Hox repression of a target gene: extradenticle-independent, additive action through multiple monomer binding sites

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Development 129, 3115-3126 (2002)
© 2002 The Company of Biologists Limited

Hox repression of a target gene: extradenticle-independent, additive action through multiple monomer binding sites

Ron Galant, Christopher M. Walsh and Sean B. Carroll^*

Howard Hughes Medical Institute and Laboratory of Molecular Biology, University of Wisconsin, 1525 Linden Drive, Madison, Wisconsin, 53706, USA

*Author for correspondence (e-mail: sbcarrol{at}facstaff.wisc.edu)

Accepted 11 April 2002

Homeotic (Hox) genes regulate the identity of structures alongthe anterior-posterior axis of most animals. The low DNA-bindingspecificities of Hox proteins have raised the question of howthese transcription factors selectively regulate target geneexpression. The discovery that the Extradenticle (Exd)/Pbx andHomothorax (Hth)/Meis proteins act as cofactors for severalHox proteins has advanced the view that interactions with cofactorsare critical to the target selectivity of Hox proteins. It isnot clear, however, to what extent Hox proteins also regulatetarget genes in the absence of cofactors. In Drosophila melanogaster,the Hox protein Ultrabithorax (Ubx) promotes haltere developmentand suppresses wing development by selectively repressing manygenes of the wing-patterning hierarchy, and this activity requiresneither Exd nor Hth function. Here, we show that Ubx directlyregulates a flight appendage-specific cis-regulatory elementof the spalt (sal) gene. We find that multiple monomer Ubx-bindingsites are required to completely repress this cis-element inthe haltere, and that individual Ubx-binding sites are sufficientto mediate its partial repression. These results suggest thatHox proteins can directly regulate target genes in the absenceof the cofactor Extradenticle. We propose that the regulationof some Hox target genes evolves via the accumulation of multipleHox monomer binding sites. Furthermore, because the developmentand morphological diversity of the distal parts of most arthropodand vertebrate appendages involve Hox, but not Exd/Pbx or Hth/Meisproteins, this mode of target gene regulation appears to beimportant for distal appendage development and the evolutionof appendage diversity.

Key words: Serial homology, Ultrabithorax, Hox protein, Appendages, evolution, Drosophila melanogaster

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