Li Zhang, PhD

Professor of Physiology & Neuroscience

Director of the Center for Neural Circuits and Sensory Processing Disorders

Director of the Ph.D. Program in Neuromedicine

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Overview

As systems neuroscientists, our overarching goal is to decipher the brain’s circuitry in order to understand how perception and behavior are generated and regulated, how brain adapts to dynamic changes in the external environment, and how specific alterations of brain function contribute to neurological and psychiatric disorders. To tackle these complex questions, we focus on resolving the architecture of neural circuits—uncovering how neurons are wired together to form the structural basis of brain function.

Technical innovation is central to our efforts in navigating the complexity of brain circuits. Over the past several years, we have dedicated significant efforts to developing molecular, genetic, electrophysiological, and imaging techniques aimed at elucidating neural circuits that underlie both local neuronal computation and behavioral control. We now employ a comprehensive suite of state-of-the-art methodologies—including in vivo and in vitro electrophysiology, two-photon calcium imaging, neural modeling, anatomical tracing, and optogenetics—to build an integrative understanding of neural circuits composed of diverse cell types.

Publications

  • Reviving-like prosocial behavior in response to unconscious or dead conspecifics in rodents Science. 2025 02 21; 387(6736):eadq2677. . View in PubMed
  • The medial preoptic area mediates depressive-like behaviors induced by ovarian hormone withdrawal through distinct GABAergic projections Nat Neurosci. 2023 09; 26(9):1529-1540. . View in PubMed
  • Glutamatergic and GABAergic neurons in pontine central gray mediate opposing valence-specific behaviors through a global networkNeuron. 2023 05 03; 111(9):1486-1503. e7. . View in PubMed
  • Medial preoptic area antagonistically mediates stress-induced anxiety and parental behavior Nat Neurosci. 2021 04; 24(4):516-528. . View in PubMed
  • AAV-Mediated Anterograde Transsynaptic Tagging: Mapping Corticocollicular Input-Defined Neural Pathways for Defense Behaviors Neuron. 2017 Jan 04; 93(1):33-47. . View in PubMed
  • Fine-tuning of pre-balanced excitation and inhibition during auditory cortical development Nature. 2010 Jun 17; 465(7300):927-31. . View in PubMed