Skeletal muscle satellite cells are adult stem cells responsible for postnatal skeletal muscle
growth and regeneration. Paired-box transcription factor Pax7 plays a central role in satellite …

Postnatal growth and regeneration of skeletal muscle requires a population of resident
myogenic precursors named satellite cells. The transcription factor Pax7 is critical for …

Satellite cells purified from adult skeletal muscle can participate extensively in muscle
regeneration and can also re-populate the satellite cell pool, suggesting that they have …

Skeletal muscle stem cells are regulated by Pax3/7. During development, Pax3 is required
for the maintenance of these cells in the somite and their migration to sites of myogenesis; …

The Pax7 transcription factor is required for muscle satellite cell biogenesis and specification
of the myogenic precursor lineage. Pax7 is expressed in proliferating myoblasts but is …

Pax3, a key myogenic regulator, is transiently expressed during activation of adult muscle
stem cells, or satellite cells (SCs), and is also expressed in a subset of quiescent SCs …

Skeletal muscle growth and regeneration are attributed to satellite cells-muscle stem cells
resident beneath the basal lamina that surrounds each myofibre. Quiescent satellite cells …

Compensatory growth and regeneration of skeletal muscle is dependent on the resident
stem cell population, satellite cells (SCs). Self-renewal and maintenance of the SC niche is …

Satellite cells are a heterogeneous population of stem and progenitor cells that are required
for the growth, maintenance and regeneration of skeletal muscle. The transcription factors …

Three muscle-specific microRNAs, miR-206,-1, and-133, are induced during differentiation
of C2C12 myoblasts in vitro. Transfection of miR-206 promotes differentiation despite the …