Add to ORKGAnimal vision is mediated through pigments belonging exclusively to the opsin family. These are members of the G-protein-coupled receptor family that bind retinal [1]. Based on function and phylogenetic relationship, vertebrate visual opsins can be clustered in five groups: Rhod photoreceptors (Rh1), Rh1-like (Rh2), Short Wave Sensitive (SWS1), SWS1-like (SWS2), and Long (LWS) or Medium (MWS) Wave Length Sensitive (LWS/MWS). Rh1 is used for seeing under dim light conditions (scotopic vision), while the others permit full colour (photopic) vision in bright light 2, 3, 4 and 5. Opsins have diversified by a series of gene duplications, and the inferred order of these duplications indicates that photopic vision predated scotopic vision in verte...
Complex sensory systems such as vision shape the way organisms perceive, interact, and adapt to the ...
Opsins are universal photoreceptive proteins in animals and can be classified into three types based...
Vertebrate dim light vision is mediated by the rod visual pigment, rhodopsin, a member of the G prot...
Animal vision is mediated through pigments belonging exclusively to the opsin family. These are memb...
AbstractEvidence is reviewed from a wide range of studies relevant to the evolution of vertebrate ph...
All known visual pigments in Neuralia (Cnidaria, Ctenophora, and Bilateria) are composed of an opsi...
Seeing begins in the photoreceptors, where light is absorbed and signaled to the nervous system. Thr...
Background: Vertebrate color vision is dependent on four major color opsin subtypes: RH2 (green opsi...
Recent findings shed light on the steps underlying the evolution of vertebrate photoreceptors and re...
Molecular investigation of the origin of colour vision has discovered five visual pigment (opsin) ge...
Photoreceptors in metazoans can be grouped into two classes, with their photoreceptive membrane deri...
Photoreception in vertebrates is mediated by opsins, members of the G protein-coupled receptor (GPCR...
The capacity for colour vision is mediated by the comparison of the signal intensities from photorec...
AbstractThe visual pigments of vertebrates evolved about 500 million years ago, before the major evo...
Rhodopsin and cone opsins are responsible for dim-light and colour vision, respectively, and mediate...
Complex sensory systems such as vision shape the way organisms perceive, interact, and adapt to the ...
Opsins are universal photoreceptive proteins in animals and can be classified into three types based...
Vertebrate dim light vision is mediated by the rod visual pigment, rhodopsin, a member of the G prot...
Animal vision is mediated through pigments belonging exclusively to the opsin family. These are memb...
AbstractEvidence is reviewed from a wide range of studies relevant to the evolution of vertebrate ph...
All known visual pigments in Neuralia (Cnidaria, Ctenophora, and Bilateria) are composed of an opsi...
Seeing begins in the photoreceptors, where light is absorbed and signaled to the nervous system. Thr...
Background: Vertebrate color vision is dependent on four major color opsin subtypes: RH2 (green opsi...
Recent findings shed light on the steps underlying the evolution of vertebrate photoreceptors and re...
Molecular investigation of the origin of colour vision has discovered five visual pigment (opsin) ge...
Photoreceptors in metazoans can be grouped into two classes, with their photoreceptive membrane deri...
Photoreception in vertebrates is mediated by opsins, members of the G protein-coupled receptor (GPCR...
The capacity for colour vision is mediated by the comparison of the signal intensities from photorec...
AbstractThe visual pigments of vertebrates evolved about 500 million years ago, before the major evo...
Rhodopsin and cone opsins are responsible for dim-light and colour vision, respectively, and mediate...
Complex sensory systems such as vision shape the way organisms perceive, interact, and adapt to the ...
Opsins are universal photoreceptive proteins in animals and can be classified into three types based...
Vertebrate dim light vision is mediated by the rod visual pigment, rhodopsin, a member of the G prot...