Research Faculty
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Kenneth Campellone, Associate Professor, PhD Inherited diseases; genetic modifiers of disease; aging, autophagy, and apoptosis Campellone Lab Website |
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Leighton Core, Associate Professor; PhD RNA transcription and processing; maintenance of cellular states; genomic techniques and bioinformatics Core Lab Website |
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Jelena Erceg, Assistant Professor, PhD 4D genome architecture, functional genomics, epi/genetics, gene regulation, developmental biology, evolution Erceg Website |
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Stacey Hanlon, Assistant Professor, PhD How does the cell ensure that meiosis is fair? The Hanlon Lab studies genetic renegades and the mechanisms in place to keep selfish genetic elements from gaming the system. We use classical genetic and modern cell biology techniques to examine the dynamics of selfish B chromosomes during female meiosis in the fruit fly, Drosophila melanogaster. Hanlon Lab |
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Barbara Mellone, Professor, PhD Genome inheritance and stability, chromosome dynamics during cell division, epigenetics Mellone Lab Website |
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Craig Nelson, Associate Professor, PhD Molecular biological, genetic, genomic, and computational analysis of the evolution of developmental processes and organismal complexity. Nelson Lab Website |
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Michael O’Neill, Associate Professor, PhD Molecular genetics of vertebrate development; molecular mechanisms of genomic imprinting; evolution of genomic imprinting; genetics of imprinting and behavior |
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Rachel O’Neill, Board of Trustees Distinguished Professor, PhD Genome stability; cancer genomics; genome function, evolution, and remodeling; retroelements; epigenetics R. O'Neill Lab Website |
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Ping Zhang, Associate Professor, PhD Drosophila chromosome structure and function; P element insertional mutagenesis; unusual transcriptional regulation of heterochromatin; Y chromosome genes required for spermatogenesis. |
Teaching Faculty
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Justin Kratovil, Assistant Professor In-Residence; PhD |
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Mark Longo, Assistant Professor In-Residence, PhD |