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photopsins

Photopsins are light-sensitive visual pigments found in the cone photoreceptor cells of the retina in vertebrates. They are a subclass of opsins, which are G protein–coupled receptors that, together with a chromophore, form photosensitive pigments essential for daytime vision and color perception. Cones expressing photopsins enable detection of different wavelengths and contribute to high-acuity vision in bright light.

Each photopsin consists of an opsin protein bound covalently to 11-cis-retinal. Upon photon absorption, retinal isomerizes

In humans, three cone photopsins mediate color vision: S-cone opsin (blue), M-cone opsin (green), and L-cone opsin

Photopsins have evolved through gene duplication and amino acid substitutions that tune their light absorption. Their

to
all-trans,
triggering
a
conformational
change
in
the
opsin
and
activation
of
the
G
protein
transducin.
This
initiates
a
phototransduction
cascade
that
lowers
cGMP
levels,
closes
cyclic
nucleotide–gated
channels,
hyperpolarizes
the
cone
cell,
and
modulates
glutamate
release.
(red).
They
are
encoded
by
the
OPN1SW,
OPN1MW,
and
OPN1LW
genes,
respectively.
The
spectral
peaks
vary
among
species,
and
many
animals
possess
additional
or
differently
tuned
cone
opsins,
reflecting
adaptations
to
their
light
environments.
Color
vision
deficiencies
commonly
involve
alterations
in
M-
or
L-opsin
genes.
activity
under
bright
lighting
supports
photopic
vision
and
color
discrimination,
while
rod
photoreceptors
provide
sensitivity
in
dim
light.
The
distribution
and
expression
of
photopsins
across
the
retina
underlie
species-specific
visual
capabilities.