Add to ORKGMuscular dysgenesis is a mutation which is characterized by paralysis of skeletal muscle cells. Excitation-contraction coupling is deficient and muscle cells display atypical ultrastructure. In vitro, mutant myotubes recover a normal phenotype when co-cultured with spinal cord cells from normal animals or with normal fibroblasts. We have shown that other types of cells, eg certain glial cells present in the spinal cord or in other tissues, have this capacity. In contrast, intervention of neurons in the recovery does not appear likely. Very different types of non-myoblastic cells, then, are capable of restoring contractile activity of dysgenic myotubes in vitro, suggesting that a non-specific mechanism is involved in the phenotypic reversion...
Abstract The myogenic factor Myf5 defines the onset of myogenesis in mammals during development. Mic...
Adult skeletal muscle possesses a remarkable regenerative ability, which largely depends on satellit...
In vitro human skeletal muscle systems are valuable tools for the study of human muscular developmen...
Satellite cells were isolated from skeletal muscles of adult normal and dystrophic mice (C57/6J/dy s...
The diversity of movement in mammals requires three different types of muscle contraction: isometric...
Normal and diseased human muscle cells have been grown in combined cultures with 12-14 day embryonic...
Duchenne muscular dystrophy (DMD) is a genetic disorder that results from deficiency of the dystroph...
We have demonstrated previously that adult human synovial membrane-derived mesenchymal stem cells (h...
Somite-derived skeletal myoblasts are supposed to be the sole source of muscle fibre nuclei during p...
Myoblasts, the precursors of skeletal muscle fibers, can be induced to withdraw from the cell cycle ...
Tongue weakness, like all weakness in Duchenne muscular dystrophy (DMD), occurs as a result of contr...
Bone marrow (BM) transplantation in mice suggests the existence of pluripotent cells able to differe...
AbstractStriated skeletal muscle cells from humans represent a valuable source for in vitro studies ...
Many aspects of skeletal muscle biology are remarkably similar between mammals and tiny insects, and...
Apoptosis has been demonstrated to occur in differentiated myocardial muscle, neonatal skeletal musc...
Abstract The myogenic factor Myf5 defines the onset of myogenesis in mammals during development. Mic...
Adult skeletal muscle possesses a remarkable regenerative ability, which largely depends on satellit...
In vitro human skeletal muscle systems are valuable tools for the study of human muscular developmen...
Satellite cells were isolated from skeletal muscles of adult normal and dystrophic mice (C57/6J/dy s...
The diversity of movement in mammals requires three different types of muscle contraction: isometric...
Normal and diseased human muscle cells have been grown in combined cultures with 12-14 day embryonic...
Duchenne muscular dystrophy (DMD) is a genetic disorder that results from deficiency of the dystroph...
We have demonstrated previously that adult human synovial membrane-derived mesenchymal stem cells (h...
Somite-derived skeletal myoblasts are supposed to be the sole source of muscle fibre nuclei during p...
Myoblasts, the precursors of skeletal muscle fibers, can be induced to withdraw from the cell cycle ...
Tongue weakness, like all weakness in Duchenne muscular dystrophy (DMD), occurs as a result of contr...
Bone marrow (BM) transplantation in mice suggests the existence of pluripotent cells able to differe...
AbstractStriated skeletal muscle cells from humans represent a valuable source for in vitro studies ...
Many aspects of skeletal muscle biology are remarkably similar between mammals and tiny insects, and...
Apoptosis has been demonstrated to occur in differentiated myocardial muscle, neonatal skeletal musc...
Abstract The myogenic factor Myf5 defines the onset of myogenesis in mammals during development. Mic...
Adult skeletal muscle possesses a remarkable regenerative ability, which largely depends on satellit...
In vitro human skeletal muscle systems are valuable tools for the study of human muscular developmen...