用于天光偏振处理的视觉通路在……中

A visual pathway for skylight polarization processing in .

作者信息

Hardcastle Ben J, Omoto Jaison J, Kandimalla Pratyush, Nguyen Bao-Chau M, Keleş Mehmet F, Boyd Natalie K, Hartenstein Volker, Frye Mark A

机构信息

Department of Integrative Biology and Physiology, University of California, Los Angeles, Los Angeles, United States.

Department of Molecular, Cell and Developmental Biology, University of California, Los Angeles, Los Angeles, United States.

出版信息

Elife. 2021 Mar 23;10:e63225. doi: 10.7554/eLife.63225.

DOI:10.7554/eLife.63225

PMID:33755020

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8051946/

Abstract

Many insects use patterns of polarized light in the sky to orient and navigate. Here, we functionally characterize neural circuitry in the fruit fly, , that conveys polarized light signals from the eye to the central complex, a brain region essential for the fly's sense of direction. Neurons tuned to the angle of polarization of ultraviolet light are found throughout the anterior visual pathway, connecting the optic lobes with the central complex via the anterior optic tubercle and bulb, in a homologous organization to the 'sky compass' pathways described in other insects. We detail how a consistent, map-like organization of neural tunings in the peripheral visual system is transformed into a reduced representation suited to flexible processing in the central brain. This study identifies computational motifs of the transformation, enabling mechanistic comparisons of multisensory integration and central processing for navigation in the brains of insects.

摘要

许多昆虫利用天空中偏振光的模式来定向和导航。在这里，我们对果蝇的神经回路进行了功能表征，该神经回路将偏振光信号从眼睛传递到中央复合体，这是果蝇方向感所必需的一个脑区。在整个前视觉通路中都发现了对紫外光偏振角有调谐作用的神经元，它们通过前视结节和视球将视叶与中央复合体相连，其组织方式与其他昆虫中描述的“天空罗盘”通路同源。我们详细阐述了外周视觉系统中神经调谐的一致的、类似地图的组织是如何转化为适合在中枢大脑中进行灵活处理的简化表征的。这项研究确定了这种转化的计算基序，从而能够对昆虫大脑中多感官整合和导航的中枢处理进行机制比较。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3835/8051946/d99472d2a780/elife-63225-fig1.jpg

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用于天光偏振处理的视觉通路在……中

A visual pathway for skylight polarization processing in .

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