2022-2023
| Name | Research Interest |
|---|---|
| Ashrafi Lab | Mechanisms of metabolic plasticity in neurotransmission, metabolic dysfunction in neurodegeneration |
| Blumer Lab | Discovery and therapeutic targeting of tumor cell signaling mechanisms |
| Crewe Lab | Understand extracellular vesicle (EV)-mediated signaling during homeostatic and pathologic metabolic regulation |
| Fu Lab | Membrane organizers: SPFH Proteins |
| Goldfarb Lab | Mass Spectrometry, Proteomics, Bioinformatics |
| Jansen Lab | Tropomyosins and coronins role as regulatory hubs that generate different actin filament populations optimally suited to mediate intracellular trafficking, cell migration, cytokinesis, cell adhesion |
| Kast Lab | Cellular and molecular mechanisms that drive the biogenesis and dynamics of intracellular membrane compartments |
| Klyachko Lab | Mechanisms of synaptic transmission in healthy and disease conditions |
| Marti Lab | Intersection of imaging, artificial intelligence, and biology. |
| Pagliarini Lab | Biochemical underpinnings of mitochondrial dysfunction in human diseases |
| Piston Lab | Understanding glucose-regulated hormone secretion from the islet of Langerhans |
| Stewart Lab | Senescence, Cancer, Immunotherapy, Therapy-induced comorbidities, Age-related cancer drivers |
| Stratman Lab | Understanding mechanical contributions to vascular development and disease |
| True Lab | Biological consequences of yeast prions |
To arrange a rotation in our department, please contact your faculty of interest directly. For further inquires, please visit the DBBS website.