O'Loughlin Laboratory
Understanding the gene- and nutrient-gene interaction landscapes of cellular metabolism
Parvaz Laboratory
Studying motivational, social, and affective processes in neuropsychiatric disorders
Pasinetti Laboratory
Studying biology and treatment of destructive inflammatory mechanisms in the brain
Pinto Laboratory
Identifying genes and biological pathways involved in neurodevelopmental disorders
Pereira Laboratory
Understanding the neurobiology of age-related cognitive decline and Alzheimer’s disease using a translational approach
Plevan Laboratory
Studying the neurobiology and neurochemistry of psychiatric conditions such as suicide and drug addiction
Radulescu Laboratory
Building computational models of how cognition changes human behavior in naturalistic environments
Rajbhandari Laboratory
Understanding the reciprocal mechanisms that affect traumatic stress and associated changes in cardiorespiratory functions
Rajan Laboratory
Bringing together brain research and artificial intelligence/machine learning to figure out how the brain works
Raj Laboratory
Focusing on mechanisms underlying the regulation of gene expression and how mechanisms are disrupted in neurodegenerative diseases
Rich Laboratory
Understanding the links between the emergent structure and dynamics of neural activity and advanced cognition
Robakis Laboratory
Using molecular biology and genetics of neurodegeneration to study Alzheimer’s disease
Roussos Laboratory
Focused on discerning the neurobiology of neuropsychiatric illnesses through regulation of gene expression
Rudebeck Laboratory
Exploring interactions between the prefrontal cortex and subcortical structures, related to emotional regulation and decision making
Russo Laboratory
Researching neuroplasticity and behavior
Saez Laboratory
Investigating the neurophysiological and computational basis of human behavior using intracranial recordings in human patients
Salton Laboratory
Investigating how neurotrophic growth factors regulate nervous system development and function
Schadt Laboratory
Constructing molecular networks that define disease states and link molecular biology to physiology
Schaefer Laboratory
Identifying the epigenetic basis of neurodegenerative and psychiatric disorders
Schaffer Laboratory
The Schaffer lab focuses on understanding the computational principles behind broadly distributed signals in the brain, how neural representations change due to ongoing learning, and how neural computation is impacted by psychiatric disorders.
Schiller Laboratory
Discovering neural mechanisms underlying emotion and social cognition in the human brain
Sealfon Laboratory
Using diverse systems biology approaches to study and model the mechanisms of cellular decoding of extracellular stimuli
Shen Laboratory
Performing statistical and integrated analysis of molecular mechanisms of drug addiction and depression
Shuman Laboratory
Finding causal circuit mechanisms that lead to seizures and cognitive deficits in epilepsy
Silverman Laboratory
Characterizing phenotypes and endophenotypes in schizophrenia, dementia, successful aging, and autism for use in molecular genetic studies
Slesinger Laboratory
Focusing on the function of neural circuits in both normal and diseased states
Sokol Laboratory
Exploring various processes in epithelial cells, stem cells, migrating cells, asymmetric division, growth factors, and mechanotransduction
Soriano Laboratory
Exploring the growth factor signaling pathways that have important roles in mouse embryonic development
Stanley Laboratory
Investigating how central and peripheral systems sense and regulate glucose metabolism
Swirski Laboratory
Understanding how leukocytes connect lifestyle stressors with various organ systems
Tankou Laboratory
Investigating the role of the gut microbiome in patients with multiple sclerosis and its mouse model
Varga Laboratory
Understanding the mechanisms of learning, memory, and the role of sleep in memory consolidation
Varghese Laboratory
Quantifying protein and metabolic changes within spatial, cellular, and subcellular context in the brain
Velthorst Laboratory
Understanding functional trajectories of schizophrenia and related neurodevelopmental disorders
Voloudakis Laboratory
Understanding how genetic variation affects the transcriptional and epigenetic landscape by constructing genomic predictive models
Wang Laboratory
Utilizing biological mass spectrometry to probe protein interactions and processing mechanisms of amyloid beta-protein in Alzheimer's disease
Waters Laboratory
Promoting wellness in non-clinical populations and developing individualized brain read-outs for patients
Wright Laboratory
Designing innovative exposure measures and studying a vast array of diseases
Wu (Herbert) Laboratory
Understanding how we respond to sensory stimuli using mouse social and cognitive behaviors
Wu (Xiaoting) Laboratory
Investigating the neural mechanisms of social cognition
Xu Laboratory
Understanding how transcription factors and gene interactions drive progenitor cell development, maintenance, and regeneration in the inner ear and kidney
Yakushin Laboratory
Understanding and developing treatments for balance disorders
Yang Laboratory
Understanding genetic and epigenetic programs that control the development of distinct cell types
Yehuda Laboratory
Understanding of the biology of stress reactions and how to treat them better
Yue Laboratory
Studying molecular and cellular mechanisms of neurodegeneration that cause Parkinson’s, Huntington’s and Alzheimer’s diseases
Zhang Laboratory
Focusing on construction and characterization of multiscale biological networks
Zou Laboratory
Researching molecular mechanisms of how neurons are born, how they extend axons, and why they fail to regenerate after central nervous system injuries