Add to ORKGForced expression of the myogenic regulatory gene MyoD in many types of cultured cells initiates their conversion into skeletal muscle. It is not known, however, if MyoD expression serves to activate all or part of the skeletal muscle program in vivo during animal development, nor is it known how limiting the influences of cellular environment may be on the regulatory effects of MyoD. To begin to address these issues, we have produced transgenic mice which express MyoD in developing heart, where neither MyoD nor its three close relatives—myogenin, Myf-5, and MRF4/herculin/Myf-6—are normally expressed. The resulting gross phenotype in offspring from multiple, independent transgenic founders includes abnormal heart morphology and ultimately l...
Skeletal and smooth muscle can mutually transdifferentiate, but little molecular insight exists as t...
AbstractGene targeting has indicated that Myf5 and MyoD are required for myogenic determination beca...
AbstractThe four myogenic basic helix-loop-helix proteins, MyoD, myogenin, Myf-5, and MRF4, can each...
Forced expression of the myogenic regulatory gene MyoD in many types of cultured cells initiates the...
Forced expression of the myogenic regulatory gene MyoD in many types of cultured cells initiates the...
The final steps of vertebrate skeletal muscle development involve withdrawal of determined muscle pr...
In developing mouse embryos, MyoD family regulatory genes are expressed specifically in muscle precu...
AbstractGene targeting has indicated that the bHLH transcription factorsMyf-5andMyoDare required for...
Transgenic analysis has shown that the MyoD core enhancer and distal regulatory region (DRR) togethe...
Myogenesis is studied as an example of vertebrate cell type determination and differentiation mainly...
Abstractmyogenin (−/−) mice display severe skeletal muscle defects despite expressing normal levels ...
The muscle determination gene MyoD is essential for normal development of hypaxial musculature in ve...
AbstractExpression of a transfected MyoD gene induces myogenic differentiation of most cell types. I...
The muscle determination gene MyoD is essential for normal development of hypaxial musculature in ve...
Skeletal and smooth muscle can mutually transdifferentiate, but little molecular insight exists as t...
Skeletal and smooth muscle can mutually transdifferentiate, but little molecular insight exists as t...
AbstractGene targeting has indicated that Myf5 and MyoD are required for myogenic determination beca...
AbstractThe four myogenic basic helix-loop-helix proteins, MyoD, myogenin, Myf-5, and MRF4, can each...
Forced expression of the myogenic regulatory gene MyoD in many types of cultured cells initiates the...
Forced expression of the myogenic regulatory gene MyoD in many types of cultured cells initiates the...
The final steps of vertebrate skeletal muscle development involve withdrawal of determined muscle pr...
In developing mouse embryos, MyoD family regulatory genes are expressed specifically in muscle precu...
AbstractGene targeting has indicated that the bHLH transcription factorsMyf-5andMyoDare required for...
Transgenic analysis has shown that the MyoD core enhancer and distal regulatory region (DRR) togethe...
Myogenesis is studied as an example of vertebrate cell type determination and differentiation mainly...
Abstractmyogenin (−/−) mice display severe skeletal muscle defects despite expressing normal levels ...
The muscle determination gene MyoD is essential for normal development of hypaxial musculature in ve...
AbstractExpression of a transfected MyoD gene induces myogenic differentiation of most cell types. I...
The muscle determination gene MyoD is essential for normal development of hypaxial musculature in ve...
Skeletal and smooth muscle can mutually transdifferentiate, but little molecular insight exists as t...
Skeletal and smooth muscle can mutually transdifferentiate, but little molecular insight exists as t...
AbstractGene targeting has indicated that Myf5 and MyoD are required for myogenic determination beca...
AbstractThe four myogenic basic helix-loop-helix proteins, MyoD, myogenin, Myf-5, and MRF4, can each...