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synaps

Synaps, or synapse in English, is the functional junction between two neurons or between a neuron and another cell type. It enables electrical or chemical signaling across the nervous system. A typical chemical synapse comprises a presynaptic terminal containing synaptic vesicles filled with neurotransmitters, a synaptic cleft about 20–40 nanometers wide, and a postsynaptic membrane with neurotransmitter receptors. An electrical synapse uses gap junctions that permit direct ionic current flow.

Transmission occurs when an action potential arrives at the presynaptic terminal, opening voltage-gated calcium channels. Calcium

Types: excitatory synapses (commonly using glutamate) raise likelihood of firing; inhibitory synapses (GABA, glycine) suppress activity.

Plasticity: synapses change strength with activity, underpinning learning and memory via short-term plasticity and long-term potentiation/depression.

Clinical relevance: synaptic dysfunction is implicated in many disorders, including Alzheimer's disease, schizophrenia, and autism. Many

influx
triggers
vesicle
fusion
with
the
membrane
and
release
of
neurotransmitters
into
the
cleft.
Neurotransmitters
bind
to
receptors
on
the
postsynaptic
membrane,
producing
excitatory
or
inhibitory
postsynaptic
potentials.
Termination
of
the
signal
occurs
through
reuptake,
enzymatic
breakdown,
or
diffusion.
Receptors
are
classified
as
ionotropic
(ligand-gated
ion
channels)
or
metabotropic
(G-protein-coupled).
Developmentally,
synaptogenesis
forms
networks;
pruning
refines
them.
drugs
modulate
synaptic
transmission,
such
as
cholinesterase
inhibitors,
NMDA
receptor
modulators,
and
various
neurotransmitter
reuptake
inhibitors.