Browse wide-ranging research at the frontiers of neuroscience supported by Wu Tsai Neurosciences Institute grants, awards, and training fellowships.
Projects
Investigating the role of a human-specific repeat element in neuropsychiatric disease risk and cerebellar function
Quantifying auditory-vocal affect in human social communication
This proposal brings together faculty with this diverse expertise to develop the first gold standard test of auditory-vocal affect. Once developed, validated, and normed, we will deploy this test in the clinical context of autism to quantify impairments and direct neurobiological investigation.
Neurodevelopment Initiative
Elucidating the development of the infant’s brain structure & function.
NeuroPlant Initiative
The NeuroPlant Initiative aims to leverage a botanical armamentarium to manipulate the brain — by building a pipeline to explore chemicals synthesized in plants as potential new treatments for neurological disease and as a window into the chemistry of the brain.
Rapid brain-wide optogenetic screening with a noninvasive, dynamically programmable in vivo light source
Elucidating the biophysical mechanisms of latrophilin activation in excitatory synapse formation
Mapping the Mitophagy Network in Parkinson’s Disease
We will comprehensively define the gene network associated with mitochondrial dysfunction in Parkinson's disease using a cutting-edge technology, CRISPR, to understand how these nerve cells die in PD and how we can reverse the cell death to treat the disease.
Magnetic Recording and Stimulation of Neural Tissue
We propose a new magnetic sensor that is sensitive to picoTesla-scale fields, a localized magnetic stimulator with small form-factor, and a seamless integration of both systems for applications in experimental and clinical neuroscience.
Inflammation, Major Histocompatibility Class I and human brain development
Maternal infection is linked to increased risk of neurodevelopmental disorders such as autism and schizophrenia. This proposal examines how virus-associated cytokines, specifically interferons, affect human neurons modeled in brain organoids or studied directly in fetal brain samples.