Welcome to the the Rogers Lab Website. We are a part of the Department of Biology and the Carolina Center for Genome Sciences at the University of North Carolina at Chapel Hill.

The research in our lab is centered on understanding the mechanisms and principles of cellular movement. Cytoskeletal filaments - composed of actin and microtubules - serve as a structural scaffolding that defines the architecture of the cytoplasm and gives cells the ability to divide, crawl, and change their shapes. We are interested in understanding how cells regulate cytoskeletal dynamics to produce movement. Our primary model system is the fruit fly, Drosophila melanogaster, as it allows us to use functional genomic tools and classical genetic techniques to study gene function at the level of individual cells and during development.

Current projects in the lab address crosstalk between the cytoskeletal networks by microtubule tip-associated proteins, the regulation of centrosome duplication, and the role of actin dynamics in cellular protrusion.

The laboratory is currently supported by funding from the NIH, the American Heart Association, the Consortium for Cell Migration, and the Beckman Foundation.
 

 

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