当光线被这些感受器感受到时,杆状和锥状细胞就把视觉信号从一个神经细胞传到另一个神经细胞,一直传送到大脑负责成像处理的区域。
When they detect light, rods and cones pass the visual signal from nerve cell to nerve cell to the visual processing part of the brain.
我们有三种主要的感受器:视觉、听觉和动觉。
There are three main modes of perceiving: visual, auditory and kinesthetic.
听觉系统和视觉系统的不同之处在于:听觉系统在外周感受器和听皮层间具有更长的皮层下通路和更多的突触联系。
In contrast to the visual system, the auditory system has longer subcortical pathways and more spiking synapses between the peripheral receptors and the cortex.
CEP290和LCA5基因编码的蛋白在光感受器功能、视觉成像时转运视觉蛋白上起了重要的作用。
Both the CEP290 and LCA5 genes encode proteins with vital functions in the cilium of the photoreceptors, transporting visual proteins to the compartment where vision occurs.
视网膜神经节细胞接受来自光感受器的视觉信息并将视觉信息从视网膜全体传送至脑的不同区域。
Retinal ganglion cells receive visual information from photoreceptors and collectively transmit visual information from the retina to several regions in the brain.
其中柱体和锥体感受器可以感受光亮与黑暗,形状与颜色,形成正常的视觉功能。
Rods and cones detect light, darkness, shape and colour, and make normal sight possible.
其中柱体和锥体感受器可以感受光亮与黑暗,形状与颜色,形成正常的视觉功能。
Rods and cones detect light, darkness, shape and colour, and make normal sight possible.
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