Gati, Cornelius
Assistant Professor of Biological Sciences
Structural biology, biophysics and pharmacology, with a focus on GPCRs and membrane transporters.
Hires, Samuel Andrew
Associate Professor of Biological Sciences
The Hires lab is investigating the basis of biological intelligence. Over the past decade we developed numerous imaging tools to record large-scale patterns of neural activity that are used by thousands of neuroscience labs. These have resulted in hundreds of publicly available datasets embedded with rich representations of neural activity. We are now developing analytical tools, using recent AI developments, to ultimately distill undiscovered principles of biological intelligence from these datasets.
Holschneider, Daniel P.
Professor of Psychiatry & the Behavioral Sciences
Our laboratory focuses on brain imaging in awake, behaving rodents. We use classic methods like autoradiography and positron emission tomography, along with histologic approaches and 3D brain reconstruction. We have been amongst the first to adapt analytic methods that are part of the human functional neuroimaging toolbox (statistical parametric mapping, functional connectivity, network analysis) to autoradiographic and histologic whole brain data sets. This enables voxel-based exploration of cerebral function in models of dopaminergic deafferentation, Huntington’s Disease, brain injury, fear, stress, hyperalgesia, gut microflora alterations, and chemogenetic knockdown. Our expertise includes functional brain mapping, animal behavior, physiologic monitoring (EEG, EMG, EKG, cardiac output), and histochemistry.
Ichida, Justin
Associate Professor of Stem Cell Biology and Regenerative Medicine
We are interested in understanding mechanisms underlying neurodegenerative and neurodevelopmental diseases. We also aim to develop new therapeutic strategies for these disorders.
Kutch, Jason
Associate Professor of Biokinesiology and Physical Therapy
Dr. Kutch investigates how brain dysfunction contributes to chronic pelvic pain and other chronic overlapping pain conditions (COPCs). His current research is focused on developing non-invasive brain stimulation and immersive virtual reality approaches for augmenting chronic pain treatment.
