Marsh Life Science Building, Rm 120B
109 Carrigan Dr
Burlington, VT 05405
United States
- Ph.D. (2001) Harvard University, Department of Cell Biology, Harvard Medical School
- Postdoctoral Fellow (2001 - 2003) Division of Basic Sciences, Fred Hutchinson Cancer Research Center
- Postdoctoral Fellow (2003 - 2006) Department of Cell Biology, Harvard Medical School
BIO
Research in the Ballif lab is primarily focused on elucidating molecular mechanisms of signal transduction with two major emphases: (A) genetically-defined signaling pathways regulating vertebrate brain development and (B) core signaling pathways regulating cell proliferation, growth and survival. In addition to biochemical and cell biological approaches, we employ mass spectrometry-based proteomics as a primary tool to identify and quantitatively monitor proteins, their modifications and their interactions with other proteins following acute signal administration or across developmental stages. We are also using zebrafish, drawing on the expertise of our sister lab headed by Alicia Ebert, as an organismal model system to study signaling pathways regulating development, particularly neuronal positioning.
A second focus of our work involves developing and applying proteomic methodology to advance diverse lines of biological inquiry, some of which have had little to no interface with proteomics. This makes these projects both exciting and challenging. These collaborative projects range from the identification of novel human blood group antigens; to the identification of host proteins that interact with arenavirus proteins; to proteomic characterizations of pitcher plant ecosystems, and Chagas Disease vector blood meals.
Area(s) of expertise
Signal transduction, proteomics, neuroscience
Bio
Research in the Ballif lab is primarily focused on elucidating molecular mechanisms of signal transduction with two major emphases: (A) genetically-defined signaling pathways regulating vertebrate brain development and (B) core signaling pathways regulating cell proliferation, growth and survival. In addition to biochemical and cell biological approaches, we employ mass spectrometry-based proteomics as a primary tool to identify and quantitatively monitor proteins, their modifications and their interactions with other proteins following acute signal administration or across developmental stages. We are also using zebrafish, drawing on the expertise of our sister lab headed by Alicia Ebert, as an organismal model system to study signaling pathways regulating development, particularly neuronal positioning.
A second focus of our work involves developing and applying proteomic methodology to advance diverse lines of biological inquiry, some of which have had little to no interface with proteomics. This makes these projects both exciting and challenging. These collaborative projects range from the identification of novel human blood group antigens; to the identification of host proteins that interact with arenavirus proteins; to proteomic characterizations of pitcher plant ecosystems, and Chagas Disease vector blood meals.
Areas of Expertise
Signal transduction, proteomics, neuroscience