Departments of Physiology and Pharmacology and Basic and Applied Sciences, Engineering, Sapienza University of Rome, 00185 Rome, Italy, Nielsen NeuroFocus, Tokyo, 108-0071 Japan, and Olschefskie Institute for the Neurobiology of Knowledge, Potomac, Maryland 20854.
J Neurosci. 2014 Jan 29;34(5):1970-8. doi: 10.1523/JNEUROSCI.3228-13.2014.
Two rhesus monkeys performed a distance discrimination task in which they reported whether a red square or a blue circle had appeared farther from a fixed reference point. Because a new pair of distances was chosen randomly on each trial, and because the monkeys had no opportunity to correct errors, no information from the previous trial was relevant to a current one. Nevertheless, many prefrontal cortex neurons encoded the outcome of the previous trial on current trials. A smaller, intermingled population of cells encoded the spatial goal on the previous trial or the features of the chosen stimuli, such as color or shape. The coding of previous outcomes and goals began at various times during a current trial, and it was selective in that prefrontal cells did not encode other information from the previous trial. The monitoring of previous goals and outcomes often contributes to problem solving, and it can support exploratory behavior. The present results show that such monitoring occurs autonomously and selectively, even when irrelevant to the task at hand.
两只恒河猴执行了一项距离辨别任务,报告一个红色的正方形或蓝色的圆形出现在一个固定参考点的更远的地方。由于在每次试验中随机选择了一对新的距离,并且猴子没有机会纠正错误,因此前一次试验的任何信息与当前试验都没有关系。然而,许多前额叶皮层神经元在当前试验中编码了前一次试验的结果。一小部分混杂的细胞在前一次试验中编码了空间目标,或者编码了所选择的刺激的特征,如颜色或形状。前一次结果和目标的编码在当前试验的不同时间开始,并且是选择性的,因为前额叶细胞没有编码前一次试验的其他信息。对前一次目标和结果的监控常常有助于解决问题,并能支持探索性行为。本研究结果表明,即使与当前任务无关,这种监控也会自动且选择性地发生。