Literature DB >> 15312024

Evolution of vertebrate colour vision.

Gerald H Jacobs1, Mickey P Rowe.   

Abstract

Recent years have witnessed a growing interest in learning how colour vision has evolved. This trend has been fuelled by an enhanced understanding of the nature and extent of colour vision among contemporary species, by a deeper understanding of the paleontological record and by the application of new tools from molecular biology. This review provides an assessment of the progress in understanding the evolution of vertebrate colour vision. In so doing, we offer accounts of the evolution of three classes of mechanism important for colour vision--photopigment opsins, oil droplets and retinal organisation--and then examine details of how colour vision has evolved among mammals and, more specifically, among primates.

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Year:  2004        PMID: 15312024     DOI: 10.1111/j.1444-0938.2004.tb05050.x

Source DB:  PubMed          Journal:  Clin Exp Optom        ISSN: 0816-4622            Impact factor:   2.742


  25 in total

1.  Photoreceptors and photopigments in a subterranean rodent, the pocket gopher (Thomomys bottae).

Authors:  Gary A Williams; Jack B Calderone; Gerald H Jacobs
Journal:  J Comp Physiol A Neuroethol Sens Neural Behav Physiol       Date:  2004-11-17       Impact factor: 1.836

Review 2.  Evolution of the vertebrate eye: opsins, photoreceptors, retina and eye cup.

Authors:  Trevor D Lamb; Shaun P Collin; Edward N Pugh
Journal:  Nat Rev Neurosci       Date:  2007-12       Impact factor: 34.870

Review 3.  The evolution of early vertebrate photoreceptors.

Authors:  Shaun P Collin; Wayne L Davies; Nathan S Hart; David M Hunt
Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2009-10-12       Impact factor: 6.237

Review 4.  Evolution of colour vision in mammals.

Authors:  Gerald H Jacobs
Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2009-10-12       Impact factor: 6.237

Review 5.  Empirical approaches to the study of language evolution.

Authors:  W Tecumseh Fitch
Journal:  Psychon Bull Rev       Date:  2017-02

6.  Imaging light responses of retinal ganglion cells in the living mouse eye.

Authors:  Lu Yin; Ying Geng; Fumitaka Osakada; Robin Sharma; Ali H Cetin; Edward M Callaway; David R Williams; William H Merigan
Journal:  J Neurophysiol       Date:  2013-02-13       Impact factor: 2.714

7.  Spatial and temporal instability of local biotic community mediate a form of aposematic defense in newts, consisting of carotenoid-based coloration and tetrodotoxin.

Authors:  Koji Mochida; Minoru Kitada; Koichi Ikeda; Mamoru Toda; Tomohiro Takatani; Osamu Arakawa
Journal:  J Chem Ecol       Date:  2013-09-08       Impact factor: 2.626

8.  Nocturnality in synapsids predates the origin of mammals by over 100 million years.

Authors:  K D Angielczyk; L Schmitz
Journal:  Proc Biol Sci       Date:  2014-10-22       Impact factor: 5.349

9.  The evolution of eyes: major steps. The Keeler lecture 2017: centenary of Keeler Ltd.

Authors:  I R Schwab
Journal:  Eye (Lond)       Date:  2017-10-20       Impact factor: 3.775

10.  Diurnal variation in opsin expression and common housekeeping genes necessitates comprehensive normalization methods for quantitative real-time PCR analyses.

Authors:  Miranda R Yourick; Benjamin A Sandkam; William J Gammerdinger; Daniel Escobar-Camacho; Sri Pratima Nandamuri; Frances E Clark; Brendan Joyce; Matthew A Conte; Thomas D Kocher; Karen L Carleton
Journal:  Mol Ecol Resour       Date:  2019-08-07       Impact factor: 7.090
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