human | Q5 |
P1960 | Google Scholar author ID | Jq1Z04MAAAAJ |
P244 | Library of Congress authority ID | n81120228 |
P8189 | National Library of Israel J9U ID | 987007334983405171 |
P1006 | Nationale Thesaurus voor Auteursnamen ID | 069391289 |
P2038 | ResearchGate profile ID | Gerald_Jacobs |
P214 | VIAF ID | 8714998 |
P10832 | WorldCat Entities ID | E39PBJf8tPmRp7JMPHPHqjKGHC |
P166 | award received | Fellow of the American Association for the Advancement of Science | Q5442484 |
Edgar D. Tillyer Award | Q42417362 | ||
Verriest Medal | Q57256580 | ||
P69 | educated at | University of Vermont | Q1048898 |
Indiana University | Q6608367 | ||
P108 | employer | University of Texas at Austin | Q49213 |
University of California, Santa Barbara | Q263064 | ||
P734 | family name | Jacobs | Q1158566 |
Jacobs | Q1158566 | ||
Jacobs | Q1158566 | ||
P735 | given name | Gerald | Q2131007 |
Gerald | Q2131007 | ||
P106 | occupation | psychologist | Q212980 |
P21 | sex or gender | male | Q6581097 |
Q43780756 | An animal model for studying cone function in retinal detachment |
Q52312790 | Behavioral measurements of rat spectral sensitivity |
Q48887477 | Center-surround balance in receptive fields of cells in the lateral geniculate nucleus |
Q34605929 | Characterization of opsin gene alleles affecting color vision in a wild population of titi monkeys (Callicebus brunneus). |
Q44001404 | Cone monochromacy and a reversed Purkinje shift in the gerbil |
Q44224823 | Cone photoreceptor recovery after experimental detachment and reattachment: an immunocytochemical, morphological, and electrophysiological study |
Q42167617 | Cone pigment polymorphism in New World monkeys: are all pigments created equal? |
Q44283597 | Cone pigment variations in four genera of new world monkeys |
Q33805142 | Cone pigments in a North American marsupial, the opossum (Didelphis virginiana). |
Q36103372 | Cone-based vision in the aging mouse |
Q46239463 | Contributions of the mouse UV photopigment to the ERG and to vision |
Q46439813 | Development of spectral mechanisms in the ground squirrel retina following lid opening |
Q46078845 | Directional filter characteristics of optic nerve fibers in California ground squirrel (Spermophilus beecheyi). |
Q46372531 | Diurnality and cone photopigment polymorphism in strepsirrhines: examination of linkage in Lemur catta |
Q46117708 | Early afferent signaling in the outer plexiform layer regulates development of horizontal cell morphology |
Q46143838 | Effects of photic environment on the development of spectral response properties of optic nerve fibers in the ground squirrel |
Q34003122 | Emergence of novel color vision in mice engineered to express a human cone photopigment |
Q24651858 | Evolution of colour vision in mammals |
Q35863288 | Evolution of vertebrate colour vision |
Q36161538 | Genetically engineered mice with an additional class of cone photoreceptors: implications for the evolution of color vision |
Q46300233 | Increment thresholds of the three spectral mechanisms in the retina of the California ground squirrel (Spermophilus beecheyi). |
Q44890757 | Influence of cone pigment coexpression on spectral sensitivity and color vision in the mouse |
Q24612316 | Inheritance of color vision in a New World monkey (Saimiri sciureus) |
Q46870968 | L and M cone proportions in polymorphic New World monkeys |
Q38071337 | Losses of functional opsin genes, short-wavelength cone photopigments, and color vision--a significant trend in the evolution of mammalian vision |
Q45961860 | Mutational changes in S-cone opsin genes common to both nocturnal and cathemeral Aotus monkeys. |
Q55066604 | Mutations in S-cone pigment genes and the absence of colour vision in two species of nocturnal primate. |
Q46131380 | Naturalistic color discriminations in polymorphic platyrrhine monkeys: effects of stimulus luminance and duration examined with functional substitution |
Q43862517 | Opsin gene and photopigment polymorphism in a prosimian primate |
Q28363591 | Photopigments and colour vision in New World monkeys from the family Atelidae |
Q46811886 | Photopigments and seeing--lessons from natural experiments: the Proctor lecture. |
Q46244421 | Photopigments and the dimensionality of animal color vision |
Q45265729 | Photoreceptors and photopigments in a subterranean rodent, the pocket gopher (Thomomys bottae). |
Q46184020 | Polymorphic New World monkeys with more than three M/L cone types |
Q46092864 | Polymorphism of photopigments in the squirrel monkey: a sixth phenotype. |
Q28299758 | Primate color vision: a comparative perspective |
Q24567497 | Primate photopigments and primate color vision |
Q46319790 | Rod and cone function in coneless mice |
Q46463205 | Spatial filter characteristics of optic nerve fibers in California ground squirrel (Spermophilus beecheyi). |
Q44405935 | Spectral properties and retinal distribution of ferret cones |
Q48401365 | Spectral sensitivity of cat cones to rapid flicker |
Q43557877 | Spectral sensitivity of gibbons: implications for photopigments and color vision |
Q37795073 | The Verriest Lecture 2009: recent progress in understanding mammalian color vision |
Q38221162 | The discovery of spectral opponency in visual systems and its impact on understanding the neurobiology of color vision |
Q46052501 | The evolution of Primate color vision |
Q37991618 | The evolution of vertebrate color vision |
Q44628681 | Topography of Photoreceptors and Retinal Ganglion Cells in the Spotted Hyena <i>(Crocuta crocuta)</i> |
Q28765952 | Uniformity of colour vision in Old World monkeys |
Q46082920 | Visual acuity and spatial contrast sensitivity in tree squirrels |
Q44393203 | Visual adaptations in a diurnal rodent, Octodon degus |
Q38701205 | Visual pigments of marine carnivores: pinnipeds, polar bear, and sea otter |
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