Enhanced short-wavelength sensitivity in the blue-tongued skink Tiliqua rugosa

Nicolas Nagloo, Jessica K. Mountford, Ben J. Gundry, N. Hart, Wayne I. L. Davies, S. Collin, J. Hemmi
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引用次数: 1

Abstract

The complex visually mediated behaviors of diurnal lizards are enabled by a retina typically containing five types of opsins with the potential for tetrachromatic color vision. Despite lizards using a wide range of color signals, the limited variation in photoreceptor spectral sensitivities across lizards suggests only weak selection for species-specific, spectral tuning of photoreceptors. Some species, however, have enhanced short wavelength sensitivity, which likely helps with the detection of signals rich in ultraviolet and short wavelengths. In this study, we examined the visual system of Tiliqua rugosa, which has a UV/blue tongue, to determine the spectral sensitivity of the eye and to gain insight into this species’ visual ecology. Electroretinograms coupled with spectral stimulation showed peak sensitivity at 560 nm with high similarity to other lizards at wavelengths greater than 530 nm. However, at shorter wavelengths, sensitivity is enhanced leading to a spectral sensitivity curve that is 28 nm broader (full width at half height) than other lizards studied so far. The width of the curve is partially explained by a population of photoreceptors that respond more strongly to low temporal frequencies with possible peaks in sensitivity between 460 and 470 nm suggesting that they are SWS2 photoreceptors. The lack of a peak in sensitivity at 360 nm at low temporal frequencies and under a monochromatic light that suppresses the response of LWS photoreceptors, suggests that the SWS1 photoreceptors are red-shifted. In addition, the yellow and green oil droplets that are common in other diurnal lizards appear to be missing and instead, only transparent and pale-yellow oil droplets are present. LWS photoreceptors are likely paired with pale-yellow oil droplets to produce LWS photoreceptors with wider spectral sensitivity curves than in other lizards. Opsin sequencing reveals SWS1, SWS2, RH1, RH2 and LWS opsin genes that are very similar to the visual opsins detected in the green anole, Anolis carolinensis, suggesting there is little change in the spectral sensitivity of photoreceptors compared to other diurnal lizards. Since we only obtained a partial sequence of the SWS1 opsin, we were unable to determine whether amino acid substitution at tuning sites could have played a role in red-shifting the SWS1 photoreceptor spectral sensitivity. Photoreceptor densities are typically higher in central and ventral retinal regions than in the dorsal retina suggesting that higher spatial sampling is necessary at eye level and above the animal than on the ground. However, the SWS1 photoreceptors do not follow this pattern potentially due to their low abundance making them less relevant to high acuity visual tasks. Our findings demonstrate that there are possibly multiple mechanisms acting synergistically in the visual system of T. rugosa to enhance short wavelength sensitivity between 360 and 530 nm. While it is tempting to suggest that this is an adaptation to facilitate the detection of the blue tongues of conspecifics, additional experiments are necessary to determine its ecological relevance. Summary statement Color vision and the distribution of photoreceptor subtypes in T. rugosa
提高蓝舌龙对短波长的敏感度
昼行性蜥蜴复杂的视觉介导行为是由含有五种视蛋白的视网膜实现的,这种视蛋白具有四色视觉的潜力。尽管蜥蜴使用广泛的颜色信号,但蜥蜴之间光感受器光谱灵敏度的有限变化表明,光感受器对物种特异性的光谱调节只有微弱的选择。然而,一些物种具有增强的短波敏感性,这可能有助于检测富含紫外线和短波长的信号。在这项研究中,我们检查了Tiliqua rugosa的视觉系统,它有一个紫外线/蓝色的舌头,以确定眼睛的光谱灵敏度,并深入了解这个物种的视觉生态。视网膜电图与光谱刺激相结合,在560nm处显示出峰值灵敏度,与其他蜥蜴在530nm以上的波长高度相似。然而,在较短的波长下,灵敏度增强,导致光谱灵敏度曲线比迄今为止研究的其他蜥蜴宽28纳米(全宽半高)。曲线的宽度部分解释了光感受器群体对低时间频率的反应更强烈,可能在460和470 nm之间的灵敏度峰值表明它们是SWS2光感受器。在低时间频率和单色光下,在360 nm处缺乏灵敏度峰值,这抑制了LWS光感受器的响应,表明SWS1光感受器发生了红移。此外,在其他昼行性蜥蜴身上常见的黄色和绿色油滴似乎不见了,取而代之的是透明和淡黄色的油滴。LWS光感受器可能与浅黄色油滴配对,产生比其他蜥蜴更宽的光谱灵敏度曲线。视蛋白测序结果显示,SWS1、SWS2、RH1、RH2和LWS视蛋白基因与绿蜥(Anolis carolinensis)中检测到的视蛋白非常相似,这表明与其他夜行性蜥蜴相比,光感受器的光谱敏感性变化不大。由于我们只获得了SWS1视蛋白的部分序列,我们无法确定调谐位点的氨基酸取代是否在SWS1光感受器光谱灵敏度的红移中起作用。视网膜中央和腹侧区域的光感受器密度通常高于视网膜背侧区域,这表明在动物的眼睛水平和上方比在地面上需要更高的空间采样。然而,SWS1光感受器可能不遵循这种模式,因为它们的丰度低,使它们与高灵敏度的视觉任务不太相关。我们的研究结果表明,可能有多种机制协同作用在T. rugosa的视觉系统中,以提高360 - 530 nm之间的短波长灵敏度。虽然这很容易让人认为这是一种适应,以促进对同种蓝舌的检测,但需要额外的实验来确定其生态相关性。色视及光感受器亚型的分布
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