Published in PLoS One on September 22, 2011
Deep brain photoreceptors control light-seeking behavior in zebrafish larvae. Curr Biol (2012) 2.05
Melanopsin-driven light adaptation in mouse vision. Curr Biol (2014) 1.75
Melanopsin is highly resistant to light and chemical bleaching in vivo. J Biol Chem (2012) 1.06
Identification of nonvisual photomotor response cells in the vertebrate hindbrain. J Neurosci (2013) 1.04
Circadian rhythmicity and light sensitivity of the zebrafish brain. PLoS One (2014) 0.87
Identification of critical phosphorylation sites on the carboxy tail of melanopsin. Biochemistry (2014) 0.83
Neurotransmitter map of the asymmetric dorsal habenular nuclei of zebrafish. Genesis (2014) 0.81
Diversification of non-visual photopigment parapinopsin in spectral sensitivity for diverse pineal functions. BMC Biol (2015) 0.79
Distribution of mammalian-like melanopsin in cyclostome retinas exhibiting a different extent of visual functions. PLoS One (2014) 0.79
Neuronal Organization of Deep Brain Opsin Photoreceptors in Adult Teleosts. Front Neuroanat (2016) 0.77
Wiring the retinal circuits activated by light during early development. Neural Dev (2014) 0.76
Properties of the Visible Light Phototaxis and UV Avoidance Behaviors in the Larval Zebrafish. Front Behav Neurosci (2016) 0.75
Two Opsin 3-Related Proteins in the Chicken Retina and Brain: A TMT-Type Opsin 3 Is a Blue-Light Sensor in Retinal Horizontal Cells, Hypothalamus, and Cerebellum. PLoS One (2016) 0.75
The Light Wavelength Affects the Ontogeny of Clock Gene Expression and Activity Rhythms in Zebrafish Larvae. PLoS One (2015) 0.75
MEGA4: Molecular Evolutionary Genetics Analysis (MEGA) software version 4.0. Mol Biol Evol (2007) 168.76
Melanopsin-containing retinal ganglion cells: architecture, projections, and intrinsic photosensitivity. Science (2002) 9.08
Melanopsin and rod-cone photoreceptive systems account for all major accessory visual functions in mice. Nature (2003) 5.84
Central projections of melanopsin-expressing retinal ganglion cells in the mouse. J Comp Neurol (2006) 4.64
Melanopsin cells are the principal conduits for rod-cone input to non-image-forming vision. Nature (2008) 4.55
Genome duplication, a trait shared by 22000 species of ray-finned fish. Genome Res (2003) 4.19
Characterization of an ocular photopigment capable of driving pupillary constriction in mice. Nat Neurosci (2001) 4.04
Melanopsin: An opsin in melanophores, brain, and eye. Proc Natl Acad Sci U S A (1998) 3.85
Monoclonal antibodies to rhodopsin: characterization, cross-reactivity, and application as structural probes. Biochemistry (1983) 3.30
Intrinsic circadian clock of the mammalian retina: importance for retinal processing of visual information. Cell (2007) 2.94
Physiologic diversity and development of intrinsically photosensitive retinal ganglion cells. Neuron (2005) 2.91
Melanopsin-expressing retinal ganglion-cell photoreceptors: cellular diversity and role in pattern vision. Neuron (2010) 2.91
Rapid behavior-based identification of neuroactive small molecules in the zebrafish. Nat Chem Biol (2010) 2.87
The development of vision in the zebrafish (Danio rerio). Dev Biol (1996) 2.80
Photoreceptive net in the mammalian retina. This mesh of cells may explain how some blind mice can still tell day from night. Nature (2002) 2.67
The use of CLUSTAL W and CLUSTAL X for multiple sequence alignment. Methods Mol Biol (2000) 2.56
A single amino acid substitution in rhodopsin (lysine 248----leucine) prevents activation of transducin. J Biol Chem (1988) 2.37
Intraretinal signaling by ganglion cell photoreceptors to dopaminergic amacrine neurons. Proc Natl Acad Sci U S A (2008) 2.19
Evolution of melanopsin photoreceptors: discovery and characterization of a new melanopsin in nonmammalian vertebrates. PLoS Biol (2006) 2.05
Evolution of eyes and photoreceptor cell types. Int J Dev Biol (2003) 1.99
Zebrafish: a model system for the study of eye genetics. Prog Retin Eye Res (2007) 1.85
Rods-cones and melanopsin detect light and dark to modulate sleep independent of image formation. Proc Natl Acad Sci U S A (2008) 1.75
The parapineal mediates left-right asymmetry in the zebrafish diencephalon. Development (2003) 1.75
Gene duplication and spectral diversification of cone visual pigments of zebrafish. Genetics (2003) 1.74
Melanopsin-dependent photoreception provides earliest light detection in the mammalian retina. Curr Biol (2005) 1.69
Melanopsin regulates visual processing in the mouse retina. Curr Biol (2006) 1.67
Light-evoked calcium responses of isolated melanopsin-expressing retinal ganglion cells. J Neurosci (2007) 1.54
The role of a conserved region of the second intracellular loop in AT1 angiotensin receptor activation and signaling. Endocrinology (2003) 1.49
Otx5 regulates genes that show circadian expression in the zebrafish pineal complex. Nat Genet (2001) 1.49
A mammalian neural tissue opsin (Opsin 5) is a deep brain photoreceptor in birds. Proc Natl Acad Sci U S A (2010) 1.48
Melanopsin-dependent light avoidance in neonatal mice. Proc Natl Acad Sci U S A (2010) 1.45
Melanopsin forms a functional short-wavelength photopigment. Biochemistry (2003) 1.39
Clock mechanisms in zebrafish. Cell Tissue Res (2002) 1.35
Haploid screens and gamma-ray mutagenesis. Methods Cell Biol (1999) 1.34
The primary visual pathway in humans is regulated according to long-term light exposure through the action of a nonclassical photopigment. Curr Biol (2002) 1.28
Molecular cloning, localization and circadian expression of chicken melanopsin (Opn4): differential regulation of expression in pineal and retinal cell types. J Neurochem (2005) 1.28
Vertebrate ancient-long opsin: a green-sensitive photoreceptive molecule present in zebrafish deep brain and retinal horizontal cells. J Neurosci (2000) 1.23
Exo-rhodopsin: a novel rhodopsin expressed in the zebrafish pineal gland. Brain Res Mol Brain Res (1999) 1.22
Parapinopsin, a novel catfish opsin localized to the parapineal organ, defines a new gene family. J Neurosci (1997) 1.19
The development of eye movements in the zebrafish (Danio rerio). Dev Psychobiol (1997) 1.19
Pineal opsin: a nonvisual opsin expressed in chick pineal. Science (1995) 1.17
Zebrafish melanopsin: isolation, tissue localisation and phylogenetic position. Brain Res Mol Brain Res (2002) 1.12
The LN54 radiation hybrid map of zebrafish expressed sequences. Genome Res (2001) 1.11
VA opsin, melanopsin, and an inherent light response within retinal interneurons. Curr Biol (2003) 1.10
Larval and adult visual pigments of the zebrafish, Brachydanio rerio. Vision Res (1985) 1.09
Role of a novel photopigment, melanopsin, in behavioral adaptation to light. Cell Mol Life Sci (2007) 1.04
Differential expression of duplicated VAL-opsin genes in the developing zebrafish. J Neurochem (2007) 1.03
Isolation and characterization of two teleost melanopsin genes and their differential expression within the inner retina and brain. J Comp Neurol (2003) 1.02
Reverse genetic analysis of neurogenesis in the zebrafish retina. Dev Biol (2006) 1.01
Nonvisual photoreceptors of the deep brain, pineal organs and retina. Histol Histopathol (2002) 0.99
Starting the zebrafish pineal circadian clock with a single photic transition. Endocrinology (2006) 0.98
Two isoforms of chicken melanopsins show blue light sensitivity. FEBS Lett (2007) 0.98
Functional coupling of a human retinal metabotropic glutamate receptor (hmGluR6) to bovine rod transducin and rat Go in an in vitro reconstitution system. J Biol Chem (1997) 0.96
Genetic, temporal and developmental differences between melatonin rhythm generating systems in the teleost fish pineal organ and retina. J Neuroendocrinol (2003) 0.96
Intrinsic light response of retinal horizontal cells of teleosts. Nature (2009) 0.95
Mapping absorbance spectra, cone fractions, and neuronal mechanisms to photopic spectral sensitivity in the zebrafish. Vis Neurosci (2002) 0.95
A median third eye: pineal gland retraces evolution of vertebrate photoreceptive organs. Photochem Photobiol (2007) 0.95
Circadian photoreception in vertebrates. Cold Spring Harb Symp Quant Biol (2007) 0.94
Charged residues of the conserved DRY triplet of the vasopressin V1a receptor provide molecular determinants for cell surface delivery and internalization. Mol Pharmacol (2005) 0.93
Expression pattern of the melanopsin-like (cOpn4m) and VA opsin-like genes in the developing chicken retina and neural tissues. Gene Expr Patterns (2007) 0.90
Characterization of the 5-HT6 receptor coupled to Ca2+ signaling using an enabling chimeric G-protein. Eur J Pharmacol (2003) 0.85
Localization and diurnal expression of melanopsin, vertebrate ancient opsin, and pituitary adenylate cyclase-activating peptide mRNA in a teleost retina. J Biol Rhythms (2007) 0.78
Conservation and divergence of methylation patterning in plants and animals. Proc Natl Acad Sci U S A (2010) 7.30
Melanopsin cells are the principal conduits for rod-cone input to non-image-forming vision. Nature (2008) 4.55
Melanopsin-expressing retinal ganglion-cell photoreceptors: cellular diversity and role in pattern vision. Neuron (2010) 2.91
Transactivation from Gal4-VP16 transgenic insertions for tissue-specific cell labeling and ablation in zebrafish. Dev Biol (2007) 2.62
Aberrant light directly impairs mood and learning through melanopsin-expressing neurons. Nature (2012) 2.26
Stabilized G protein binding site in the structure of constitutively active metarhodopsin-II. Proc Natl Acad Sci U S A (2011) 1.96
Distinct roles of transcription factors brn3a and brn3b in controlling the development, morphology, and function of retinal ganglion cells. Neuron (2009) 1.95
Intrinsically photosensitive retinal ganglion cells: many subtypes, diverse functions. Trends Neurosci (2011) 1.88
Melanopsin-dependent nonvisual responses: evidence for photopigment bistability in vivo. J Biol Rhythms (2007) 1.88
The parapineal mediates left-right asymmetry in the zebrafish diencephalon. Development (2003) 1.75
Melanopsin regulates visual processing in the mouse retina. Curr Biol (2006) 1.67
Transcriptional silencing and reactivation in transgenic zebrafish. Genetics (2009) 1.67
Characterization of myelination in the developing zebrafish. Glia (2002) 1.64
Directional asymmetry of the zebrafish epithalamus guides dorsoventral innervation of the midbrain target. Development (2005) 1.64
Rod photoreceptors drive circadian photoentrainment across a wide range of light intensities. Nat Neurosci (2010) 1.63
Visualization of estrogen receptor transcriptional activation in zebrafish. Endocrinology (2011) 1.62
Intrinsically photosensitive retinal ganglion cells detect light with a vitamin A-based photopigment, melanopsin. Proc Natl Acad Sci U S A (2005) 1.54
Otx5 regulates genes that show circadian expression in the zebrafish pineal complex. Nat Genet (2001) 1.49
Shedding new light on opsin evolution. Proc Biol Sci (2011) 1.43
Evolution of the cichlid visual palette through ontogenetic subfunctionalization of the opsin gene arrays. Mol Biol Evol (2006) 1.41
Melanopsin forms a functional short-wavelength photopigment. Biochemistry (2003) 1.39
Transgenerational analysis of transcriptional silencing in zebrafish. Dev Biol (2011) 1.34
Radiographic analysis of zebrafish skeletal defects. Dev Biol (2003) 1.32
Melanopsin-positive intrinsically photosensitive retinal ganglion cells: from form to function. J Neurosci (2011) 1.31
Regulation of prokineticin 2 expression by light and the circadian clock. BMC Neurosci (2005) 1.19
Tbx2b is required for the development of the parapineal organ. Development (2008) 1.16
Photochemistry of retinal chromophore in mouse melanopsin. Proc Natl Acad Sci U S A (2008) 1.16
The molecular mechanism for the spectral shifts between vertebrate ultraviolet- and violet-sensitive cone visual pigments. Biochem J (2002) 1.15
Development of melanopsin-based irradiance detecting circuitry. Neural Dev (2011) 1.13
Deep-sea and pelagic rod visual pigments identified in the mysticete whales. Vis Neurosci (2012) 1.04
Neuropilin asymmetry mediates a left-right difference in habenular connectivity. Development (2007) 1.00
Recurrent axon collaterals of intrinsically photosensitive retinal ganglion cells. Vis Neurosci (2013) 0.99
Light-dependent phosphorylation of the carboxy tail of mouse melanopsin. Cell Mol Life Sci (2011) 0.97
Molecular diversity of visual pigments in Stomatopoda (Crustacea). Vis Neurosci (2009) 0.95
Cone visual pigments of aquatic mammals. Vis Neurosci (2006) 0.94
Nogo-Nogo receptor signalling in PNS axon outgrowth and pathfinding. Mol Cell Neurosci (2008) 0.93
Apoptosis regulates ipRGC spacing necessary for rods and cones to drive circadian photoentrainment. Neuron (2013) 0.92
Determining the function of zebrafish epithalamic asymmetry. Philos Trans R Soc Lond B Biol Sci (2009) 0.92
The zebrafish annexin gene family. Genome Res (2003) 0.92
Androgen receptor gene expression in the developing and adult zebrafish brain. Dev Dyn (2008) 0.92
Melanopsin--shedding light on the elusive circadian photopigment. Chronobiol Int (2004) 0.90
CRALBP supports the mammalian retinal visual cycle and cone vision. J Clin Invest (2015) 0.90
DNA methylation in zebrafish. Prog Mol Biol Transl Sci (2011) 0.89
Selective asymmetry in a conserved forebrain to midbrain projection. J Exp Zool B Mol Dev Evol (2007) 0.89
The circadian Clock mutant mouse: impaired masking response to light. J Comp Physiol A Neuroethol Sens Neural Behav Physiol (2004) 0.88
Low aqueous solubility of 11-cis-retinal limits the rate of pigment formation and dark adaptation in salamander rods. J Gen Physiol (2012) 0.87
Phosphorylation of mouse melanopsin by protein kinase A. PLoS One (2012) 0.86
Aversive cues fail to activate fos expression in the asymmetric olfactory-habenula pathway of zebrafish. Front Neural Circuits (2013) 0.85
Subnuclear development of the zebrafish habenular nuclei requires ER translocon function. Dev Biol (2011) 0.85
Cholinergic left-right asymmetry in the habenulo-interpeduncular pathway. Proc Natl Acad Sci U S A (2013) 0.85
Identification of critical phosphorylation sites on the carboxy tail of melanopsin. Biochemistry (2014) 0.83
Spectral tuning and evolution of primate short-wavelength-sensitive visual pigments. Proc Biol Sci (2011) 0.83
Neurotransmitter map of the asymmetric dorsal habenular nuclei of zebrafish. Genesis (2014) 0.81
Arrestin residues involved in the functional binding of arrestin to phosphorylated, photolyzed rhodopsin. Mol Vis (2006) 0.80
A versatile aquatics facility inventory system with real-time barcode scan entry. Zebrafish (2010) 0.80
Retina-clock relations dictate nocturnal to diurnal behaviors. Proc Natl Acad Sci U S A (2008) 0.78
The visual pigments of the West Indian manatee (Trichechus manatus). Vision Res (2006) 0.78
Specification of left-right asymmetry. Results Probl Cell Differ (2002) 0.78
Vertebrate opsins belonging to different classes vary in constitutively active properties resulting from salt-bridge mutations. Biochemistry (2006) 0.78
Transgenic zebrafish reveal tissue-specific differences in estrogen signaling in response to environmental water samples. Environ Health Perspect (2014) 0.77
Differential phosphorylation of the rhodopsin cytoplasmic tail mediates the binding of arrestin and its splice variant, p44. Biochemistry (2006) 0.76
Corrigendum: Lhx6-positive GABA-releasing neurons of the zona incerta promote sleep. Nature (2017) 0.75
Evolving into science advocates. Dev Dyn (2008) 0.75
Layers of complexity: diverse molecular mechanisms transforming germ layers into organisms. Curr Opin Genet Dev (2012) 0.75
Left-right asymmetry: advances and enigmas. Genesis (2014) 0.75