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kinetocoro

Kinetocoro is a term used to refer to the kinetochore, a protein structure located at the centromere of chromosomes that mediates their attachment to spindle microtubules during cell division. In English-language literature the standard term is kinetochore; kinetocoro appears as a variant spelling found in some non-English sources or older texts and denotes the same cellular structure.

The kinetochore comprises inner and outer components assembled on centromeric chromatin containing the histone variant CENP-A.

Functionally, the kinetochore serves as the attachment site for chromosomes to the mitotic or meiotic spindle,

The
inner
kinetochore
includes
proteins
of
the
constitutive
centromere-associated
network
(CCAN),
such
as
CENP-C
and
CENP-T,
which
help
organize
the
complex.
The
outer
kinetochore
features
the
KMN
network—Knl1,
Mis12,
and
Ndc80
complexes—that
directly
binds
microtubule
plus
ends.
Additional
components,
including
the
RZZ
complex,
connect
the
outer
kinetochore
to
motor
proteins
and
regulate
microtubule
interactions.
Spindle
assembly
checkpoint
(SAC)
proteins,
such
as
Bub
and
Mad
family
members,
monitor
attachments
and
delays
progression
to
anaphase
until
proper
bi-orientation
is
achieved.
enabling
force
generation
and
chromosome
movement
as
microtubules
grow
and
shorten.
It
also
senses
mechanical
tension
across
sister
chromatids
and
participates
in
SAC
signaling
to
ensure
accurate
chromosome
segregation.
Disruption
of
kinetochore
function
can
lead
to
aneuploidy
and
has
been
implicated
in
various
diseases,
including
cancer.
Kinetochore
biology
is
studied
across
diverse
organisms
using
genetic,
imaging,
and
biochemical
approaches.