Home

antim6A

Antim6A is a term used in molecular biology to describe approaches or agents that counteract N6-methyladenosine (m6A) RNA modifications. The designation is not fixed in the literature but is used to discuss strategies that diminish, block, or negate m6A signaling on transcripts.

Background: m6A is the most common internal modification in eukaryotic mRNA and long noncoding RNA, influencing

Mechanisms: Antim6A strategies may include inhibition of writers to lower global or site-specific m6A deposition, disruption

Applications and challenges: Research on antim6A contributes to understanding the causal roles of m6A in development,

See also: N6-methyladenosine, RNA epitranscriptomics

RNA
stability,
splicing,
export,
and
translation.
It
is
installed
by
methyltransferase
writer
complexes
(such
as
METTL3
and
METTL14)
with
partners,
removed
by
demethylases
(erasers)
like
FTO
and
ALKBH5,
and
interpreted
by
reader
proteins
(e.g.,
YTH
domain
family).
Antim6A
refers
to
methods
aimed
at
reducing
m6A
levels
or
preventing
its
functional
consequences.
of
reader
interactions
to
prevent
downstream
signaling,
or
enhancement
of
demethylation
at
target
transcripts.
Oligonucleotide-
or
RNA-targeting
approaches
can
be
used
to
shield
particular
adenosines
from
methylation
or
to
block
recognition
by
readers.
The
term
can
also
describe
cellular
or
chemical
conditions
that
oppose
m6A
deposition
or
function,
yielding
a
phenotype
opposite
to
that
produced
by
m6A.
stress
responses,
and
disease.
It
has
potential
therapeutic
implications
in
cancers
and
neurological
disorders
where
m6A
signaling
is
dysregulated.
Challenges
include
achieving
specificity,
avoiding
off-target
effects,
and
accounting
for
tissue-
and
context-dependent
effects.