Willow Gabriel PhD Student Developing Tardigrades as a New Model for Studying the Evolution of Development Studying development in diverse taxa can address a central issue in evolutionary biology: how morphological diversity arises through the evolution of developmental mechanisms. Two of the best-studied developmental model organisms, the arthropod Drosophila and the nematode C. elegans, have been found to belong to a single protostome superclade, the Ecdysozoa.  This finding suggests that a closely related ecdysozoan phylum could serve as a valuable model for studying how developmental mechanisms evolve.  Other ecdysozoan phyla have been used as study organisms, but their use has been limited by a paucity of information on developmental genes and of basic developmental data such as cell lineages in systems with stereotyped development.  Tardigrades, also called water bears, make up a phylum of microscopic ecdysozoan animals.  We have studied a tardigrade, Hypsibius dujardini, to determine if it can be a useful model for studies of how development evolves. We developed immunostaining methods for tardigrade embryos, and we used cross-reactive antibodies to investigate the expression of homologs of the pair-rule gene paired (Pax3/7) and the segment polarity gene engrailed in H. dujardini. We find that H. dujardini Pax3/7 protein localizes not in a pair-rule pattern but in a segmentally iterated pattern, after the segments are established, in regions of the embryo where neurons later arise. Engrailed protein localizes in the posterior ectoderm of each segment before ectodermal segmentation is apparent. Together with previous results from others, our data support the conclusions that the pair-rule function of Pax3/7 is specific to the arthropods, that some of the ancient functions of Pax3/7 and Engrailed in ancestral bilaterians may have been in neurogenesis, and that Engrailed may have a function in establishing morphological boundaries between segments that is conserved at least among the Panarthropoda. Tardigrades - movies and pictures! Publications: Gabriel, WN, R McNuff, SK Patel, TR Gregory, WR Jeck, CD Jones and B Goldstein. The Tardigrade Hypsibius dujardini, a New Model for Studying the Evolution of Development.  Developmental Biology (in press). Gabriel, WN and B Goldstein (2007) Segmental Expression of Pax3/7 and Engrailed Homologs in Tardigrade Development.  Development Genes and Evolution 217:421-433. Cheeks, RJ, JC Canman, WN Gabriel, N Meyer, S Strome and B Goldstein (2004) C. elegans PAR Proteins Function by Mobilizing and Stabilizing Asymmetrically Localized Protein Complexes. Current Biology 14:851-862 Talks at National Meetings: 2005 Society for Integrative and Comparative Biology Annual Meeting, San Diego - Developing Tardigrades as a New Model for Studying the Evolution of Development 2005 The Developmental Basis of Evolutionary Change, Chicago - Tardigrades as a New Model for Studying the Evolution of Development Willow's previous work: Gabriel WN, Blumberg B, Sutton S, Place AR, and Lance VA (2001) Alligator aromatase cDNA sequence and its expression in embryos at male and female incubation temperatures. J Exp Zool. 2001 Sep 15;290(5):439-48 Goldstein lab