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Funded Research Projects

NeuroDiscovery | SIGF - Graduate Fellowship
Lead Researcher(s): Isabel Low
Behavioral state—such as alertness or exhaustion—dramatically impacts how our brains function. Yet, in spite of the key role that it plays in cognition, how behavioral state influences brain function remains a central mystery in neuroscience.
NeuroDiscovery | SIGF - Graduate Fellowship
Lead Researcher(s): Jeffrey Wang
Developing a platform of biocompatible nanoparticles that uncage a drug payload upon ultrasound application.
NeuroDiscovery | Postdoctoral Fellowship
Lead Researcher(s): Tal Iram
Dr. Iram will use brain intrinsic and systemic regulators of aging, in an attempt to accelerate maturation of human-derived brain organoids. This has the potential to produce the first ever aged human brain 3D cultures and identify factors which accelerate brain aging.
NeuroDiscovery | Postdoctoral Fellowship
Lead Researcher(s): Miguel Garcia
Dr. Miguel Garcia believes that identifying the mechanism of myelin wrapping is important in understanding neural development and is a critical first step towards creating much needed therapeutic approaches to stimulate remyelination in patients with demyelinating diseases.
NeuroDiscovery | Postdoctoral Fellowship
Lead Researcher(s): Jessica Nowicki
By performing a molecular and neural network analysis across behaviorally divergent pair bonding species, Dr. Jessica Nowicki will use the power of comparative analysis to reveal core mechanisms that regulate pair bonding.
NeuroDiscovery | Postdoctoral Fellowship
Lead Researcher(s): Daniel Bear
Dr. Daniel Bear propose to augment state-of-the-art neural networks with two biologically-inspired properties: the ability to represent the physical world as it changes over time and the ability to learn from self-created signals rather than explicit human instruction.
NeuroDiscovery | SIGF - Graduate Fellowship
Lead Researcher(s): Darian Hadjiabadi
Dr. Darian Hadjiabadi aims to identify higher-order features of neuronal circuits responsible for seizure initiation and propagation by quantifying mesoscale-network reorganization in genetic models of zebra sh that faithfully recapitulate seizure dynamics in humans.
NeuroDiscovery | Big Idea
Lead Researcher(s): Thomas Clandinin, Miriam B. Goodman
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.
NeuroDiscovery | Big Idea
Investigating how the brain develops from infancy to adulthood across species, focusing on how the interplay between structural development, functional development, experience and affect brain computations and ultimately behavior.
NeuroDiscovery | Postdoctoral Fellowship
Lead Researcher(s): Erin Gray
Understanding how glia regulate the expression and/or post-translational modification of sodium ion channels may lead to the identification of new pharmaceutical targets for the treatment of pain.

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