DWnt-4, a novel Drosophila Wnt gene acts downstream of homeotic complex genes in the visceral mesoderm
Citations Over TimeTop 14% of 1995 papers
Abstract
Wnt genes encode putative cell signalling proteins which play crucial roles during development. From a library of DNA fragments associated, in vivo, with Ultrabithorax proteins, we isolated a novel Drosophila Wnt gene, DWnt-4. Neither a paralog nor an ortholog of the gene exist in the current repertoire of full-length Wnt sequences. DWnt-4 maps close (30 kb) to wingless, suggesting that the two Wnt genes derive from a duplication that occurred early in evolution, since they are significantly diverged in sequence and structure. Developmental expression of DWnt-4 partially overlaps that of wingless. The gene is transcribed following a segment polarity-like pattern in the posterior-most cells of each parasegment of the ectoderm, and at two locations that correspond to parasegments 4 and 8 of the visceral mesoderm. The control of DWnt-4 expression in the visceral mesoderm involves a network of regulatory molecules that includes Ultrabithorax and other proteins from the homeotic complex (HOM-C), as well as the TGF-beta decapentaplegic gene product.
Related Papers
- → Homeotic genes regulate the spatial expression of putative growth factors in the visceral mesoderm of Drosophila embryos(1990)265 cited
- → Modulation of AP and DV signaling pathways by the homeotic gene Ultrabithorax during haltere development in Drosophila(2006)66 cited
- → Direct regulation of decapentaplegic by Ultrabithorax and its role in Drosophila midgut morphogenesis(1994)179 cited
- → Indirect autoregulation of a homeotic Drosophila gene mediated by extracellular signaling.(1993)68 cited
- → Embryonic enhancers in the dpp disk region regulate a second round of Dpp signaling from the dorsal ectoderm to the mesoderm that represses Zfh-1 expression in a subset of pericardial cells(2003)18 cited