视网膜到大脑的映射。
Mapping the Retina onto the Brain.
机构信息
Department of Ophthalmology and Visual Sciences
Department of Neuroscience.
出版信息
Cold Spring Harb Perspect Biol. 2024 Feb 1;16(2):a041512. doi: 10.1101/cshperspect.a041512.
Vision begins in the retina, which extracts salient features from the environment and encodes them in the spike trains of retinal ganglion cells (RGCs), the output neurons of the eye. RGC axons innervate diverse brain areas (>50 in mice) to support perception, guide behavior, and mediate influences of light on physiology and internal states. In recent years, complete lists of RGC types (∼45 in mice) have been compiled, detailed maps of their dendritic connections drawn, and their light responses surveyed at scale. We know less about the RGCs' axonal projection patterns, which map retinal information onto the brain. However, some organizing principles have emerged. Here, we review the strategies and mechanisms that govern developing RGC axons and organize their innervation of retinorecipient brain areas.
视觉始于视网膜,视网膜从环境中提取显著特征,并将其编码为视网膜神经节细胞(RGC)的尖峰活动,RGC 是眼睛的输出神经元。RGC 轴突支配着不同的脑区(在小鼠中超过 50 个),以支持感知、引导行为,并介导光对生理和内部状态的影响。近年来,已经编制了完整的 RGC 类型清单(在小鼠中约有 45 种),绘制了详细的树突连接图,并对其光反应进行了大规模调查。然而,我们对 RGC 轴突投射模式的了解较少,这种模式将视网膜信息映射到大脑上。然而,已经出现了一些组织原则。在这里,我们回顾了控制发育中的 RGC 轴突的策略和机制,并组织它们对视网膜接受脑区的支配。
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