Patrick Seale, Jeff Ishibashi, Anthony Scimè, Michael A. Rudnicki
The gene Pax7 is shown to be a key regulator of muscle cell differentiation in specific populations of adult stem cells during muscle tissue regeneration.
Patrick Seale, Jeff Ishibashi, Anthony Scimè, Michael A. Rudnicki
CD45+:Sca1+ adult stem cells isolated from uninjured muscle do not display any myogenic potential, whereas those isolated from regenerating muscle give rise to myoblasts expressing the paired-box...
Seale, Patrick, Ishibashi, Jeff, Scimè, Anthony, Rudnicki, Michael A
CD45+:Sca1+ adult stem cells isolated from uninjured muscle do not display any myogenic potential, whereas those isolated from regenerating muscle give rise to myoblasts expressing the paired-box...
Seale, Patrick, Ishibashi, Jeff, Scimè, Anthony, Rudnicki, Michael A
CD45+:Sca1+ adult stem cells isolated from uninjured muscle do not display any myogenic potential, whereas those isolated from regenerating muscle give rise to myoblasts expressing the paired-box...
MyoD induces myogenic differentiation through cooperation of its NH2- and COOH-terminal regions
Ishibashi, Jeff, Perry, Robert L., Asakura, Atsushi, Rudnicki, Michael A.
MyoD and Myf5 are basic helix-loop-helix transcription factors that play key but redundant roles in specifying myogenic progenitors during embryogenesis. However, there are functional differences...
Asakura, Atsushi, Hirai, Hiroyuki, Kablar, Boris, Morita, Shigeru, Ishibashi, Jeff, Piras, Bryan A., ...
MyoD is a myogenic master transcription factor that plays an essential role in muscle satellite cell (muscle stem cell) differentiation. To further investigate the function of MyoD in satellite...