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MicroRNA

MicroRNA (miRNA) are small non-coding RNA molecules that regulate gene expression at the post-transcriptional level. They are typically 21 to 24 nucleotides long and function by guiding a protein complex to complementary messenger RNA targets, often resulting in translational repression or mRNA degradation. miRNAs play roles in numerous biological processes, including development, differentiation, metabolism, and immune responses.

Most miRNA genes are transcribed by RNA polymerase II as primary transcripts containing hairpin structures. The

Biological significance and clinical relevance: miRNAs participate in development and tissue homeostasis and contribute to responses

nuclear
microprocessor,
comprising
Drosha
and
DGCR8,
cleaves
these
transcripts
to
yield
precursor
miRNAs
(~70
nucleotides).
Pre-miRNAs
are
exported
to
the
cytoplasm
by
Exportin-5
and
are
further
processed
by
Dicer
to
produce
a
miRNA
duplex.
One
strand,
the
guide
strand,
is
incorporated
into
the
RNA-induced
silencing
complex
(RISC)
with
Argonaute
proteins,
while
the
passenger
strand
is
typically
degraded.
Target
recognition
relies
largely
on
the
seed
region,
nucleotides
2
through
8
of
the
miRNA,
which
pairs
with
complementary
sequences
in
target
mRNAs,
commonly
in
the
3'
untranslated
region.
Binding
can
block
translation
or
promote
mRNA
decay,
and
a
single
miRNA
can
regulate
many
targets,
while
a
single
mRNA
can
be
regulated
by
multiple
miRNAs.
to
stress
and
disease.
Dysregulation
of
miRNA
expression
is
associated
with
various
conditions,
including
cancer,
cardiovascular
and
neurological
disorders.
Because
they
are
detectable
in
body
fluids,
miRNAs
have
potential
as
diagnostic
biomarkers,
and
therapeutic
approaches
using
miRNA
mimics
or
inhibitors
are
under
investigation.