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actomyosin

Actomyosin is a complex formed by actin filaments and myosin motor proteins that converts ATP energy into mechanical force. The interaction between actin and myosin underlies muscle contraction as well as numerous non-muscle processes that shape and move cells.

In muscle cells, myosin II forms thick filaments that interact with actin thin filaments organized into sarcomeres.

In non-muscle cells, actomyosin networks, especially myosin II–driven cortical networks and contractile rings, generate traction, tension,

Actomyosin is thus a central driver of cellular mechanics, development, and tissue remodeling, with its activity

According
to
the
sliding
filament
theory,
myosin
heads
bind
to
actin,
perform
a
power
stroke
as
they
hydrolyze
ATP,
detach
when
a
new
ATP
binds,
and
rebind
to
generate
repetitive
filament
sliding,
shortening
the
muscle.
Calcium
regulates
this
interaction
through
troponin
and
tropomyosin,
which
control
access
to
myosin-binding
sites
on
actin.
and
contractility
essential
for
cell
shape
changes,
cytokinesis,
and
migration.
Regulation
occurs
via
phosphorylation
of
the
myosin
regulatory
light
chains
by
kinases
such
as
MLCK
in
response
to
calcium,
and
through
Rho-family
GTPases
that
organize
actin
networks.
tightly
controlled
in
space
and
time.