Johnson Elizabeth N, Hawken Michael J, Shapley Robert
Center for Neural Science, New York University, New York, NY 10003, USA.
J Neurophysiol. 2004 Jun;91(6):2501-14. doi: 10.1152/jn.01043.2003. Epub 2004 Jan 28.
To understand the role of primary visual cortex (V1) in color vision, we measured directly the input from the 3 cone types in macaque V1 neurons. Cells were classified as luminance-preferring, color-luminance, or color-preferring from the ratio of the peak amplitudes of spatial frequency responses to red/green equiluminant and to black/white (luminance) grating patterns, respectively. In this study we used L-, M-, and S-cone-isolating gratings to measure spatial frequency response functions for each cone type separately. From peak responses to cone-isolating stimuli we estimated relative cone weights and whether cone inputs were the same or opposite sign. For most V1 cells the relative S-cone weight was <0.1. All color-preferring cells were cone opponent and their L/M cone weight ratio was clustered around a value of -1, which is roughly equal and opposite L and M cone signals. Almost all cells (88%) classified as luminance cells were cone nonopponent, with a broad distribution of cone weights. Most cells (73%) classified as color-luminance cells were cone opponent. This result supports our conclusion that V1 color-luminance cells are double-opponent. Such neurons are more sensitive to color boundaries than to areas of color and thereby could play an important role in color perception. The color-luminance population had a broad distribution of L/M cone weight ratios, implying a broad distribution of preferred colors for the double-opponent cells.
为了解初级视觉皮层(V1)在颜色视觉中的作用,我们直接测量了猕猴V1神经元中3种视锥细胞类型的输入。根据空间频率响应的峰值幅度之比,分别将细胞分类为亮度偏好型、颜色-亮度型或颜色偏好型,该比值是针对红/绿等亮度光栅图案和黑/白(亮度)光栅图案而言的。在本研究中,我们使用L-、M-和S-视锥细胞分离光栅分别测量每种视锥细胞类型的空间频率响应函数。从对视锥细胞分离刺激的峰值响应中,我们估计了相对视锥细胞权重以及视锥细胞输入是同号还是异号。对于大多数V1细胞,相对S-视锥细胞权重<0.1。所有颜色偏好型细胞都是视锥细胞拮抗型,其L/M视锥细胞权重比集中在-1左右,这大致等于且相反于L和M视锥细胞信号。几乎所有被分类为亮度细胞的细胞(88%)都是视锥细胞非拮抗型,视锥细胞权重分布广泛。大多数被分类为颜色-亮度细胞的细胞(73%)是视锥细胞拮抗型。这一结果支持了我们的结论,即V1颜色-亮度细胞是双拮抗型的。这类神经元对颜色边界比对颜色区域更敏感,因此可能在颜色感知中发挥重要作用。颜色-亮度细胞群体的L/M视锥细胞权重比分布广泛,这意味着双拮抗型细胞的偏好颜色分布广泛。
