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morphogen

A morphogen is a signaling molecule that governs tissue patterning by forming a concentration gradient across a developing tissue and eliciting different cellular responses at different concentrations. The resulting positional information enables cells to adopt distinct fates according to thresholds encoded in gene regulatory networks.

The concept was introduced by Lewis Wolpert in 1969 and popularized by the French flag model, which

Morphogen gradients arise when a source secretes the molecule, which diffuses and is degraded or internalized,

Prominent examples include Bicoid in the early Drosophila embryo setting anterior-posterior identity, Sonic hedgehog (SHH) in

Interpretation of gradients depends on receptor expression, feedback, and cross-talk with other signals; gradients can be

Morphogen research informs developmental biology, congenital defect studies, and tissue engineering, where establishing controlled positional information

imagines
a
gradient
of
a
morphogen
that
segments
a
tissue
into
discrete
domains
with
distinct
fates.
creating
a
smooth
concentration
profile.
Cells
sense
the
local
concentration
via
receptors
and
downstream
signaling
pathways,
translating
it
into
gene
expression
changes.
The
tissue
pattern
is
shaped
by
thresholds
and
by
cells'
developmental
competence.
vertebrate
limb
buds
and
neural
tube
patterning,
BMP
and
Wnt
signals
contributing
to
dorsal-ventral
and
axial
patterns,
and
Dpp
in
flies.
These
morphogens
often
act
through
conserved
signaling
cascades
to
regulate
transcription
factors.
modulated
by
transport
mechanisms
beyond
simple
diffusion,
such
as
cytonemes,
endocytosis,
or
extracellular
matrix
interactions.
The
idea
remains
central,
but
real
embryos
show
robustness
and
complexity.
is
a
key
goal.