In the Magie lab we are broadly interested in the cellular and molecular mechanisms underlying morphogenesis, the development of form and structure in the embryo, and the ways these mechanisms have evolved to generate animal diversity.  Our primary model organism is the starlet sea anemone, Nematostella vectensis, an anthozoan cnidarian.  Cnidarians are the sister group to the bilaterians, which are bilaterally-symmetric organisms such as the fruit fly, mouse and human.  Studies with Nematostella therefore promise to provide important insights into morphogenetic mechanisms at the base of the metazoan tree, as well as how those mechanisms have been altered during bilaterian evolution to generate the amazing diversity of form found across the animal kingdom. Cnidarians as a group are also extremely diverse in their life history and developmental strategies, opening up many avenues for comparative approaches.


To learn more about our research, click on the Research link, above.

Evolution of Morphogenetic Mechanisms

The MAGIE LAB
Quinnipiac University
Department of BiologICAL SCIENCEShttp://www.quinnipiac.edu/http://www.quinnipiac.edu/academics/colleges-schools-and-departments/college-of-arts-and-sciences/departments/biological-sciencesshapeimage_5_link_0shapeimage_5_link_1