Behavior-Specific Computations in the Vertebrate Retina.

IF 5 2区医学 Q1 NEUROSCIENCES

Annual Review of Vision Science Pub Date : 2025-05-06 DOI:10.1146/annurev-vision-102122-104700

Serena Riccitelli, Anna L Vlasits, Katrin Franke

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引用次数: 0

Abstract

Since Lettvin and colleagues' seminal discovery of bug detector neurons in the frog retina, understanding how retinal circuits support behavioral demands has been a central goal of visual neuroscience. Recent advances in machine learning, genetic tools, and neural recording have transformed our understanding of these circuits, particularly in the mouse retina. With a focus on mice, we examine how species-specific visual sampling strategies determine the behavioral relevance of retinal computations and review recent insights into circuits underlying reflexive behaviors, threat detection, prey capture, color vision, and night vision. We also highlight how the behavioral state itself influences retinal processing through direct neuromodulation and pupillary changes, challenging the traditional view of purely feedforward retinal processing in mammals. These findings confirm the retina as a sophisticated computational engine whose circuits have evolved to meet species-specific behavioral demands. While Lettvin's discovery of dedicated retinal circuits for innate behaviors launched the field, new tools now promise to expand our understanding of retinal contributions to naturalistic and flexible behaviors across species.

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脊椎动物视网膜的行为特异性计算。

自从Lettvin和他的同事在青蛙视网膜中发现了昆虫探测器神经元以来，了解视网膜回路如何支持行为需求一直是视觉神经科学的中心目标。机器学习、遗传工具和神经记录的最新进展已经改变了我们对这些回路的理解，特别是在小鼠视网膜中。以小鼠为研究对象，我们研究了物种特异性视觉采样策略如何决定视网膜计算的行为相关性，并回顾了最近对反射行为、威胁检测、猎物捕获、色觉和夜视基础电路的见解。我们还强调了行为状态本身如何通过直接神经调节和瞳孔变化影响视网膜加工，挑战了哺乳动物纯前馈视网膜加工的传统观点。这些发现证实了视网膜是一个复杂的计算引擎，其电路已经进化到满足物种特定的行为需求。虽然Lettvin的发现为先天行为开辟了专门的视网膜回路，但现在新的工具有望扩大我们对视网膜对跨物种自然和灵活行为的贡献的理解。

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

Annual Review of Vision Science Medicine-Ophthalmology

CiteScore

11.10

自引率

1.70%

发文量

期刊介绍： The Annual Review of Vision Science reviews progress in the visual sciences, a cross-cutting set of disciplines which intersect psychology, neuroscience, computer science, cell biology and genetics, and clinical medicine. The journal covers a broad range of topics and techniques, including optics, retina, central visual processing, visual perception, eye movements, visual development, vision models, computer vision, and the mechanisms of visual disease, dysfunction, and sight restoration. The study of vision is central to progress in many areas of science, and this new journal will explore and expose the connections that link it to biology, behavior, computation, engineering, and medicine.