【摘 要】
:
Multiple cell classes have been found in the primary visual cortex, but the relationship between cell types and spatial summation has seldom been studied.Parvalbumin-expressing inhibitory interneurons
【机 构】
:
Key Laboratory for Neuroinformation of Ministry of Education, School of Life Science and Technology,
论文部分内容阅读
Multiple cell classes have been found in the primary visual cortex, but the relationship between cell types and spatial summation has seldom been studied.Parvalbumin-expressing inhibitory interneurons can be distinguished from pyramidal neurons based on their briefer action potential durations.In this study,we classified V1 cells into fast-spiking units (FSUs) and regular-spiking units (RSUs) and then examined spatial summation at high and low contrast.Our results revealed that the excitatory classical receptive field and the suppressive non-classical receptive field expanded at low contrast for both FSUs and RSUs, but the expansion was more marked for the RSUs than for the FSUs.For most V1 neurons, surround suppression varied as the contrast changed from high to low.However, FSUs exhibited no significant difference in the strength of suppression between high and low contrast, although the overall suppression decreased significantly at low contrast for the RSUs.Our results suggest that the modulation of spatial summation by stimulus contrast differs across populations of neurons in the cat primary visual cortex.
其他文献
Study design: A case series report.Objective: To describe a technique for treating L5S1 disc herniation with high iliac crest to pose an altemative to overcome those routine percutaneous endoscopic lu
在生态相似的种群中,对于有限资源的竞争行为一直是生物学家、生态学家等普遍关心的一个重要问题。从生物的角度来看,在现实世界中,种群系统不可避免地受到环境噪声的影响,例如,种群出生率往往会受到环境噪声的干扰。因此,为子更加准确地描述这样的系统,一些学者引入子Brown运动,由此而产生的Brown运动驱动的竞争Lotka-Volterra模型的解的性质被大量研究,包括全局正解的存在性与唯一性、持久性,灭
本文研究了神经复杂网络的突变及其控制。时空混沌系统FitzHugh-Nagumo和Panfilov被选作为神经社团网络的神经元和突变基因。在空间和时间上,利用时空混沌的特性,给出了经历基因突变后的复杂神经网络的结构变换。选取多个耦合的时空混沌FitzHugh-Nagumo作为复杂神经网络的神经元,选取多个时空的Panfilov作为突变神经元,两者相互耦合构成神经社团网络。基于backsteppin
In the mammalian brain, fear memory is associated with fear conditioning-induced synaptic plasticity in the amygdala.An experiment in mice demonstrated that the paraventricular nucleus of the thalamus
Previous studies and experiments have been showed that elevated K+ concentration in the extracellular space can induce pathological discharge activities, such as epilepsy [1].The inward rectifier pota
Using a systematic computational approach and in vivo experiments, Cotterell et al.challenge a 40-year-old model that explains large-scale embryonic patterns in terms of long-range gradients.Instead,
Theta burst stimulation (TBS)和low frequency stimulation (LFS)是突触可塑性的两种常用的诱导方式.脑区间基于theta,gamma节律的振荡耦合可能有助于脑区间的信息交流及突触可塑性.因此,了解TBS及LFS刺激对脑区间基于LFPs的振荡耦合长时程影响将有助于我们更好的理解突触可塑性与振荡耦合之间的关系.因此,本研究主要探究LTP与LTD对
非线性时间序列分析是研究神经系统动力学的有效方法之一,特别是对脑电信号的信息提取,分析判别神经系统工作状态及有效控制有着重要作用,而确定最大李雅普诺夫指数被认为是甄别系统状态最有效的方法。本文对现存的几种从非线性时间序列确定最大李雅普诺夫指数的方法进行了综述,并对作者所发展的采用相空间重构技术确定最大李雅普诺夫指数的原理及方法进行了详细阐述,确定低维嵌入可以导致计算最大李雅普诺夫指数出现平台,进而
Objective: A large number of cognitive impairment and imaging studies found that attentional systems includes both bottom-up and top-down control, i.e., ventral attention network (VAN) and dorsal atte
系统的吸引子往往代表长期的状态,而其往往是稳定的。即吸引子附近的初始点出发的轨迹会落在该吸引子上。这种动力学概念被广泛应用到神经网络处理信息当中。在脉冲耦合振子系统当中,系统出现一些不满足稳定性定义的吸引子。最极端的是,一个局部具有鞍性的不动点,却在相空间会有非零测度的初始点最终落在该鞍点上。这种被称为不稳定不动点[1-2]。这发展出了有别与基于吸引子的信息计算模型,刺激通过鞍点的异宿切换来反映。