AbstractSkeletal muscle comes in two fundamental flavours, slow and fast, which determine physiological performance. Zebrafish screens have provided a handle on the molecular mechanism driving slow muscle formation. The transcriptional repressor Blimp1 has now been shown to be required in embryonic slow muscle precursor cells
International audienceMuscles are composed of multinucleated muscle fibers with different contractil...
Skeletal muscles are composed of different fiber types, largely defined by differential expression o...
To address questions of stem cell diversity during skeletal myogenesis, a Brainbow-like genetic cell...
AbstractSkeletal muscle comes in two fundamental flavours, slow and fast, which determine physiologi...
AbstractSkeletal muscles of vertebrates are typically composed of slow- and fast-twitch fibers that ...
AbstractThe specification and morphogenesis of slow and fast twitch muscle fibers are crucial for mu...
AbstractVertebrate muscle development begins with the patterning of the paraxial mesoderm by inducti...
AbstractIn zebrafish, skeletal muscle precursors can adopt at least three distinct fates: fast, non-...
AbstractIt is well known that slow and fast muscles are used for long-term sustained movement and sh...
AbstractSkeletal muscle fibers express members of the myosin heavy chain (MyHC) gene family in a fib...
AbstractEach skeletal muscle contains a fixed ratio of fast and slow myofibers that are distributed ...
Vertebrate muscle development begins with the patterning of the paraxial mesoderm by inductive signa...
The skeletal muscle is a complex tissue mainly composed of a mixture of fast and slow myofibers. The...
AbstractVertebrate skeletal muscles arise from two major types of precursor cell populations which d...
AbstractFushi-tarazu factor 1a (Ftz-F1a, Ff1a, Nr5a2) is a nuclear receptor with diverse functions i...
International audienceMuscles are composed of multinucleated muscle fibers with different contractil...
Skeletal muscles are composed of different fiber types, largely defined by differential expression o...
To address questions of stem cell diversity during skeletal myogenesis, a Brainbow-like genetic cell...
AbstractSkeletal muscle comes in two fundamental flavours, slow and fast, which determine physiologi...
AbstractSkeletal muscles of vertebrates are typically composed of slow- and fast-twitch fibers that ...
AbstractThe specification and morphogenesis of slow and fast twitch muscle fibers are crucial for mu...
AbstractVertebrate muscle development begins with the patterning of the paraxial mesoderm by inducti...
AbstractIn zebrafish, skeletal muscle precursors can adopt at least three distinct fates: fast, non-...
AbstractIt is well known that slow and fast muscles are used for long-term sustained movement and sh...
AbstractSkeletal muscle fibers express members of the myosin heavy chain (MyHC) gene family in a fib...
AbstractEach skeletal muscle contains a fixed ratio of fast and slow myofibers that are distributed ...
Vertebrate muscle development begins with the patterning of the paraxial mesoderm by inductive signa...
The skeletal muscle is a complex tissue mainly composed of a mixture of fast and slow myofibers. The...
AbstractVertebrate skeletal muscles arise from two major types of precursor cell populations which d...
AbstractFushi-tarazu factor 1a (Ftz-F1a, Ff1a, Nr5a2) is a nuclear receptor with diverse functions i...
International audienceMuscles are composed of multinucleated muscle fibers with different contractil...
Skeletal muscles are composed of different fiber types, largely defined by differential expression o...
To address questions of stem cell diversity during skeletal myogenesis, a Brainbow-like genetic cell...
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