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Summary Expression Phenotypes Gene Literature (45) GO Terms (5) Nucleotides (58) Proteins (37) Interactants (80) Wiki
XB-GENEPAGE-484581

Papers associated with opn4



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Cell-type expression and activation by light of neuropsins in the developing and mature Xenopus retina., Man LLH, Storey SS, Bertolesi GE, McFarlane S., Front Cell Neurosci. January 1, 2023; 17 1266945.                  

Distinct type II opsins in the eye decode light properties for background adaptation and behavioural background preference., Bertolesi GE, Debnath N, Atkinson-Leadbeater K, Niedzwiecka A, McFarlane S., Mol Ecol. December 1, 2021; 30 (24): 6659-6676.

Melanopsin phototransduction: beyond canonical cascades., Contreras E, Nobleman AP, Robinson PR, Schmidt TM., J Exp Biol. December 1, 2021; 224 (23):         

Type II Opsins in the Eye, the Pineal Complex and the Skin of Xenopus laevis: Using Changes in Skin Pigmentation as a Readout of Visual and Circadian Activity., Bertolesi GE, Debnath N, Malik HR, Man LLH, McFarlane S., Front Neuroanat. January 1, 2021; 15 784478.      

The regulation of skin pigmentation in response to environmental light by pineal Type II opsins and skin melanophore melatonin receptors., Bertolesi GE, Atkinson-Leadbeater K, Mackey EM, Song YN, Heyne B, McFarlane S., J Photochem Photobiol B. November 1, 2020; 212 112024.  

Extraocular, rod-like photoreceptors in a flatworm express xenopsin photopigment., Rawlinson KA, Lapraz F, Ballister ER, Terasaki M, Rodgers J, McDowell RJ, Girstmair J, Criswell KE, Boldogkoi M, Simpson F, Goulding D, Cormie C, Hall B, Lucas RJ, Telford MJ., Elife. October 22, 2019; 8                     

Regulation of Melanopsin Signaling: Key Interactions of the Nonvisual Photopigment., Stachurska A, Sarna T., Photochem Photobiol. January 1, 2019; 95 (1): 83-94.

Co-expression of xenopsin and rhabdomeric opsin in photoreceptors bearing microvilli and cilia., Vöcking O, Kourtesis I, Tumu SC, Hausen H., Elife. September 6, 2017; 6                         

The Visual Cycle in the Inner Retina of Chicken and the Involvement of Retinal G-Protein-Coupled Receptor (RGR)., Díaz NM, Morera LP, Tempesti T, Guido ME., Mol Neurobiol. May 1, 2017; 54 (4): 2507-2517.

Horizontal cells expressing melanopsin x are novel photoreceptors in the avian inner retina., Morera LP, Díaz NM, Guido ME., Proc Natl Acad Sci U S A. November 15, 2016; 113 (46): 13215-13220.

Two light-activated neuroendocrine circuits arising in the eye trigger physiological and morphological pigmentation., Bertolesi GE, Hehr CL, Munn H, McFarlane S., Pigment Cell Melanoma Res. November 1, 2016; 29 (6): 688-701.

Melanopsin-Encoded Response Properties of Intrinsically Photosensitive Retinal Ganglion Cells., Mure LS, Hatori M, Zhu Q, Demas J, Kim IM, Nayak SK, Panda S., Neuron. June 1, 2016; 90 (5): 1016-27.

Heterologous expression of melanopsin: Present, problems and prospects., Shirzad-Wasei N, DeGrip WJ., Prog Retin Eye Res. May 1, 2016; 52 1-21.

Pharmacological induction of skin pigmentation unveils the neuroendocrine circuit regulated by light., Bertolesi GE, Vazhappilly ST, Hehr CL, McFarlane S., Pigment Cell Melanoma Res. March 1, 2016; 29 (2): 186-98.

Melanopsin and the Non-visual Photochemistry in the Inner Retina of Vertebrates., Díaz NM, Morera LP, Guido ME., Photochem Photobiol. January 1, 2016; 92 (1): 29-44.

Retinal Attachment Instability Is Diversified among Mammalian Melanopsins., Tsukamoto H, Kubo Y, Farrens DL, Koyanagi M, Terakita A, Furutani Y., J Biol Chem. November 6, 2015; 290 (45): 27176-27187.

Melanopsin photoreception in the eye regulates light-induced skin colour changes through the production of α-MSH in the pituitary gland., Bertolesi GE, Hehr CL, McFarlane S., Pigment Cell Melanoma Res. September 1, 2015; 28 (5): 559-71.

Light sensitivity in a vertebrate mechanoreceptor?, Baker GE, de Grip WJ, Turton M, Wagner HJ, Foster RG, Douglas RH., J Exp Biol. September 1, 2015; 218 (Pt 18): 2826-9.

Melanopsins: Localization and Phototransduction in Xenopus laevis Melanophores., Moraes MN, Ramos BC, Poletini MO, Castrucci AM., Photochem Photobiol. January 1, 2015; 91 (5): 1133-41.

Endothelin modulates the circadian expression of non-visual opsins., Moraes MN, Lima LH, Ramos BC, Poletini Mde O, Castrucci AM., Gen Comp Endocrinol. September 1, 2014; 205 279-86.          

Wiring the retinal circuits activated by light during early development., Bertolesi GE, Hehr CL, McFarlane S., Neural Dev. February 13, 2014; 9 3.              

Effect of light on expression of clock genes in Xenopus laevis melanophores., Magalhães Moraes MN, de Oliveira Poletini M, Ribeiro Ramos BC, de Lima LH, de Lauro Castrucci AM., Photochem Photobiol. January 1, 2014; 90 (3): 696-701.

Early appearance of nonvisual and circadian markers in the developing inner retinal cells of chicken., Díaz NM, Morera LP, Verra DM, Contin MA, Guido ME., Biomed Res Int. January 1, 2014; 2014 646847.        

Regulation of melanopsins and Per1 by α -MSH and melatonin in photosensitive Xenopus laevis melanophores., Moraes MN, dos Santos LR, Mezzalira N, Poletini MO, Castrucci AM., Biomed Res Int. January 1, 2014; 2014 654710.      

Effect of Light on Expression of Clock Genes in Xenopus laevis Melanophores., de Carvalho Magalhães Moraes MN, de Oliveira Poletini M, Ramos BC, de Lima LH, de Lauro Castrucci AM., Photochem Photobiol. December 26, 2013;


The melanocyte photosensory system in the human skin., Iyengar B., Springerplus. April 12, 2013; 2 (1): 158.                

Isolation and characterization of melanopsin photoreceptors of Atlantic salmon (Salmo salar)., Sandbakken M, Ebbesson L, Stefansson S, Helvik JV., J Comp Neurol. November 1, 2012; 520 (16): 3727-44.

The expression of melanopsin and clock genes in Xenopus laevis melanophores and their modulation by melatonin., Bluhm AP, Obeid NN, Castrucci AM, Visconti MA., Braz J Med Biol Res. August 1, 2012; 45 (8): 730-6.        

Positive selection and functional divergence after melanopsin gene duplication., Dong C, Zhang J, Qiao J, He G., Biochem Genet. April 1, 2012; 50 (3-4): 235-48.

Early onset and differential temporospatial expression of melanopsin isoforms in the developing chicken retina., Verra DM, Contín MA, Hicks D, Guido ME., Invest Ophthalmol Vis Sci. July 29, 2011; 52 (8): 5111-20.

A mammalian melanopsin in the retina of a fresh water turtle, the red-eared slider (Trachemys scripta elegans)., Dearworth JR, Selvarajah BP, Kalman RA, Lanzone AJ, Goch AM, Boyd AB, Goldberg LA, Cooper LJ., Vision Res. January 28, 2011; 51 (2): 288-95.

Unexpected diversity and photoperiod dependence of the zebrafish melanopsin system., Matos-Cruz V, Blasic J, Nickle B, Robinson PR, Hattar S, Halpern ME., PLoS One. January 1, 2011; 6 (9): e25111.          

Transcriptome Analysis of the Circadian Regulatory Network in the Coral Acropora millepora., Vize PD., Biol Bull. April 1, 2009; 216 (2): 131-7.

Functional expression, targeting and Ca2+ signaling of a mouse melanopsin-eYFP fusion protein in a retinal pigment epithelium cell line., Giesbers ME, Shirzad-Wasei N, Bosman GJ, de Grip WJ., Photochem Photobiol. January 1, 2008; 84 (4): 990-5.

Isolation and characterization of melanopsin and pinopsin expression within photoreceptive sites of reptiles., Frigato E, Vallone D, Bertolucci C, Foulkes NS., Naturwissenschaften. August 1, 2006; 93 (8): 379-85.

Evolution of melanopsin photoreceptors: discovery and characterization of a new melanopsin in nonmammalian vertebrates., Bellingham J, Chaurasia SS, Melyan Z, Liu C, Cameron MA, Tarttelin EE, Iuvone PM, Hankins MW, Tosini G, Lucas RJ., PLoS Biol. July 1, 2006; 4 (8): e254.          

Illumination of the melanopsin signaling pathway., Panda S, Nayak SK, Campo B, Walker JR, Hogenesch JB, Jegla T., Science. January 28, 2005; 307 (5709): 600-4.

Rhabdomeric phototransduction initiated by the vertebrate photopigment melanopsin., Isoldi MC, Rollag MD, Castrucci AM, Provencio I., Proc Natl Acad Sci U S A. January 25, 2005; 102 (4): 1217-21.

Molecular cloning, localization and circadian expression of chicken melanopsin (Opn4): differential regulation of expression in pineal and retinal cell types., Chaurasia SS, Rollag MD, Jiang G, Hayes WP, Haque R, Natesan A, Zatz M, Tosini G, Liu C, Korf HW, Iuvone PM, Provencio I., J Neurochem. January 1, 2005; 92 (1): 158-70.

Molecular analysis of the evolutionary significance of ultraviolet vision in vertebrates., Shi Y, Yokoyama S., Proc Natl Acad Sci U S A. July 8, 2003; 100 (14): 8308-13.

Isolation and characterization of two teleost melanopsin genes and their differential expression within the inner retina and brain., Drivenes Ø, Søviknes AM, Ebbesson LO, Fjose A, Seo HC, Helvik JV., J Comp Neurol. January 27, 2003; 456 (1): 84-93.

Zebrafish melanopsin: isolation, tissue localisation and phylogenetic position., Bellingham J, Whitmore D, Philp AR, Wells DJ, Foster RG., Brain Res Mol Brain Res. November 15, 2002; 107 (2): 128-36.

Molecular evolution of color vision in vertebrates., Yokoyama S., Gene. October 30, 2002; 300 (1-2): 69-78.        

Cultured amphibian melanophores: a model system to study melanopsin photobiology., Rollag MD, Provencio I, Sugden D, Green CB., Methods Enzymol. January 1, 2000; 316 291-309.

Melanopsin: An opsin in melanophores, brain, and eye., Provencio I, Jiang G, De Grip WJ, Hayes WP, Rollag MD., Proc Natl Acad Sci U S A. January 6, 1998; 95 (1): 340-5.        

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