The Daniel Baugh Institute (DBI) focuses on the development of mammalian systems biology by combining experimental studies of biomedical problems with matched computational and mathematical analyses and approaches. The computational aspect of the program is concerned with studying neuronal adaptive mechanisms using multi-scale simulations involving gene regulatory networks, intracellular signaling networks and membrane biophysics using hybrid deterministic/stochastic models.
Benefits and salary commensurate with experience and include health insurance. The complexity of the relevant technology requires at least a two-year initial commitment.
We are looking to add to our team driven and self-motivated individuals who are interested in working in a uniquely collaborative group and receive interdisciplinary training in a highly stimulating and diverse environment.
Thomas Jefferson University is an Affirmative Action Equal Opportunity Employer. Women and members of minorities are encouraged to apply.
Daniel Baugh Institute
- Mitochondrial Ca2+ and regulation of the permeability transition pore
- Pattern analysis uncovers a chronic ethanol-induced disruption of the switchlike dynamics of C/EBP-β and C/EBP-α genome-wide binding during liver regeneration
- Single-cell transcriptional analysis reveals novel neuronal phenotypes and interaction networks involved in the central circadian clock
- Systemic leukotriene B
4receptor antagonism lowers arterial blood pressure and improves autonomic function in the spontaneously hypertensive rat
- Computational Modeling of Spatiotemporal Ca2+ Signal Propagation Along Hepatocyte Cords