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synaptotagmins

Synaptotagmins are a family of calcium-binding proteins associated with secretory vesicles in neurons and other secretory cells. They function as calcium sensors that couple calcium entry to regulated exocytosis, translating intracellular Ca2+ signals into membrane fusion events that trigger neurotransmitter or hormone release.

Most synaptotagmins share a common topology: a single N-terminal transmembrane domain that anchors the protein to

In the nervous system, isoforms specialize in different modes of release. Syt1 (and in some circuits Syt2)

Mechanistically, synaptotagmins bind calcium through their C2 domains and interact with SNARE proteins, and in some

The synaptotagmin gene family is conserved across animals, with multiple vertebrate genes. Genetic and physiological studies

vesicle
membranes,
with
cytosolic
C2A
and
C2B
domains
that
bind
calcium
and
phospholipids.
The
C2
domains
cooperate
to
promote
membrane
interactions
and
regulate
SNARE-mediated
fusion.
mediates
fast
synchronous
release.
Syt7
contributes
to
asynchronous
release
and
sustained
release
during
high-frequency
activity.
Other
isoforms
influence
vesicle
docking,
priming,
endocytosis,
or
spontaneous
release,
illustrating
substantial
functional
diversity
within
the
family.
cases
with
complexins,
to
regulate
fusion
pore
formation.
Calcium-bound
synaptotagmins
promote
vesicle-plasma
membrane
apposition
and
lower
the
energy
barrier
to
fusion.
in
model
organisms
show
that
disruption
of
specific
isoforms
produces
deficits
in
evoked
release
and
synaptic
plasticity,
highlighting
their
essential
role
in
precise
neurotransmission.