Add to ORKGUsing a cell marker mutation the cell lineage of the muscles of the Drosophila head are traced out. Three sets of muscles separated by lineage restrictions are observed, even when cells are marked as early as the blastoderm stage. Each set underlies the derivatives of one of the three pairs of imaginal discs which differentiate to form the epidermis of the adult head. Clones of the homoeotic mutation engrailed (en^10) were apparently normal in the muscles of the head. The muscle clone frequency, at the blastoderm stage, in each hemisegment of the fly is similar, indicating an equal partitioning of cells during segmentation
La diversité morphologique des muscles squelettiques permet la précision et la coordination des mouv...
The differentiation of myoblasts to form functional muscle fibers is a consequence of interactions b...
An analysis of the cell lineage of the adult Drosophila abdomen is reported. Genetically marked clon...
Using a cell marker mutation the cell lineage of the muscles of the Drosophila head are traced out. ...
Using a cell marker mutation the cell lineage of the muscles of the Drosophila head are traced out. ...
Eight X-chromosome mutations (falling into five complementation groups) that affect the development ...
Work on genetic model systems such as Drosophila and mouse has shown that the fundamental mechanisms...
The correct patterning of muscles in the Drosophila embryo depends on the migration of developing mu...
AbstractAnalysis of flies with mutations in the gene encoding the D-mef2 transcription factor identi...
We use the Drosophila system to define how genes control muscle development and function. Many of th...
Myogenesis is a highly orchestrated, complex developmental process by which cell lineages that are m...
The different horacic muscles of Drosophila are affected specifically in the mutants: stripe (sr), e...
AbstractIn insects, specialized mesodermal cells serve as templates to organize myoblasts into disti...
There are two phases of somatic muscle formation in Drosophila. During embry-onic development, one p...
The mechanisms that determine the final topology of skeletal muscles remain largely unknown. We have...
La diversité morphologique des muscles squelettiques permet la précision et la coordination des mouv...
The differentiation of myoblasts to form functional muscle fibers is a consequence of interactions b...
An analysis of the cell lineage of the adult Drosophila abdomen is reported. Genetically marked clon...
Using a cell marker mutation the cell lineage of the muscles of the Drosophila head are traced out. ...
Using a cell marker mutation the cell lineage of the muscles of the Drosophila head are traced out. ...
Eight X-chromosome mutations (falling into five complementation groups) that affect the development ...
Work on genetic model systems such as Drosophila and mouse has shown that the fundamental mechanisms...
The correct patterning of muscles in the Drosophila embryo depends on the migration of developing mu...
AbstractAnalysis of flies with mutations in the gene encoding the D-mef2 transcription factor identi...
We use the Drosophila system to define how genes control muscle development and function. Many of th...
Myogenesis is a highly orchestrated, complex developmental process by which cell lineages that are m...
The different horacic muscles of Drosophila are affected specifically in the mutants: stripe (sr), e...
AbstractIn insects, specialized mesodermal cells serve as templates to organize myoblasts into disti...
There are two phases of somatic muscle formation in Drosophila. During embry-onic development, one p...
The mechanisms that determine the final topology of skeletal muscles remain largely unknown. We have...
La diversité morphologique des muscles squelettiques permet la précision et la coordination des mouv...
The differentiation of myoblasts to form functional muscle fibers is a consequence of interactions b...
An analysis of the cell lineage of the adult Drosophila abdomen is reported. Genetically marked clon...