Biological effects of FoxJ2 over-expression.

As reported previously, we have extensively studied FoxJ2, a member of the Fork Head transcription factors family. While the biochemical and functional structures of this transcription factor are well understood, its biological function remains unknown. Here, we present data that address this point using transgenic mouse technology.

EVG, the remnants of a primordial bilaterian's synteny of functionally unrelated genes.

Extant genomes are the result of repeated duplications and subsequent divergence of primordial genes that assembled the genomes of the first living beings. Increased information on genome maps of different species is revealing conserved syntenies among different vertebrate taxa, which allow to trace back the history of current chromosomes. However, inferring neighboring relationships between genes of more primitive genomes has proven to be very difficult.

Functional domains of FOXJ2.

FOXJ2 is a fork head transcriptional activator, the expression of which starts very early in embryonic development and it is distributed widely in the adult. Here, we describe the characterization of domains that are important for its function. FOXJ2 is localized constitutively at the nucleus of the cell.

DmFoxF, a novel Drosophila fork head factor expressed in visceral mesoderm.

DmFoxF is a novel Drosophila fork head domain factor, which is expressed in the visceral mesoderm of the embryo. Our data suggest that DmFoxF is the fly orthologue of the vertebrates FOXF1 and FOXF2 transcription factors. DmFoxF shares homology with FOXF1 and FOXF2 in its fork head domain, and it is able to specifically bind DNA sequences recognized by these vertebrate fork head factors.

Fhx (Foxj2) expression is activated during spermatogenesis and very early in embryonic development.

FHX (FOXJ2) is a recently characterized human fork head transcriptional activator that binds DNA with a dual sequence specificity. We have cloned the cDNA for the mouse orthologue Foxj2 and characterized its expression in the gonads and along the early pre-implantation development of the mouse. In the testis, Foxj2 is expressed from pachytene spermatocytes to round spermatids, but not in spermatogonia.