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ciliogenesis

Ciliogenesis refers to the cellular process by which cilia, small hair-like projections, are assembled and matured on the surface of most animal cells. Cilia are membrane-bound organelles containing a microtubule-based axoneme and a cylindrical transition zone that regulates entry and exit of proteins. Ciliogenesis begins with the generation or maturation of a basal body from a centriole, followed by docking of this basal body to the plasma membrane. The axoneme extends from the basal body through the ciliary pocket and out of the cell surface, a process driven by intraflagellar transport (IFT). IFT uses an anterograde motor complex, kinesin-2, to move structural and signaling components toward the growing tip, and a retrograde dynein-2 motor to recycle materials back to the cell body.

Two major forms exist: primary (non-motile) cilia, which typically have a 9+0 microtubule arrangement and function

Cell cycle and timing: In most cells, ciliogenesis occurs when cells exit the cell cycle and enter

Clinical relevance: Defects in ciliogenesis or ciliary function cause ciliopathies, including primary ciliary dyskinesia, polycystic kidney

in
signaling
(notably
Hedgehog
pathway),
and
motile
cilia,
usually
9+2,
that
beat
to
move
fluid
and
mucus.
Nodal
cilia,
present
during
embryogenesis,
regulate
left-right
asymmetry.
In
multiciliated
cells,
ciliogenesis
can
produce
hundreds
of
basal
bodies
via
deuterosomes,
enabling
extensive
ciliation.
G0
or
G1,
after
mitosis;
basal
bodies
derive
from
centrioles
and
docking
occurs
at
the
apical
membrane.
The
transition
zone
forms
a
selective
barrier
that
shapes
the
ciliary
proteome.
Ciliary
membrane
proteins
are
transported
by
IFT
and
vesicular
pathways
to
the
cilium.
disease,
Bardet-Biedl
syndrome,
Joubert
syndrome,
and
Meckel-Gruber
syndrome.