Perge János A, Borghuis Bart G, Bours Roger J E, Lankheet Martin J M, van Wezel Richard J A
Functional Neurobiology, Helmholtz Institute, Faculty Biology, Utrecht University, Padualaan 8, 3584 CH, Utrecht, Netherlands.
Eur J Neurosci. 2005 Oct;22(8):2049-58. doi: 10.1111/j.1460-9568.2005.04363.x.
We studied receptive field organization of motion-sensitive neurons in macaque middle temporal cortical area (MT), by mapping direction selectivity in space and in time. Stimuli consisted of pseudorandom sequences of single motion steps presented simultaneously at many different receptive field locations. Spatio-temporal receptive field profiles were constructed by cross-correlating stimuli and spikes. The resulting spike-triggered averages revealed centre-surround organization. The temporal dynamics of the receptive fields were generally biphasic with increased probability for the preferred direction at short latency (50-70 ms) and decreased probability at longer latency (80-100 ms). The response latency of the receptive field surround was on average 16 ms longer than that of the centre. Our results show that surround input and biphasic behaviour reflect two different mechanisms, which make MT cells specifically sensitive to motion contrast in space and time.
我们通过在空间和时间上绘制方向选择性,研究了猕猴颞中皮质区域(MT)中运动敏感神经元的感受野组织。刺激由在许多不同感受野位置同时呈现的单个运动步骤的伪随机序列组成。通过将刺激与尖峰进行互相关来构建时空感受野轮廓。由此产生的触发尖峰平均值显示出中心-外周组织。感受野的时间动态通常是双相的,在短潜伏期(50-70毫秒)时,偏好方向的概率增加,而在长潜伏期(80-100毫秒)时概率降低。感受野外周的反应潜伏期平均比中心长16毫秒。我们的结果表明,外周输入和双相行为反映了两种不同的机制,这使得MT细胞对空间和时间上的运动对比度具有特异性敏感性。