Keyphrases
Cell Differentiation
100%
Laser Irradiation
100%
Proliferation in Vitro
100%
Satellite Cells
100%
Differentiation in Vitro
100%
Low Energy Laser
100%
Satellite Cell Activation
100%
Irradiation
60%
Thymidine Incorporation
60%
Skeletal muscle Regeneration
40%
Protein Level
20%
Control Cell
20%
Cell Proliferation
20%
Cyclin A
20%
Cyclin D1 (CCND1)
20%
Refeeding
20%
Cell Cycle Genes
20%
Cell Cycle Proteins
20%
Promoting Effect
20%
He-Ne
20%
Rat Age
20%
Myosin Heavy Chain (MyHC)
20%
Proliferating Cell nuclear Antigen
20%
Bell-shaped
20%
Cyclin
20%
Cyclin E
20%
Laser Irradiation Effect
20%
Neuroscience
In Vitro
100%
Cellular Differentiation
100%
DNA Synthesis
100%
Cell Proliferation
100%
In Vivo
66%
Skeletal Muscle
66%
Cell Cycle
33%
Cyclin A
33%
Cell Cycle Protein
33%
Myosin Heavy Chain
33%
Proliferating Cell Nuclear Antigen
33%
Cyclin D1
33%
Regulator Gene
33%
Cyclin E
33%
Biochemistry, Genetics and Molecular Biology
DNA Synthesis
100%
Cell Proliferation
100%
Cellular Differentiation
100%
Skeletal Muscle
66%
Muscle Regeneration
66%
Cell Cycle
33%
Cyclin A
33%
Cyclin D1
33%
Cell Cycle Protein
33%
Locus Control Region
33%
Proliferating Cell Nuclear Antigen
33%
Helium Neon Laser
33%
Cyclin E
33%
Heavy Meromyosin
33%
Cyclin
33%
Medicine and Dentistry
In Vitro
100%
Cell Proliferation
100%
Cell Differentiation
100%
Satellite Cell
100%
DNA Synthesis
50%
Muscle Regeneration
33%
Skeletal Muscle
33%
Cyclin D1
16%
Refeeding
16%
Cell Cycle
16%
Heavy Meromyosin
16%
Proliferating Cell Nuclear Antigen
16%
Regulator Gene
16%
Cyclin A
16%
Cyclin E
16%
Cell Cycle Protein
16%
Cyclin
16%
Immunology and Microbiology
Cell Proliferation
100%
Cell Differentiation
100%
Satellite Cell
100%
DNA Synthesis
50%
Cell Cycle
33%
Cycline
33%
Skeletal Muscle
33%
Muscle Regeneration
33%
Regulator Gene
16%
Cyclin A
16%
Cyclin D1
16%
Heavy Chain
16%
Cyclin E
16%
Helium Neon Laser
16%
Myosin
16%
Engineering
Laser Irradiation
100%
Regulatory Cycle
40%
Protein Level
20%