Rod monochromacy and the coevolution of cetacean retinal opsins
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A Link No Longer Missing: New Evidence for the Cetotheriid Affinities of Caperea.Euarchontan Opsin Variation Brings New Focus to Primate OriginsSpectral shifts of mammalian ultraviolet-sensitive pigments (short wavelength-sensitive opsin 1) are associated with eye length and photic niche evolutionA phylogenomic analysis of the role and timing of molecular adaptation in the aquatic transition of cetartiodactyl mammals.Genomic evidence for rod monochromacy in sloths and armadillos suggests early subterranean history for XenarthraSpectral Tuning of Killer Whale (Orcinus orca) Rhodopsin: Evidence for Positive Selection and Functional Adaptation in a Cetacean Visual Pigment.Baiji genomes reveal low genetic variability and new insights into secondary aquatic adaptationsSensory rewiring in an echolocator: genome-wide modification of retinogenic and auditory genes in the bat Myotis davidiiUnique patterns of transcript and miRNA expression in the South American strong voltage electric eel (Electrophorus electricus)Visual system evolution and the nature of the ancestral snake.Genomic Methods Take the Plunge: Recent Advances in High-Throughput Sequencing of Marine Mammals.Variation in opsin genes correlates with signalling ecology in North American firefliesThe cochlea of the enigmatic pygmy right whale Caperea marginata informs mysticete phylogeny.Multiple Genetic Mechanisms Contribute to Visual Sensitivity Variation in the LabridaeS cones: Evolution, retinal distribution, development, and spectral sensitivity.Why do seals have cones? Behavioural evidence for colour-blindness in harbour seals.Whole-genome sequence of a flatfish provides insights into ZW sex chromosome evolution and adaptation to a benthic lifestyle.Functional preservation and variation in the cone opsin genes of nocturnal tarsiers.Coping with copepods: do right whales (Eubalaena glacialis) forage visually in dark waters?The opsin genes of amazonian cichlids.Adaptive genomic evolution of opsins reveals that early mammals flourished in nocturnal environments.Epistatic interactions influence terrestrial-marine functional shifts in cetacean rhodopsin.[Color vision in animals : From color blind seals to tetrachromatic vision in birds].A Miocene pygmy right whale fossil from Australia.Resurrecting phenotypes from ancient DNA sequences: promises and perspectivesSensory Perception in Cetaceans: Part I—Current Knowledge about Dolphin Senses As a Representative SpeciesOpsin gene expression regulated by testosterone level in a sexually dimorphic lizard
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P2860
Rod monochromacy and the coevolution of cetacean retinal opsins
description
2013 nî lūn-bûn
@nan
2013 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Rod monochromacy and the coevolution of cetacean retinal opsins
@ast
Rod monochromacy and the coevolution of cetacean retinal opsins
@en
Rod monochromacy and the coevolution of cetacean retinal opsins
@nl
type
label
Rod monochromacy and the coevolution of cetacean retinal opsins
@ast
Rod monochromacy and the coevolution of cetacean retinal opsins
@en
Rod monochromacy and the coevolution of cetacean retinal opsins
@nl
prefLabel
Rod monochromacy and the coevolution of cetacean retinal opsins
@ast
Rod monochromacy and the coevolution of cetacean retinal opsins
@en
Rod monochromacy and the coevolution of cetacean retinal opsins
@nl
P2093
P2860
P3181
P1433
P1476
Rod monochromacy and the coevolution of cetacean retinal opsins
@en
P2093
John Gatesy
Mark S Springer
Robert W Meredith
Vincent M York
P2860
P304
P3181
P356
10.1371/JOURNAL.PGEN.1003432
P407
P577
2013-04-18T00:00:00Z