Giulia Lorenzetti, Laura Barsanti, Lorenzo Birindelli, Paolo Gualtieri, Stefano Legnaioli
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引用次数: 0
摘要
单细胞微藻类Euglena gracilis一直被认为是研究光感受反应和系统的理想藻类,已有数百篇文章以它为主题。此外,由于它具有可探测的光感受器,因此在光感受的进化过程中,从单细胞和简单细胞到高等生物的复杂视觉系统,它都扮演了关键的角色。在这篇文章中,我们报告了在 E. gracilis 和 Bos taurus 视网膜光感受器上记录的拉曼光谱。这些光谱几乎完美的叠加性(相关系数 r = 0.955)表明,褐飞虱的光感受器具有与脊椎动物光感受器相同的结构特征,即嵌入类似于罗丹明蛋白的膜层。在羟胺处理后,对鳗鲡光感受器进行的活体拉曼光谱记录进一步证实了我们的发现,这将促使人们重新考虑有关藻类光感受和眼睛进化的大部分科学文献。
Nomen omen: Euglena gracilis possesses a rhodopsin‐based photoreceptor
The unicellular microalga Euglena gracilis has always been considered the ideal alga to investigate photoreceptive responses and systems, and it has been the subject of hundreds of articles. Moreover, because of its detectable photoreceptor, it has been given a key role in the evolution of photoreception, from single and simple cells to complex visual system of higher organisms. In this article, we report the Raman spectra recorded in vivo on photoreceptors of E. gracilis and Bos taurus retina. The almost perfect superimposability (correlation coefficient r = 0.955) of these spectra states that the Euglena possesses a photoreceptor with the same structural characteristic of a vertebrate photoreceptor, i.e. a stack of membrane layers embedding rhodopsin‐like proteins. Raman spectra recorded in vivo on photoreceptors of E. gracilis after hydroxylamine treatment further confirm our findings, which should lead to a reconsideration of most of the scientific literature on algae photoreception and eye evolution.
期刊介绍:
Photochemistry and Photobiology publishes original research articles and reviews on current topics in photoscience. Topics span from the primary interaction of light with molecules, cells, and tissue to the subsequent biological responses, representing disciplinary and interdisciplinary research in the fields of chemistry, physics, biology, and medicine. Photochemistry and Photobiology is the official journal of the American Society for Photobiology.
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