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glycineargininerich

Glycine-arginine-rich (GAR) domains are low-complexity regions found in a subset of RNA-binding proteins, characterized by a high frequency of glycine and arginine residues, often arranged as RG or RGG repeats. These regions are typically intrinsically disordered and can be located at the N- or C-terminus of proteins such as fibrillarin and nucleolin, as well as various heterogeneous nuclear ribonucleoproteins (hnRNPs).

GAR domains play roles in RNA binding and in mediating protein–RNA and protein–protein interactions that contribute

Post-translational modification of arginine residues within GAR motifs is common, particularly through arginine methylation by protein

Biological significance and disease relevance: GAR-containing proteins participate in transcriptional regulation, RNA maturation, and ribosome biogenesis.

Examples of GAR-domain proteins include fibrillarin and nucleolin, with other RG-rich proteins contributing to diverse aspects

to
RNA
processing,
ribosome
biogenesis,
and
the
organization
of
nuclear
compartments.
They
are
also
implicated
in
subcellular
localization,
notably
targeting
proteins
to
the
nucleolus
or
to
other
nuclear
bodies,
and
can
participate
in
phase
separation
processes
that
form
ribonucleoprotein
assemblies.
arginine
methyltransferases
(PRMTs).
This
methylation
can
alter
RNA-binding
affinity,
modulate
protein–protein
interactions,
influence
subcellular
localization,
and
affect
the
dynamics
of
condensates
formed
by
GAR-containing
proteins.
Dysregulation
of
GAR
domain
function
or
arginine
methylation
has
been
associated
with
various
diseases,
including
cancer
and
neurodegenerative
conditions,
making
the
study
of
GAR
domains
an
active
area
of
research.
of
RNA
metabolism
and
nuclear
architecture.