about
Large-scale production and purification of the human green cone pigment: characterization of late photo-intermediatesSignatures of selection and gene conversion associated with human color vision variationThe molecular genetics and evolution of red and green color vision in vertebratesElephants and human color-blind deuteranopes have identical sets of visual pigments.Primate photopigments and primate color visionThe genetics of normal and defective color visionViolet and blue light blocking intraocular lenses: photoprotection versus photoreceptionAdvances in understanding the molecular basis of the first steps in color visionElucidating the exact role of engineered CRABPII residues for the formation of a retinal protonated Schiff baseExpression and Evolution of Short Wavelength Sensitive Opsins in Colugos: A Nocturnal Lineage That Informs Debate on Primate OriginsIn with the old, in with the new: the promiscuity of the duplication process engenders diverse pathways for novel gene creationRecent advances in the gene map of inherited eye disorders: primary hereditary diseases of the retina, choroid, and vitreous.The C9 methyl group of retinal interacts with glycine-121 in rhodopsin.Richer color experience in observers with multiple photopigment opsin genes.Trans-specific evolution of opsin alleles and the maintenance of trichromatic colour vision in Callitrichine primates.Molecular ecology and adaptation of visual photopigments in craniates.The chemistry of John Dalton's color blindness.Functional photoreceptor loss revealed with adaptive optics: an alternate cause of color blindness.New aspects of an old theme: the genetic basis of human color vision.G protein-coupled receptor rhodopsin: a prospectus.Compensation for red-green contrast loss in anomalous trichromats.Cone opsin determines the time course of cone photoreceptor degeneration in Leber congenital amaurosis.Melanopsin tristability for sustained and broadband phototransductionInternal water molecules and H-bonding in biological macromolecules: a review of structural features with functional implications.Recovery of macular pigment spectrum in vivo using hyperspectral image analysis.Sequence divergence of the red and green visual pigments in great apes and humansIndividual Colorimetric Observer Model.Molecular genetics of color-vision deficiencies.Genetically engineered mice with an additional class of cone photoreceptors: implications for the evolution of color vision.Mechanisms of spectral tuning in the mouse green cone pigment.X-linked cone dystrophy and colour vision deficiency arising from a missense mutation in a hybrid L/M cone opsin gene.Molecular characterization of the red visual pigment gene of the American chameleon (Anolis carolinensis).Origins and antiquity of X-linked triallelic color vision systems in New World monkeys.Molecular basis of spectral tuning in the red- and green-sensitive (M/LWS) pigments in vertebratesRole of visual pigment properties in rod and cone phototransductionColor vision: "OH-site" rule for seeing red and green.Different selective pressures shape the molecular evolution of color vision in chimpanzee and human populations.Evolutionary analysis of vision genes identifies potential drivers of visual differences between giraffe and okapi.The retinal mosaics of opsin expression in invertebrates and vertebrates.Color tuning in photofunctional proteins.
P2860
Q24530698-8EB379B3-785A-4D73-A255-42FEF3FFA84EQ24533568-D909B1EA-BBC7-4B99-A8C5-C9370FC40987Q24542495-4FCFA3E6-B98D-4C2D-97B9-4AE912087EF6Q24545078-C9E3B27D-6870-4CA0-8A0F-80203897CBC4Q24567497-B97D1799-090D-4ECF-8BAD-4950C3574172Q24619510-2148396D-20E4-41F8-9859-4E42876D72CAQ24676430-3FAD6C0C-0E37-4C99-B8BC-6E3E1CD92C3EQ26799471-6EF7E404-02C0-4C10-8253-4BC95D51AB31Q27656422-E9CA5915-18E2-4204-91A0-4603B4245957Q28661546-B7B93254-7139-4D7A-90AB-5E93B05A817CQ28727624-093D3290-704B-405E-9E08-CD2E8F5EB4AEQ33596248-E0220D44-24B2-45F5-BECC-4D51A6A7D624Q33704650-6D7B79CE-C04E-4773-899A-D5039A9AE944Q33953979-D22147D0-B0C3-4AA9-A009-6CD34A5C7499Q34151346-FCFB985B-B692-49C7-9836-30C63091A0CBQ34278290-F943F66A-E040-4DAA-94FB-B2FA1C2DFAF4Q34319135-F5082496-2F6F-431C-BEBC-E7BF8EDB41E3Q34321474-14DF83D4-848C-4537-B17A-7CD5F65FFEE8Q34387648-97201ED0-F920-415B-85EA-FED8756755F4Q34537340-C9F74F7C-2D35-4FA5-8C03-667FA23DEEFCQ34554775-9F1A98B3-9D7C-4DDA-A887-D868475C6272Q35008315-32FCB9C4-E061-4A20-B200-1383BD14B230Q35153137-E980CAA9-95B2-48E4-BB25-E2ECA22A7295Q35222975-02D17241-0D57-4E3C-B3EE-13B4BF723D5FQ35510105-A7FBF6D1-8164-49EE-8A36-F40A5519B27AQ35625118-24C8AB9C-0AB6-464A-9759-B68A84068FBFQ35919455-F1DF6E4F-1F65-4CC7-B6A6-8142F8792C2FQ35934812-09AACC10-4EE7-4A8B-8BE9-BC8AE75E949EQ36161538-34C40CDC-9C13-48C2-B280-96DFFB021023Q36564010-66541855-42AC-40D1-B844-B7822C71554CQ36675237-F71962C9-FA7C-4E9F-9982-DFC90D208EFFQ36783737-C4F02033-B74B-4A36-A21B-E1A0A0966608Q36797566-24C8729B-21E1-49CA-87DE-3F23D7A55C27Q36837058-9754FC64-42E5-445D-AF2D-CF2D40D0B99EQ36969142-0DC19C2C-7BB4-4D87-9937-AA9663E68B2BQ37184076-BCA8A9EC-286D-4504-802C-7CF1EC72C4A9Q37291099-EC7D8074-762E-42E3-B757-868A12D94595Q37742552-35953EA5-27C0-4E8A-B19F-9A2E0857164FQ37873910-E73BB6A4-65D4-4488-9071-B4CBAB3449BCQ37944581-4D6E7DC6-1C10-4B8B-AFB3-E749695ED5D8
P2860
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
1992年论文
@zh
1992年论文
@zh-cn
name
Absorption spectra of human cone pigments.
@en
type
label
Absorption spectra of human cone pigments.
@en
prefLabel
Absorption spectra of human cone pigments.
@en
P356
P1433
P1476
Absorption spectra of human cone pigments.
@en
P2093
P2888
P304
P356
10.1038/356433A0
P407
P577
1992-04-01T00:00:00Z
P6179
1038782403