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ChromatinRemodellingKomplexe

Chromatin remodeling refers to the dynamic modification of chromatin architecture that regulates access to DNA. It encompasses ATP-dependent processes that reposition, eject, or restructure nucleosomes, thereby altering the ability of transcription factors, RNA polymerase II, and DNA repair enzymes to access genetic information. Remodeling is essential for transcription initiation and elongation, replication, and repair, and it helps coordinate gene expression programs with cellular context.

The activity is carried out by several conserved families of chromatin-remodeling complexes. The major groups include

Biological significance and disease relevance are broad. Chromatin remodeling shapes promoter and enhancer accessibility, influences transcriptional

SWI/SNF,
ISWI,
CHD,
and
INO80.
These
complexes
use
energy
from
ATP
hydrolysis
to
slide
nucleosomes
along
DNA,
evict
histones,
or
replace
standard
histones
with
variants.
They
often
function
in
concert
with
histone
modifiers
and
chaperones
and
are
recruited
to
specific
genomic
loci
by
transcription
factors
or
by
recognition
of
histone
marks.
Access
to
DNA
is
thus
modulated
in
a
highly
regulated,
context-dependent
manner.
programs
during
development
and
differentiation,
and
participates
in
DNA
replication
and
repair.
Dysregulation
or
mutation
of
remodeling
factors
is
linked
to
developmental
disorders
and
cancer;
for
example,
mutations
in
SWI/SNF
subunits
such
as
BRG1
(SMARCA4)
and
ARID1A
are
found
in
various
tumors.
Beyond
development
and
disease,
remodeling
interacts
with
other
epigenetic
processes
to
orchestrate
gene
expression
responses
to
environmental
and
developmental
cues.