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Project description
Master's internship project.
The AON experiment we are aiming to establish should work in a closed loop, for which we employ the power of 3 distinctive neuroscientific methods: fluorescence imaging, dynamic clamp and optogenetics. The most important components for all-optical closed-loop system are:
- fluorescent imaging of presynaptic neuron,
- activity-dependent modelling of synaptic response by dynamic clamp (DC), and
- DC-dependent photo-stimulation of postsynaptic neuron via LED/laser system.
Experimental workflow starts by acquiring fluorescent signal from a single neuron we are imaging. This signal is processed by an image-processing algorithm which extracts single-neuron activity trace. Inferred neural activity serves as streaming input to dynamic clamp and, based on this data, DC models a response from user-defined artificial synapse. Simulated synaptic response in turn drives the behaviour of our photo-stimulation system (i.e. DC modulates the light properties used for stimulation of postsynaptic neuron). Protocol should be executed with minimal latency, i.e. with time-resolution as near to the real-time neural communication as possible.