The goal of the research in the Albers lab is to elucidate the pathogenic actions and physiological functions of genes and mechanisms that cause... Read more about Mark Albers
The goal of my lab is to understand the role of corticolimbic areas in guiding attention to, and imagery, learning and memory of, motivationally-salient...
Matthew P. Anderson, M.D., Ph.D., is Director of Neuropathology, Beth Israel Deaconess Medical Center; Neuropathologist of Autism BrainNet; and Faculty,... Read more about Matthew Peter Anderson
We are a collaborative group of genome editing scientists at the Translational Neuroscience Center of Boston Children’s Hospital and Harvard Medical...
Our lab is focused on the deep-molecular characterization of a clinically well-defined cohort of patients with neurodegenerative diseases anchored in genomic... Read more about Bruno A. Benitez
CNS injury, including spinal cord damage, stroke, and certain neurodegenerative diseases, can lead to permanent and devastating functional losses. Our primary... Read more about Larry I. Benowitz
Current investigations in our laboratory are aimed at understanding the molecular and cellular pathology affecting brain circuits involved in psychiatric... Read more about Sabina Berretta
My laboratory focuses on translational research in primary and metastatic tumors of the central nervous system (CNS). Using genomic and transcriptomics...
The Carlezon lab is primarily interested in the biological basis and treatment of psychiatric illness, specifically nature/nurture issues as they relate...
We are interested in the mechanisms that direct development and degeneration of the central nervous system (CNS) of vertebrates. We are focusing our...
Motivational states are the brain's way of matching our behaviors to our needs and capacities: we eat when we're hungry and sleep when we're sleepy—but we...
The goal of our lab is to understand the neurobiological mechanisms of ecologically and evolutionarily relevant behaviors using techniques drawn from...
Only less than 2% of the human genome encodes proteins. The rest non-coding part has long been called ‘junk’ DNA. However, we found that some of the non-...