Topics
chickenPlant
neural tubeAnatomical structure
paraxial mesodermPlace
notochordAnatomical structure
skeletal muscleAnatomical structure
MyoDBiomolecule
myogenesisMilitary unit
NotochordAnatomical structure
vertebrateAnimal
peer reviewedFormation of paraxial muscles in vertebrate embryos depends upon interactions between early somites and the neural tube and notochord. Removal of both axial structures results in a complete loss of epaxial myotomal muscle, whereas hypaxial and limb muscles develop normally. We report that chicken embryos, after surgical removal of the neural tube at the level of the unsegmented paraxial mesoderm, start to develop myotomal cells that express transcripts for the muscle-specific regulators MyoD and myogenin. These cells also make desmin, indicating that the initial steps of axial skeletal muscle formation can occur in the absence of the neural tube. However, a few days following the extirpation, the expression of MyoD and myogenin...
A prerequisite for discovering the properties and therapeutic potential of branchiomeric muscles is ...
In this review we discuss the recent findings concerning the mechanisms that restrict somitic cells ...
Myostatin is a potent inhibitor of muscle growth. Genetic deletion of Myostatin leads to massive hyp...
Important advances have been made in understanding the genetic processes that control skeletal muscl...
AbstractWe have developed an in vitro assay for examining the neural tube/notochord influence on som...
The dorso-ventral pattern formation of the somites becomes manifest by the formation of the epitheli...
AbstractMedial and lateral halves of the somite are known to differ with respect to their developmen...
AbstractThe study of the morphogenetic cell movements underlying myotome formation in the chick embr...
Vertebrate axial skeletal muscle first develops in a compartment of the somite called the myotome. I...
Activation of myogenesis in newly formed somites is dependent upon signals derived from neighboring ...
AbstractMuscles of the body and bones of the axial skeleton derive from specialized regions of somit...
Cells of the cranial paraxial mesoderm give rise to parts of the skull and muscles of the head. Some...
AbstractDuring vertebrate embryogenesis, the paraxial mesoderm becomes segmented into somites, which...
AbstractTo understand how the skeletal muscle lineage is induced during vertebrate embryogenesis, we...
AbstractMyostatin is a potent inhibitor of muscle growth. Genetic deletion of Myostatin leads to mas...
A prerequisite for discovering the properties and therapeutic potential of branchiomeric muscles is ...
In this review we discuss the recent findings concerning the mechanisms that restrict somitic cells ...
Myostatin is a potent inhibitor of muscle growth. Genetic deletion of Myostatin leads to massive hyp...
Important advances have been made in understanding the genetic processes that control skeletal muscl...
AbstractWe have developed an in vitro assay for examining the neural tube/notochord influence on som...
The dorso-ventral pattern formation of the somites becomes manifest by the formation of the epitheli...
AbstractMedial and lateral halves of the somite are known to differ with respect to their developmen...
AbstractThe study of the morphogenetic cell movements underlying myotome formation in the chick embr...
Vertebrate axial skeletal muscle first develops in a compartment of the somite called the myotome. I...
Activation of myogenesis in newly formed somites is dependent upon signals derived from neighboring ...
AbstractMuscles of the body and bones of the axial skeleton derive from specialized regions of somit...
Cells of the cranial paraxial mesoderm give rise to parts of the skull and muscles of the head. Some...
AbstractDuring vertebrate embryogenesis, the paraxial mesoderm becomes segmented into somites, which...
AbstractTo understand how the skeletal muscle lineage is induced during vertebrate embryogenesis, we...
AbstractMyostatin is a potent inhibitor of muscle growth. Genetic deletion of Myostatin leads to mas...
A prerequisite for discovering the properties and therapeutic potential of branchiomeric muscles is ...
In this review we discuss the recent findings concerning the mechanisms that restrict somitic cells ...
Myostatin is a potent inhibitor of muscle growth. Genetic deletion of Myostatin leads to massive hyp...
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