We are concentrating in the analysis of Hox gene function during Drosophila development. More specifically, we study two functions of the Drosophila Hox gene Abdominal-B (Abd-B): the development of the posterior abdomen and genitalia and the formation of testes. In males, the seventh abdominal segment develops during larva but is eliminated by cell extrusion during pupa, and this suppression depends on Abd-B activity. We investigate how the Abd-B protein cooperates with the cofactors Extradenticle and Homothorax to regulate target genes that accomplish segment elimination. This Hox gene also controls development of the genitalia and analia. These two structures rotate 360º during pupal development. This rotation depends on Abd-B and sex determination activity on the genitalia primordium but also on permissive signals from the abdomen: cells in the abdomen have to undergo apoptosis, extrude and eliminate Extracellular matrix to allow correct rotation of the adjacent genital disc

Another objective of our analysis is to elucidate the mechanisms of testes formation. During pupal development the male genital disc everts and contact with the testes; muscle cells migrate from the genital disc, surround the gonads and, subsequently, the testes elongate and coil dextrally. We have found that the Hox gene Abd-B is required in the muscles for the correct development of the testes. Elongation is also prevented if muscle cells are mutant for the Notch pathway or change the sex from male to female. The testes are surrounded by a basal membrane, between muscle cells and cells making spermatogenesis, and in this space there are proteins of the extracellular matrix. We study how the regulation of elements of the Extracellular matrix controls testes elongation during pupa and how Abd-B governs the different pathways to achieve testes morphogenesis. As to the testes dextral coiling, this depends on the activity of the myosin ID, and we have found this is required in the muscles that surround the testes. We use explants of testes and movies to confirm Myosin ID role and also to show how Abd-B regulates the coiling direction: dextral, sinistral or absence of rotation when different genes and signals pathways are modified.