由于蛾类眼睛中屏蔽色素迁移导致的光谱敏感性红移。

Red-shift of spectral sensitivity due to screening pigment migration in the eyes of a moth, .

作者信息

Satoh Aya, Stewart Finlay J, Koshitaka Hisaharu, Akashi Hiroshi D, Pirih Primož, Sato Yasushi, Arikawa Kentaro

机构信息

Laboratory of Neuroethology, SOKENDAI (The Graduate University for Advanced Studies), Shonan Village, Hayama, 240-0193 Japan.

Division of Tea Research, Institute of Fruit Tree and Tea Science, National Agriculture and Food Research Organization (NARO), Kanaya, 428-0039 Japan.

出版信息

Zoological Lett. 2017 Aug 30;3:14. doi: 10.1186/s40851-017-0075-6. eCollection 2017.

DOI:10.1186/s40851-017-0075-6

PMID:28861276

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5575869/

Abstract

BACKGROUND

We have found that the spectral sensitivity of the compound eye in the summer fruit tortrix moth () differs in laboratory strains originating from different regions of Japan. We have investigated the mechanisms underlying this anomalous spectral sensitivity.

METHODS

We applied electrophysiology, light and electron microscopy, opsin gene cloning, mathematical modeling, and behavioral analysis.

RESULTS

The ERG-determined spectral sensitivity of dark-adapted individuals of all strains peaks around 520 nm. When light-adapted, the spectral sensitivity of the Nagano strain narrows and its peak shifts to 580 nm, while that in other strains remains unchanged. All tested strains appear to be identical in terms of the basic structure of the eye, the pigment migration in response to light- and dark-adaptation, and the molecular structure of long-wavelength absorbing visual pigments. However, the color of the perirhabdomal pigment clearly differs; it is orange in the Nagano strain and purple in the others. The action spectrum of phototaxis appears to be shifted towards longer wavelengths in the Nagano individuals.

CONCLUSIONS

The spectral sensitivities of light-adapted eyes can be modeled under the assumption that this screening pigment plays a crucial role in determining the spectral sensitivity. The action spectrum of phototaxis indicates that the change in the eye spectral sensitivity is behaviorally relevant.

摘要

背景

我们发现，来自日本不同地区的夏季水果卷叶蛾（）复眼的光谱敏感性在实验室菌株中存在差异。我们研究了这种异常光谱敏感性背后的机制。

方法

我们应用了电生理学、光学和电子显微镜、视蛋白基因克隆、数学建模以及行为分析。

结果

所有菌株暗适应个体的视网膜电图测定光谱敏感性在520纳米左右达到峰值。光适应时，长野菌株的光谱敏感性变窄，峰值移至580纳米，而其他菌株的光谱敏感性保持不变。就眼睛的基本结构、光适应和暗适应时的色素迁移以及长波长吸收视觉色素的分子结构而言，所有测试菌株似乎都是相同的。然而，围食膜色素的颜色明显不同；长野菌株中为橙色，其他菌株中为紫色。长野个体的趋光行为光谱似乎向更长波长移动。

结论

在这种筛选色素在决定光谱敏感性方面起关键作用的假设下，可以对光适应眼睛的光谱敏感性进行建模。趋光行为光谱表明眼睛光谱敏感性的变化与行为相关。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e570/5575869/c0ecf650f163/40851_2017_75_Fig1_HTML.jpg

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由于蛾类眼睛中屏蔽色素迁移导致的光谱敏感性红移 。

Red-shift of spectral sensitivity due to screening pigment migration in the eyes of a moth, .

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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由于蛾类眼睛中屏蔽色素迁移导致的光谱敏感性红移。