<Li> In a chemical synapse, electrical activity in the presynaptic neuron is converted (via the activation of voltage - gated calcium channels) into the release of a chemical called a neurotransmitter that binds to receptors located in the plasma membrane of the postsynaptic cell . The neurotransmitter may initiate an electrical response or a secondary messenger pathway that may either excite or inhibit the postsynaptic neuron . Chemical synapses can be classified according to the neurotransmitter released: glutamatergic (often excitatory), GABAergic (often inhibitory), cholinergic (e.g. vertebrate neuromuscular junction), and adrenergic (releasing norepinephrine). Because of the complexity of receptor signal transduction, chemical synapses can have complex effects on the postsynaptic cell . </Li> <Li> In an electrical synapse, the presynaptic and postsynaptic cell membranes are connected by special channels called gap junctions or synaptic cleft that are capable of passing an electric current, causing voltage changes in the presynaptic cell to induce voltage changes in the postsynaptic cell . The main advantage of an electrical synapse is the rapid transfer of signals from one cell to the next . </Li> <P> Synaptic communication is distinct from an ephaptic coupling, in which communication between neurons occurs via indirect electric fields . </P> <P> An autapse is a chemical or electrical synapse that forms when the axon of one neuron synapses onto dendrites of the same neuron . </P>

Where is the synapse located in the brain