Muscle regulatory factors activate myogenesis in all vertebrates, but their role has been studied in great detail only in the mouse embryo, where all but myogenin \u2013 Myod, Myf5 and Mrf4 \u2013 are sufficient to activate (albeit not completely) skeletal myogenesis. In the zebrafish embryo, myod and myf5 are required for induction of myogenesis because their simultaneous ablation prevents muscle development. Here we show that mrf4 but not myog can fully rescue myogenesis in the myod/myf5 double morphant via a selective and robust activation of myod, in keeping with its chromatin remodelling function in vitro. Rescue does not happen spontaneously, because the gene, unlike that in the mouse embryo, is expressed only at the onset of muscle d...
Pax3/7 paired homeodomain transcription factors are important markers of muscle stem cells. Pax3 is ...
AbstractGene targeting has indicated that Myf5 and MyoD are required for myogenic determination beca...
The skeletal muscle tissue in amniotes is formed by different classes of myogenic precursors that ac...
Muscle regulatory factors activate myogenesis in all vertebrates, but their role has been studied in...
Muscle regulatory factors activate myogenesis in all vertebrates, but their role has been studied in...
[[abstract]]The functions of Myf5 and Myod are well known in trunk myogenesis. However, the roles th...
AbstractMyogenic regulatory factors of the myod family (MRFs) are transcription factors essential fo...
Vertebrate muscle development occurs through sequential differentiation of cells residing in somitic...
In vertebrates, skeletal myogenesis involves the sequential activation of myogenic factors to lead u...
The development and growth of vertebrate axial muscle have been studied for decades at both the desc...
MRF4 is one of four skeletal muscle specific regulatory genes, (the other three genes being MyoD, my...
International audienceMuscles are composed of multinucleated muscle fibers with different contractil...
Balancing the number of stem cells and their progeny is crucial for tissue development and repair. H...
AbstractThe four myogenic basic helix-loop-helix proteins, MyoD, myogenin, Myf-5, and MRF4, can each...
International audienceMyogenic cells in the body of vertebrates derive from the dorsal somite, the d...
Pax3/7 paired homeodomain transcription factors are important markers of muscle stem cells. Pax3 is ...
AbstractGene targeting has indicated that Myf5 and MyoD are required for myogenic determination beca...
The skeletal muscle tissue in amniotes is formed by different classes of myogenic precursors that ac...
Muscle regulatory factors activate myogenesis in all vertebrates, but their role has been studied in...
Muscle regulatory factors activate myogenesis in all vertebrates, but their role has been studied in...
[[abstract]]The functions of Myf5 and Myod are well known in trunk myogenesis. However, the roles th...
AbstractMyogenic regulatory factors of the myod family (MRFs) are transcription factors essential fo...
Vertebrate muscle development occurs through sequential differentiation of cells residing in somitic...
In vertebrates, skeletal myogenesis involves the sequential activation of myogenic factors to lead u...
The development and growth of vertebrate axial muscle have been studied for decades at both the desc...
MRF4 is one of four skeletal muscle specific regulatory genes, (the other three genes being MyoD, my...
International audienceMuscles are composed of multinucleated muscle fibers with different contractil...
Balancing the number of stem cells and their progeny is crucial for tissue development and repair. H...
AbstractThe four myogenic basic helix-loop-helix proteins, MyoD, myogenin, Myf-5, and MRF4, can each...
International audienceMyogenic cells in the body of vertebrates derive from the dorsal somite, the d...
Pax3/7 paired homeodomain transcription factors are important markers of muscle stem cells. Pax3 is ...
AbstractGene targeting has indicated that Myf5 and MyoD are required for myogenic determination beca...
The skeletal muscle tissue in amniotes is formed by different classes of myogenic precursors that ac...
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