The Hamm lab is dedicated to the value, rights, and dignity of all persons. Overt and covert oppression of black people, other people of color, and LGBTQ people is a historical fact and shameful reality which cannot be tolerated. Systemic forces are in place which maintain this status quo, and dismantling this structure will require work from everyone.
Black lives matter.
Winter 2021: The Hamm lab was awarded a five year R01 from the National Institute of Mental Health to study how microglia shape the development of functional neuronal circuits. “Sex differences in microglia-neuron-circuit interactions in adolescence” (R01MH128176) ***Hiring a post-doc for this project. Expertise in image processing, microglia, sex-differences, or neocortical circuits is preferred*** Email jhamm1 (at) gsu (dot) edu for details
Fall 2021: The Hamm lab was awarded a two-year NARSAD young investigator grant from the Brain and Behavior Research Foundation (BBRF) for a protect titled: “Transcriptomic Profiling of a Novel Subtype of Cortical Neurons Selective for Sensory Prediction Errors”
Spring 2021: New paper from Dr. Hamm on the cortical circuit mechanisms of deviance detection in V1 in the Proceedings of the National Academy of Sciences (PNAS). See here!
Winter 2020: New review paper from the Hamm lab in Schizophrenia Bulletin drawing links between common abnormalities in SST+ interneurons, theta oscillations, and feed-back processing in schizophrenia. See here!
Winter 2020: Hamm lab published a new paper in J Neuroscience Methods provides a methodological overview and set of considerations for the analysis of multineuronal ensembles in optical imaging data.
Fall 2020: Hamm lab postdoc Dr. Jordan Ross has been awarded a prestigious BRAIN initiative NRSA F32 fellowship for the project “Large-scale monitoring of circuits for adaptation and novelty detection in primary visual cortex”
ABOUT THE HAMM LAB:
The neuroscience laboratory of Jordan Hamm is located at GSU’s Neuroscience Institute and the Center for Neuroinflammation and Cardiometabolic Diseases in the Petit Science Center in downtown Atlanta.
Projects focus on understanding the cellular- and circuit-level mechanisms of sensory context processing and related schizophrenia biomarkers. We work mainly in awake mouse models, both wildtype and transgenic. Primary techniques are two-photon calcium imaging, multielectrode recordings, opto/chemicogenetics, and exploratory network analyses.
We are looking for graduate students, postdocs, and research technicians to join the lab! Please contact me directly for more information at firstname.lastname@example.org (or use the contact section).
Petit Science Center in downtown Atlanta: