Gene expression analysis of potential morphogen signalling modifying factors in Panarthropoda.

BACKGROUND: Morphogen signalling represents a key mechanism of developmental processes during animal development. Previously, several evolutionary conserved morphogen signalling pathways have been identified, and their players such as the morphogen receptors, morphogen modulating factors (MMFs) and the morphogens themselves have been studied. MMFs are factors that regulate morphogen distribution and activity. The interactions of MMFs with different morphogen signalling pathways such as Wnt signalling, Hedgehog (Hh) signalling and Decapentaplegic (Dpp) signalling are complex because some of the MMFs have been shown to interact with more than one signalling pathway, and depending on genetic context, to have different, biphasic or even opposing function. This complicates the interpretation of expression data and functional data of MMFs and may be one reason why data on MMFs in other arthropods than Drosophila are scarce or totally lacking.

RESULTS: As a first step to a better understanding of the potential roles of MMFs in arthropod development, we investigate here the embryonic expression patterns of division abnormally delayed ( dally ), dally-like protein ( dlp ), shifted ( shf ) and secreted frizzled-related protein 125 ( sFRP125 ) and sFRP34 in the beetle Tribolium castaneum , the spider Parasteatoda tepidariorum , the millipede Glomeris marginata and the onychophoran Euperipatoides kanangrensis . This pioneer study represents the first comprehensive comparative data set of these genes in panarthropods.

CONCLUSIONS: Expression profiles reveal a high degree of diversity, suggesting that MMFs may represent highly evolvable nodes in otherwise conserved gene regulatory networks. Conserved aspects of MMF expression, however, appear to concern function in segmentation and limb development, two of the key topics of evolutionary developmental research.