Helen Barbas

Our research centers on the organization of the prefrontal cortex and its role in central executive functions in primates. The goal is to investigate prefrontal pathways that interface with both excitatory and inhibitory neurons in cortical and subcortical structures that may provide the basis for the selection of relevant information and suppression of irrelevant information […]

Chand Chandrasekaran

I conduct research to better understand how the brain processes complex uni- and multisensory input and generates the appropriate action at the right time. My research is guided by the ethos that understanding how the brain works will help us build better interventions for people with disabilities involving the nervous system. I expect my research […]

Lynne Chantranupong

Neurons are extremely specialized cells. They can generate intense electrical activity, maintain highly complex morphologies, and survive our entire lifetimes. Moreover, neurons are incredibly diverse, exhibiting a wide range of activity states, shapes, and sizes. These specializations confer different needs and liabilities to neurons, which they must address by adapting their molecular pathways to maintain […]

Jerry Chen

Investigating Long-Range Neocortical Networks: A longstanding goal in neuroscience is to achieve a complete understanding of the central nervous system, from the brain as a whole all the way down to individual neurons and synapses. A fundamental challenge in achieving this goal is bridging knowledge gaps impeded by the difficulty in integrating experimental measurements across […]

Ian Davison

Our lab studies the neural circuits that underlie perception and behavior in the olfactory system. Smell is notorious for its links to emotion and memory, and in the animal world, it is also a powerful trigger of innate behaviors like aggression, courtship, and fear. Our overall goal is to establish the circuit architecture and computational […]

Anna Devor

We are an imaging lab. We specialize in imaging neuronal, glial, vascular, and metabolic activity in brains of living and behaving experimental animals. We also use stem-cell-derived human neuronal networks. We focus on obtaining high resolution, sensitivity and specificity optical measurements and combine optical imaging with electrophysiological recordings and functional Magnetic Resonance Imaging (fMRI). Our […]

Michael Economo

Prof. Economo’s laboratory studies the structure and function of the neural circuits distributed across the brain that control movement. His research leverages cutting edge optical, electrophysiological, and genetic tools for recording and manipulating neural activity during behavior and for illuminating the structure of neural circuits.

Christopher Gabel

Prof. Gabel’s research program is focused on the development and application of femtosecond laser surgery and optical neurophysiology to the study of the nervous system of the nematode worm C. elegans. Using tightly focused pulses from an ultrafast laser, we can ablate regions of biological tissue with submicron precision, making it possible to snip individual […]

Michael Hasselmo

Research in the Hasselmo Laboratory concerns the cortical dynamics of memory-guided behavior, including effects of neuromodulation and theta rhythm oscillations in cortical function. Neurophysiological techniques are used to analyze intrinsic and synaptic properties of cortical circuits in rodents and to explore the effects of modulators on these properties. Computational modeling is used to link these […]

Mark Howe

My laboratory seeks to identify neural circuit principles responsible for adaptively motivating, selecting, and learning actions in changing environments. We focus on the basal ganglia, a set of brain regions implicated in regulating motor and cognitive functions on multiple timescales. A range of techniques are employed including two-photon microscopy, fiber photometry, and electrophysiology in behaving […]