A possible origin of the inverted vertebrate retina revealed by physical modeling

IF 1.8 4区 生物学 Q3 BIOPHYSICS
Jan M. M. Oomens
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Abstract

The evolutionary origin of the inverted retina in the vertebrate eye is unknown. This paper explores a hypothetical evolutionary scenario that explains the unique orientation of the photoreceptors in the vertebrate retina. The proposed scenario follows the scientific accepted scenario for eye evolution and gradually builds up towards an eye prototype by considering light direction detection and increase in achievable spatial resolution as the driving forces. It suggests that eye retinas developed along two different morphological processes, an evagination process that results in the inverted retina in vertebrate eyes and an invagination process that results in a verted retina in cephalopod eyes. The development of the inverted vertebrate retina and eye prototype morphology is strongly substantiated by physics of vision. The proposed evolutionary sequence for vertebrate eye development is simple and has the full potential to explain the origin of the inverted retina and leads to an eye prototype enabling visual detection and orientation. It allows the emergence of eye structures like, extraocular muscles, tapetum lucidum, biconvex lens, cornea, and pupil. This study supports the suggestion that a primitive inverted retina in the predecessor of vertebrates is of ectodermal origin and available before neurulation occurred.

Abstract Image

通过物理建模揭示脊椎动物倒置视网膜的可能起源
脊椎动物眼睛中倒置视网膜的进化起源尚不清楚。本文探讨了一种假设的进化方案,以解释脊椎动物视网膜中感光器的独特方向。提出的方案遵循了科学界公认的眼睛进化方案,并通过考虑光方向检测和提高可实现的空间分辨率作为驱动力,逐步形成了眼睛原型。它表明,眼睛视网膜的发展经历了两个不同的形态过程,一个是导致脊椎动物眼睛视网膜倒置的演化过程,另一个是导致头足类眼睛视网膜垂直的内陷过程。倒置的脊椎动物视网膜和眼睛原型形态的发展得到了视觉物理学的有力证实。所提出的脊椎动物眼球发育的进化序列非常简单,完全有可能解释倒置视网膜的起源,并导致能够进行视觉检测和定向的眼球原型。它允许出现眼外肌、透明带、双凸透镜、角膜和瞳孔等眼部结构。这项研究支持这样的观点,即脊椎动物前身的原始倒置视网膜起源于外胚层,在神经形成之前就已经存在。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Biological Physics
Journal of Biological Physics 生物-生物物理
CiteScore
3.00
自引率
5.60%
发文量
20
审稿时长
>12 weeks
期刊介绍: Many physicists are turning their attention to domains that were not traditionally part of physics and are applying the sophisticated tools of theoretical, computational and experimental physics to investigate biological processes, systems and materials. The Journal of Biological Physics provides a medium where this growing community of scientists can publish its results and discuss its aims and methods. It welcomes papers which use the tools of physics in an innovative way to study biological problems, as well as research aimed at providing a better understanding of the physical principles underlying biological processes.
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