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telomerebinding

Telomerebinding refers to the set of proteins and factors that specifically recognize and attach to telomeric DNA, the repetitive sequences at the ends of eukaryotic chromosomes. These proteins protect chromosome ends, regulate telomere length, and coordinate replication and the DNA damage response.

Telomeres consist of short, tandem repeats and a single-stranded 3’ overhang. Telomere-binding proteins bind these sequences

In humans and many vertebrates, the main telomere-binding complex is shelterin, which includes TRF1 and TRF2

Yeast and other organisms employ additional or alternative telomere-binding systems. In budding yeast, Rap1 binds double-stranded

Disruption of telomere-binding proteins can lead to genomic instability, aging phenotypes, or cancer, making these factors

and
structural
features
to
form
protective
caps,
help
form
higher-order
structures
such
as
t-loops,
and
prevent
inappropriate
DNA
damage
signaling.
Binding
also
influences
access
of
the
telomerase
enzyme
that
extends
telomeres,
thereby
contributing
to
length
homeostasis.
(which
bind
double-stranded
telomeric
DNA),
POT1
(which
binds
the
single-stranded
overhang),
and
the
linker
proteins
TIN2,
TPP1,
and
RAP1
that
connect
the
complex
and
regulate
its
activities.
Shelterin
protects
telomeres
from
DNA
damage
responses
and
modulates
telomerase
recruitment.
telomeres
and
Rif1/Rif2
regulate
length,
while
Cdc13
binds
single-stranded
telomeric
DNA
to
facilitate
C-strand
synthesis
with
the
Est1–Est2–Est3
telomerase
complex.
In
many
eukaryotes,
CST
(CTC1–STN1–TEN1)
also
binds
single-stranded
telomeric
DNA
and
contributes
to
replication
and
C-strand
fill-in.
a
focus
of
genetic,
cellular,
and
clinical
research.
Experimental
approaches
include
chromatin
immunoprecipitation,
DNA-binding
assays,
and
fluorescence
localization
studies.