Add to ORKGIn Drosophila, stripe (sr) gene function is required for normal muscle development. Some mutations disrupt embryonic muscle development and are lethal. Other mutations cause total loss of only a single muscle in the adult. Molecular analysis shows that sr encodes a predicted protein containing a zinc finger motif. This motif is homologous to the DNA binding domains encoded by members of the early growth response (egr) gene family. In mammals, expression of egr genes is induced by intercellular signals, and there is evidence for their role in many developmental events. The identification of sr as an egr gene and its pattern of expression suggest that it functions in muscle development via intercellular communication
The transcriptional regulation of muscle development involves several complex processes that must wo...
The voluntary skeletal muscles in vertebrates are the main effectors of locomotion. Processes and ge...
Il existe de nombreuses similitudes au niveau des mécanismes génétiques et moléculaires qui contrôle...
In Drosophila, stripe (sr) gene function is required for normal muscle development. Some mutations d...
We have cloned and molecularly characterized the Drosophila gene stripe (sr) required for muscle-pat...
This article reports the production of an EP-element insertion library with more than 3,700 unique t...
The muscle fiber is a structural unit of skeletal muscle in many organisms. Muscle fiber composition...
The mechanisms that determine the final topology of skeletal muscles remain largely unknown. We have...
In Drosophila, muscles attach to epidermal tendon cells specified by the gene stripe (sr). Flight mu...
Muscle is a highly conserved and specialized tissue in animals. Failure of proper muscle patterning,...
Copyright © 2005 GeneticsWe describe a developmental, genetic, and molecular analysis of the sole Dr...
AbstractThe direct flight muscles (DFMs) of Drosophila allow for the fine control of wing position n...
It is unknown how the general patterning mechanisms that subdivide the mesoderm initiate different p...
We use the Drosophila system to define how genes control muscle development and function. Many of th...
A Drosophila screen aimed at furthering understanding of how tissues develop from the mesoderm has i...
The transcriptional regulation of muscle development involves several complex processes that must wo...
The voluntary skeletal muscles in vertebrates are the main effectors of locomotion. Processes and ge...
Il existe de nombreuses similitudes au niveau des mécanismes génétiques et moléculaires qui contrôle...
In Drosophila, stripe (sr) gene function is required for normal muscle development. Some mutations d...
We have cloned and molecularly characterized the Drosophila gene stripe (sr) required for muscle-pat...
This article reports the production of an EP-element insertion library with more than 3,700 unique t...
The muscle fiber is a structural unit of skeletal muscle in many organisms. Muscle fiber composition...
The mechanisms that determine the final topology of skeletal muscles remain largely unknown. We have...
In Drosophila, muscles attach to epidermal tendon cells specified by the gene stripe (sr). Flight mu...
Muscle is a highly conserved and specialized tissue in animals. Failure of proper muscle patterning,...
Copyright © 2005 GeneticsWe describe a developmental, genetic, and molecular analysis of the sole Dr...
AbstractThe direct flight muscles (DFMs) of Drosophila allow for the fine control of wing position n...
It is unknown how the general patterning mechanisms that subdivide the mesoderm initiate different p...
We use the Drosophila system to define how genes control muscle development and function. Many of th...
A Drosophila screen aimed at furthering understanding of how tissues develop from the mesoderm has i...
The transcriptional regulation of muscle development involves several complex processes that must wo...
The voluntary skeletal muscles in vertebrates are the main effectors of locomotion. Processes and ge...
Il existe de nombreuses similitudes au niveau des mécanismes génétiques et moléculaires qui contrôle...