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bromodomain

A bromodomain is a conserved protein motif of about 110 amino acids that recognizes acetylated lysine residues, most notably on histone tails. As an epigenetic reader module, bromodomains help interpret histone acetylation marks to regulate chromatin structure and gene expression.

Structurally, bromodomains form a four-helix bundle with ZA and BC loops creating a hydrophobic pocket that

Bromodomain-containing proteins are often present in families such as the BET proteins BRD2, BRD3, BRD4 and

In biology and medicine, bromodomains are studied as epigenetic targets. Small-molecule inhibitors of bromodomains, notably BET

Ongoing research aims to map the specificity of individual bromodomains, understand non-histone acetylation recognition, and develop

binds
acetyl-lysine.
A
conserved
asparagine
residue
coordinates
the
acetyl
group,
enabling
selective
recognition
of
specific
acetylation
marks
and
contributing
to
the
affinity
and
specificity
of
binding.
BRDT,
as
well
as
BRD7,
BRD9,
and
BRPF
factors.
They
function
as
transcriptional
regulators
by
recruiting
chromatin
modifiers
and
transcriptional
machinery
to
acetylated
chromatin
regions,
thereby
influencing
gene
expression
and
chromatin
dynamics.
They
can
participate
in
processes
including
transcriptional
activation,
chromatin
remodeling,
and
DNA
damage
responses.
inhibitors
such
as
JQ1,
disrupt
acetyl-lysine
binding
and
affect
transcription
of
genes
associated
with
oncogenesis
and
inflammation.
These
inhibitors
are
investigated
for
cancer,
inflammatory
diseases,
and
viral
infections,
among
other
applications.
selective
therapeutics.
Structural
and
chemical
biology
approaches
continue
to
illuminate
bromodomain-dependent
regulatory
networks
and
their
roles
in
health
and
disease.