Ramón Fidel, Gronenberg Wulfila
División de Posgrado e Investigación, Facultad de Medicina, UNAM-CU, México, DF 04510, Mexico.
Cell Mol Neurobiol. 2005 Mar;25(2):313-27. doi: 10.1007/s10571-005-3062-y.
In vertebrates, and in humans in particular, so-called 'omitted stimulus potentials' can be electrically recorded from the brain or scalp upon repeated stimulation with simple stimuli such as light flashes. While standard evoked potentials follow each stimulus in a series, 'omitted stimulus potentials' occur when an additional stimulus is expected after the end of a stimulus series. These potentials represent neuronal plasticity and are assumed to be involved in basic cognitive processes. We recorded electroretinograms from the eyes and visually evoked potentials from central brain areas of honey bees and ants, social insects to which cognitive abilities have been ascribed and whose rich-behavioral repertoires include navigation, learning and memory. We demonstrate that omitted stimulus potentials occur in these insects. Omitted stimulus potentials in bees and ants show similar temporal characteristics to those found in crayfish and vertebrates, suggesting that common mechanisms may underlie this form of short-term neuronal plasticity.
在脊椎动物中,尤其是人类,当用诸如闪光等简单刺激进行重复刺激时,可以从大脑或头皮上记录到所谓的“遗漏刺激电位”。虽然标准诱发电位跟随一系列中的每个刺激,但“遗漏刺激电位”在刺激系列结束后预期会有额外刺激时出现。这些电位代表神经元可塑性,并被认为参与基本认知过程。我们记录了蜜蜂和蚂蚁(被赋予认知能力且其丰富行为库包括导航、学习和记忆的社会性昆虫)眼睛的视网膜电图和中枢脑区的视觉诱发电位。我们证明这些昆虫中会出现遗漏刺激电位。蜜蜂和蚂蚁中的遗漏刺激电位与在小龙虾和脊椎动物中发现的具有相似的时间特征,这表明这种形式的短期神经元可塑性可能有共同的机制。