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Fig. 2. (A) Short-term synaptic plasticity between soma–soma paired
Lymnaea neurons. Presynaptic neuron visceral dorsal 4 (VD4) and its
postsynaptic partner left pedal dorsal 1 (LPeD1) were paired in a
soma–soma configuration and cells allowed to develop synapses overnight.
Simultaneous intracellular recordings revealed excitatory synapses where
induced action potentials in VD4 (first open arrow) generated 1:1 excitatory
postsynaptic potentials in LPeD1. Following a burst of action potentials in
VD4 (at bar) the subsequent action potentials in the presynaptic cell (at
closed arrow) induced 1:1 spikes in the postsynaptic cell. This short-term
change in the postsynaptic cell's response to the presynaptic action
potentials illustrates the plasticity in the system. (B) Synaptic potentiation
on a silicon chip. Cells were soma–soma paired overnight and synaptic
physiology studied through the chip. The upper traces show intracellular
voltages in red, the lower traces represent capacitor stimuli (left) and
transistor records (right) in black. (a) Control recordings. Capacitor
stimulation of the presynaptic neuron VD4 generated action potentials that did
not elicit a detectable response in the postsynaptic cell LPeD1 (right). (b)
Stronger capacitive stimulation through the chip induced bursts of spikes in
VD4. (c) Post-tetanic action potential in VD4 now induced 1:1 action
potentials in LPeD1 (right). Figure taken from
(Kaul et al., 2004).
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