25%
Pharmacology, Toxicology and Pharmaceutical Science
Inositol
100%
Cachexia
100%
Muscle Atrophy
100%
Inositol 1,2,6 Trisphosphate
100%
Proteasome
16%
Protein Kinase R
16%
Malignant Neoplasm
16%
Ubiquitin
16%
Caspase 3
16%
Synapsin I
16%
Angiotensin II
16%
Initiation Factor 2alpha
16%
Initiation Factor 4E
16%
Elongation Factor 2
16%
Tumor Model
16%
Prothrombin
16%
Binding Protein
16%