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Dexamethasone accelerates muscle regeneration by modulating kinesin-1-mediated focal adhesion signals
Jong Wei Lin
, Yi Man Huang
, Yin Quan Chen
, Ting Yun Chuang
, Tien Yun Lan
, Yen Wenn Liu
, Hung Wei Pan
,
Li Ru You
, Yang Kao Wang
, Keng hui Lin
, Arthur Chiou
,
Jean Cheng Kuo
*
*
此作品的通信作者
生化暨分子生物研究所
研究成果
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21
引文 斯高帕斯(Scopus)
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Keyphrases
Focal Adhesion
100%
Kinesin
100%
Muscle Regeneration
100%
Myogenesis
50%
Muscular Dystrophy
33%
Motor Activity
33%
Integrin 1
33%
Myoblast Fusion
33%
Myosin Heavy Chain (MyHC)
16%
Microtubules
16%
Micropatterning
16%
Skeletal muscle
16%
Cell Adhesion
16%
Muscle Damage
16%
Muscle Fiber
16%
Myotubes
16%
Muscle Strength
16%
Muscle Disease
16%
Focal Adhesion Pathway
16%
Inflammation Inhibition
16%
Synthetic Glucocorticoids
16%
Muscle Myosin
16%
Skeletal muscle Regeneration
16%
Muscle Degeneration
16%
Multinucleated
16%
Myogenic Markers
16%
Biochemistry, Genetics and Molecular Biology
Focal Adhesion
100%
Kinesin
100%
Muscle Regeneration
100%
Dexamethasone
100%
Myogenesis
50%
Skeletal Muscle
33%
Motor Activity
33%
Integrin
33%
Heavy Meromyosin
16%
Cell Adhesion
16%
Muscle Strength
16%
Glucocorticoid
16%
Pharmacology, Toxicology and Pharmaceutical Science
Dexamethasone
100%
Kinesin 1
100%
Integrin
33%
Muscular Dystrophy
33%
Inflammation
16%
Glucocorticoid
16%
Muscle Injury
16%
Muscle Atrophy
16%
Myosin Heavy Chain
16%