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genetically encoded fluorescent markers/sensors and optogenetic actuators. All-optical electrophysiology, an innovative approach that utilizes light to manipulate and record neural electrical activity
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on the development of genetically encoded fluorescent markers/sensors and optogenetic actuators. Recent representative publications include a Cell paper (Liu et al., Cell 2022) where the development of a new voltage
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required) skills: experience in any of the following areas is especially valued: synaptic plasticity, Python programming, structural biology, AI / machine learning, calcium imaging, FRET sensors
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.). Electrical circuit and PCB design (w/outsourced production). Utilize micro-boards and micro-computers (including programming) for controlling different actuators and sensors. Improve current designs
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sensors. Maintains current robotic platforms. Builds additional assay platforms for parallel experimentation. Improves current designs for increased efficiency and added features for new feedback loops and
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neuroscience research and broader applications with special focus on the development of genetically encoded fluorescent markers/sensors and optogenetic actuators. Recent representative publications include a