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cytoskeletons

The cytoskeleton is a dynamic network of protein filaments that pervades the cytoplasm of eukaryotic cells. It is composed mainly of actin filaments (microfilaments), microtubules, and intermediate filaments, with accessory proteins shaping their organization and activity.

Actin filaments support cell shape and enable changes in shape, movement, and muscle contraction. Microtubules resist

The cytoskeleton is highly dynamic. Filaments polymerize and depolymerize rapidly in response to signals. Microtubules exhibit

In many cells, microtubules emanate from microtubule-organizing centers and help assemble the spindle during cell division.

The cytoskeleton interacts with membranes and organelles through linker proteins, and its function is essential for

compression,
organize
organelles,
and
form
tracks
for
motor
proteins.
Intermediate
filaments
provide
mechanical
strength
and
resilience
to
stress,
helping
cells
withstand
deformation
and
maintain
integrity.
dynamic
instability;
actin
filaments
can
undergo
treadmilling.
Nucleation
and
organization
are
controlled
by
specific
factors
and
motor
proteins
such
as
kinesins,
dyneins,
and
myosins,
which
convert
chemical
energy
into
mechanical
work.
Actin-based
networks
drive
cell
migration
and
cytokinesis,
while
intermediate
filaments
connect
to
cell
junctions
to
stabilize
tissue
architecture.
The
cytoskeleton
thus
coordinates
intracellular
organization
with
cell
movement
and
division.
development,
signaling,
and
homeostasis.
Disruptions
of
its
dynamics
underlie
various
diseases,
and
drugs
that
alter
cytoskeletal
components
are
used
in
research
and
medicine.