PhD Program: Neuroscience
| Name | PhD Program | Research Interest | Publications |
|---|---|---|
| Reissner, Kathryn WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Research in our lab is focused on understanding how cocaine abuse affects glial cell physiology, in particular neuron-astrocyte communication. We utilize the rat cocaine self-administration/reinstatement model, which allows us to test hypotheses regarding not only how chronic cocaine use affects properties of astrocytes and the tripartite synapse, but also how compounds affecting glial cells may influence synaptic processing within the brain’s reward neurocircuitry and behavioral measures of drug seeking. |
| McElligott, Zoe WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Research in the McElligott lab focuses on the circuits and plasticity that underlie the development and manifestation of psychiatric illness, specifically disorders on the affective spectrum including alcohol use disorders, drug abuse and anxiety disorders. The lab has expertise in studying neurotransmission from the level of signaling in individual cells through behavior utilizing a variety of techniques including: whole-cell electrophysiology, in vivo and ex vivo fast-scan cyclic voltammetry (FSCV), circuit manipulations (optogenetics, chemogenetics, caspase ablation), and behavioral assays. There are several ongoing projects in the lab. One area we are focused on explores the role of neurons in the central nucleus of the amygdala (CeA) that express the neuropeptide neurotensin and the role these neurons play in alcohol related phenotypes. Additionally we are interested in exploring how norepinephrine modulates neurotransmission within the brain and how the norepinephrine system itself is modulated in models of substance abuse and post-traumatic stress. Beyond these studies, we are actively engaged in several other collaborative projects with other labs at UNC, as well as around the world. |
| Stein, Jason WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
We are a lab exploring how variations in the genome change the structure and development of the brain, and in doing so, create risk for neuropsychiatric illness. We study genetic effects on multiple aspects of the human brain, from macroscale phenotypes like gross human brain structure measured with MRI to molecular phenotypes like gene expression and chromatin accessibility measured with genome-sequencing technologies. We also use neural progenitor cells as a modifiable and high fidelity model system to understand how disease-associated variants affect brain development. |
| Cohen, Jessica WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
The Cohen Lab investigates how functional brain networks in humans interact and reconfigure when confronted with changing cognitive demands, when experiencing transformations across development, and when facing disruptions in healthy functioning due to disease. We are also interested in how this neural flexibility contributes to flexibility in control and the ability to learn, as well as the consequences of dysfunction in this flexibility. We use behavioral, neuroimaging, and clinical approaches taken from neuroscience, psychology, and mathematics to address our research questions. |
| Shiau, Celia WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
The Shiau Lab is integrating in vivo imaging, genetics, genome editing, functional genomics, bioinformatics, and cell biology to uncover and understand innate immune functions in development and disease. From single genes to individual cells to whole organism, we are using the vertebrate zebrafish model to reveal and connect mechanisms at multiple scales. Of particular interest are 1) the genetic regulation of macrophage activation to prevent inappropriate inflammatory and autoimmune conditions, and 2) how different tissue-resident macrophages impact vertebrate development and homeostasis particularly in the brain and gut, such as the role of microglia in brain development and animal behavior. |