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body in Drosophila and bumblebees as model systems. Our research integrates genetic tools, high-throughput behavioral analysis, EM connectomics, expansion microscopy, mass spectrometry, calcium imaging
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they continue to investigate. Approaches include genetics, spatial genomics, single-molecule biophysics, super-resolution imaging, computational modeling, and structural studies including X-ray
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, at Harvard Medical School studies the molecular basis of sensory transduction, using cryo-electron microscopy (cryo-EM), electrophysiology, calcium imaging, computational modeling, and behavioral experiments
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microscopes, and cryo grids preparation equipment. The main function of the facility is 1) high-throughput, high-quality data collection on user-provided ready-to-image cryo grids utilizing either single
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sample prep, sectioning and imaging. Optimizing and writing up lab protocols. Shipping and cataloguing of reagents. Lab fridge and freezer maintenance. General lab upkeep alongside other members
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to uncover how olfactory receptors detect odors and how this information is processed within neural circuits to drive behavior. Using the compact chemosensory system of Drosophila and other insects as a
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. Develop and optimize SOPs and workflows for iPSC services. Train others in iPSC-related protocols, processes, and instrument usage. Work both independently and collaboratively with minimal supervision
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cutting-edge approaches including CRISPR/Cas9 genome-editing, genetics, single-cell genomics, behavioral analysis, pharmacology, cell biology, calcium imaging, and neuroanatomical mapping to understand how
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) Experience with neural recordings (ephys or imaging) or other neural techniques (optional) Physical Requirements: Remaining in a normal seated or standing position for extended periods of time; reaching and