We are interested in identifying trans acting factors which control cuticular collagen gene expression. Sequences sufficient for regulated expression of
dpy-7 appear to reside relatively close to the initiator ATG since the wild type gene only requires 310bp of 5' flanking sequence for transformation repair of phenotype. We have analysed sequences necessary and sufficient for
dpy-7 expression using lac-Z fusions and we have identified a 95bp fragment, encompassing the transcritional start sites, which is sufficient to produce lac-Z expression predominantly, or possibly exclusively, in hypodermal cells. This fragment includes a region in which 65 out of 72bp are conserved in the 5' flank of the C.briggsae
dpy-7 homolog and interspecies transformation rescue and lac-Z fusion experiments have shown that the
dpy-7 cis regulatory elements are functionally conserved. A 15bp deletion at the 5' end of this homology which removes a AGATAA motif, also present in C.briggsae, completely ablates lac-Z expression . We are attempting to identify transcription factors which bind to this motif by South Western expression library screening. We are also searching for new C.elegans GATA factor homologs with a particular interest in any which are expressed in hypodermal cells postembryonically.