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iridophores

Iridophores are specialized pigment cells, or chromatophores, that produce structural coloration in a wide range of vertebrates, notably fish, amphibians, reptiles, and cephalopods. Unlike melanin‑containing melanophores, iridophores contain stacks of thin, reflective platelets composed primarily of guanine crystals or purine‑based compounds. The ordered arrangement of these platelets causes light to be reflected and refracted, generating iridescent hues that can shift with the viewing angle.

The development of iridophores is regulated by a conserved set of genetic pathways. In zebrafish (Danio rerio),

Functionally, iridophores contribute to several biological roles. In aquatic environments, their reflective surfaces can create silvery

Comparative studies indicate that iridophores have independently evolved multiple times across vertebrate lineages, highlighting convergent solutions

the
transcription
factor
ltk
and
its
ligand
alcam
are
essential
for
iridophore
specification,
while
mutations
in
mitf
or
pax3
affect
their
differentiation.
Iridophores
often
appear
in
patterns
together
with
melanophores
and
xanthophores,
forming
complex
color
mosaics
that
facilitate
camouflage,
signaling,
and
thermoregulation.
appearances
that
reduce
visibility
to
predators.
In
terrestrial
amphibians,
iridophores
underlie
bright
dorsal
colors,
enhancing
warning
signals
(aposematism).
Some
species
modulate
iridophore
reflectivity
by
altering
the
spacing
of
platelets,
allowing
rapid
color
changes
for
communication
or
environmental
adaptation.
for
structural
coloration.
Their
unique
optical
properties
have
also
inspired
biomimetic
research,
where
engineered
nanostructures
seek
to
replicate
the
tunable
reflectivity
observed
in
natural
iridophore
systems.