MiR-27b Promotes Muscle Development by Inhibiting MDFI Expression | Zendy

Lianjie Hou | Zendy; Jian Xu | Zendy; Yiren Jiao | Zendy; Huaqin Li | Zendy; Zhicheng Pan | Zendy; Junli Duan | Zendy; Ting Gu | Zendy; Ching Yuan Hu | Zendy; Chong Wang | Zendy

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MiR-27b Promotes Muscle Development by Inhibiting MDFI Expression

Author(s) -

Lianjie Hou,

Jian Xu,

Yiren Jiao,

Huaqin Li,

Zhicheng Pan,

Junli Duan,

Ting Gu,

Ching Yuan Hu,

Chong Wang

Publication year - 2018

Publication title -

cellular physiology and biochemistry

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.486

H-Index - 87

eISSN - 1421-9778

pISSN - 1015-8987

DOI - 10.1159/000489595

Subject(s) - myogenesis , skeletal muscle , microbiology and biotechnology , myocyte , regeneration (biology) , biology , microrna , cell growth , western blot , gene , endocrinology , genetics

Skeletal muscle plays an essential role in the body movement. However, injuries to the skeletal muscle are common. Lifelong maintenance of skeletal muscle function largely depends on preserving the regenerative capacity of muscle. Muscle satellite cells proliferation, differentiation, and myoblast fusion play an important role in muscle regeneration after injury. Therefore, understanding of the mechanisms associated with muscle development during muscle regeneration is essential for devising the alternative treatments for muscle injury in the future.

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