Mesoderm development is a highly regulated and time dependent process during embryogenesis. The determination of mesodermal cells and their cell fate occurs early in embryonic development and is controlled by the mesodermal fate gene twist. Interestingly, after the expression of this mesodermal marker has declined in later embryonic stages, it persists in distinct cells, the adult muscle precursors (AMPs), which remain undifferentiated until the pupal stage. During the transition from the pupal stage to the adult fly, much of the musculature is rebuilt from these AMPs. Adult muscle precursor cells share certain properties of vertebrate muscle stem cells, e.g. they are generated by Numb-dependent asymmetric cell division, they are able to renew themselves, they remain quiescent, and are able to replace damaged cells and to adopt their properties. However, the regulation of AMP development is not very well understood. Therefore, I plan to determine the role of known genes, particularly of twist, in these cells as well as to perform a genetic screen to identify new genes involved in the regulation of AMPs. The functional features of these genes will shed new light on AMP development and the obtained data may further support the notion that AMPs are akin to muscle stem cells in Drosophila melanogaster.

DFG-Verfahren Forschungsstipendien

Internationaler Bezug USA

Gastgeber Professor Dr. Manfred Frasch