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acentrosomal

Acentrosomal refers to cellular processes and structures that lack a centrosome, the typical primary microtubule organizing center found in many animal cells. In acentrosomal divisions, the spindle forms without a centrosome, relying instead on chromatin-mediated microtubule nucleation and non-centrosomal organizing centers to establish a bipolar spindle.

In animal oocytes, especially during meiosis, centrosomes are absent or inactivated, and spindle assembly is driven

Plants and some other eukaryotes also perform acentrosomal spindle assembly, as they lack canonical centrosomes and

Acentrosomal mechanisms are a focus of study for understanding how accurate chromosome segregation is achieved in

by
the
chromosomes
themselves.
Chromatin-associated
factors
and
the
Ran-GTP
gradient
promote
microtubule
nucleation
around
chromosomes,
while
motor
proteins
organize
these
microtubules
into
a
functional
spindle.
The
augmin
complex
can
recruit
γ-tubulin
ring
complexes
to
existing
microtubules
to
generate
new
minus
ends,
supporting
robust
spindle
formation
without
centrosomes.
rely
on
multiple
non-centrosomal
MTOCs
or
chromatin-anchored
nucleation
to
build
the
spindle
apparatus
during
mitosis
and
meiosis.
the
absence
of
centrosomes
and
for
insights
into
fertility
and
developmental
biology.
Errors
in
acentrosomal
spindle
assembly
can
contribute
to
aneuploidy
in
oocytes
and
have
implications
for
evolution
and
species
differences
in
mitotic
machinery.