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captureC

CaptureC is a chromosome conformation capture–based technique designed to map chromatin interactions at high resolution around selected genomic regions, most commonly gene promoters. It enriches for DNA fragments that physically interact with chosen promoters in a 3C-derived library by using sequence capture with biotinylated probes, enabling many promoters to be studied in parallel at reduced sequencing cost.

In practice, CaptureC begins with crosslinking of cells, followed by digestion of chromatin with a restriction

Applications include delineating promoter–enhancer networks, identifying regulatory targets of genetic variants, and characterizing tissue-specific regulatory architectures.

History and variants: CaptureC emerged as a targeted alternative to broader chromatin conformation methods, and is

Limitations include capture biases, dependence on restriction fragment distribution, and the need for careful normalization and

enzyme
and
ligation
to
create
a
3C
library
that
links
interacting
DNA
fragments.
A
pool
of
biotinylated
oligonucleotide
probes
complementary
to
promoter
regions
is
then
hybridized
to
the
library.
Promoter-associated
fragments
are
captured
with
streptavidin
beads,
amplified,
and
sequenced.
Sequencing
reads
are
mapped
to
identify
fragments
that
contact
each
promoter,
and
interaction
frequencies
are
quantified
and
normalized
for
comparison
across
samples.
CaptureC
is
useful
for
studying
regulatory
landscapes
in
model
organisms
and
humans,
and
it
supports
investigating
thousands
of
promoters
in
parallel
with
targeted
sequencing.
often
referred
to
as
Capture-C
or
promoter
capture-C.
It
exists
alongside
related
techniques
such
as
Capture
Hi-C
and
promoter-focused
capture
methods,
with
variations
in
probe
design,
capture
chemistry,
and
sequencing
strategies.
The
choice
of
restriction
enzyme
and
probe
set
influences
resolution
and
coverage.
bioinformatic
processing.
It
provides
targeted,
high-resolution
insight
but
does
not
capture
genome-wide
interactions
without
expanding
the
probe
set.