Analysis of a key regulatory region upstream of the Myf5 gene reveals multiple phases of myogenesis, orchestrated at each site by a combination of elements dispersed throughout the locus

Myf5 is the first myogenic regulatory factor to be expressed in the mouse embryo and it determines the entry of cells into the skeletal muscle programme. A region situated between -58 kb and -48 kb from the gene directs Myf5 transcription at sites where muscles will form. We now show that this region consists of a number of distinct regulatory elements that specifically target sites of myogenesis in the somite, limbs and hypoglossal cord, and also sites of Myf5 transcription in the central nervous system. Deletion of these sequences in the context of the locus shows that elements within the region are essential, and also reveals the combinatorial complexity of the transcriptional regulation of Myf5. Both within the -58 kb to -48 kb region and elsewhere in the locus, multiple sequences are present that direct transcription in subdomains of a single site during development, thus revealing distinct phases of myogenesis when subpopulations of progenitor cells enter the programme of skeletal muscle differentiation.This work in M.B.'s laboratory was supported by the Pasteur Institute and the CNRS and by grants from the ACI Integrative Biology Programme of the MJER, the AFM and the European Community (QLK3-CT-99/02). J.H. benefited from fellowships from ARC and the AFM, L.B. from funding from the MJER, and T.C. from fellowships from NIH and the AFM. The work in P.R.'s laboratory was supported by a grant from The Institute of Cancer Research.Peer reviewe