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Studying the Excitability of Fluorescent Neurons using a Whole-Cell Patch Clamp

Studying the Excitability of Fluorescent Neurons using a Whole-Cell Patch Clamp

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Take an immobilized transfected mouse coronal slice in a recording chamber perfused with aCSF.

The slice contains a sparse pyramidal neuron population expressing a target enzyme and a fluorescent protein.

Assemble a recording pipette comprising an intracellular solution and an electrode connected to an amplifier for measuring neuronal signals.

Microscopically identify the target tissue area and locate a fluorescent neuron.

Apply positive pressure to the pipette to prevent clogging and advance it to the target neuron.

The positive pressure causes a slight indentation on the neuronal membrane upon contact.

Release the pressure, forming a tight seal between the membrane and the tip.

Set the holding potential at a constant negative value to stabilize the neuron.

Apply brief negative pressure to rupture the membrane, connecting the cytoplasm to the pipette interior and establishing a whole-cell configuration.

Switch to current-clamp mode and apply positive current pulses, generating action potentials indicative of neuronal excitability.

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