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doublesexMAB3related

Doublesex/MAB3-related (DMRT) genes constitute a conserved family of transcription factors defined by the DM domain, a DNA-binding motif shared across metazoans. The name reflects two well-studied members, the Drosophila doublesex (dsx) gene and the Caenorhabditis elegans mab-3 gene, but the family includes multiple orthologs in diverse species. They are typically encoded by a suite of genes with varying numbers of family members across taxa and are characterized by a shared DM domain that mediates DNA binding and transcriptional regulation.

DMRT genes play prominent roles in sexual development and differentiation. In insects, dsx functions through sex-specific

Mechanistically, DMRT proteins function as transcription factors that regulate downstream target genes relevant to sex differentiation

alternative
splicing
to
produce
male-
or
female-specific
protein
isoforms
that
direct
sexually
dimorphic
trait
formation.
In
nematodes,
mab-3
promotes
male
development
and
influences
the
expression
of
male-specific
features.
In
vertebrates,
DMRT
family
members
are
expressed
in
the
gonads
and
other
tissues
where
they
contribute
to
gonad
formation,
germ
cell
development,
and
sexual
differentiation;
DMRT1
is
among
the
best
characterized
and
is
implicated
in
testis
development
and
maintenance
in
many
species.
Other
vertebrate
members,
such
as
DMRT2,
DMRT3,
DMRT4,
and
DMRT5,
have
roles
in
development
and
tissue
specification,
including
neural
circuits
that
influence
behavior
in
some
mammals.
and
development.
The
evolutionary
conservation
of
the
DMRT
family
underscores
the
deep
homology
of
sex-determining
pathways
across
animals,
even
as
specific
regulatory
networks
and
phenotypic
outcomes
show
substantial
diversification.
Mutations
or
dysregulation
of
DMRT
genes
can
be
associated
with
disorders
of
sexual
development
in
humans
and
other
organisms,
highlighting
their
biological
and
medical
significance.