Effect of burst spikes on linear and nonlinear signal transmission in spiking neurons.

IF 1.5 4区 医学 Q3 MATHEMATICAL & COMPUTATIONAL BIOLOGY
Maria Schlungbaum, Alexandra Barayeu, Jan Grewe, Jan Benda, Benjamin Lindner
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引用次数: 0

Abstract

We study the impact of bursts on spike statistics and neural signal transmission. We propose a stochastic burst algorithm that is applied to a burst-free spike train and adds a random number of temporally-jittered burst spikes to each spike. This simple algorithm ignores any possible stimulus-dependence of bursting but allows to relate spectra and signal-transmission characteristics of burst-free and burst-endowed spike trains. By averaging over the various statistical ensembles, we find a frequency-dependent factor connecting the linear and also the second-order susceptibility of the spike trains with and without bursts. The relation between spectra is more complicated: besides a frequency-dependent multiplicative factor it also involves an additional frequency-dependent offset. We confirm these relations for the (burst-free) spike trains of a stochastic integrate-and-fire neuron and identify frequency ranges in which the transmission is boosted or diminished by bursting. We then consider bursty spike trains of electroreceptor afferents of weakly electric fish and approach the role of burst spikes as follows. We compare the spectral statistics of the bursty spike train to (i) that of a spike train with burst spikes removed and to (ii) that of the spike train in (i) endowed by bursts according to our algorithm. Significant spectral features are explained by our signal-independent burst algorithm, e.g. the burst-induced boosting of the nonlinear response. A difference is seen in the information transfer for the original bursty spike train and our burst-endowed spike train. Our algorithm is thus helpful to identify different effects of bursting.

突发性尖峰对尖峰神经元线性和非线性信号传输的影响
我们研究了突发对尖峰统计和神经信号传输的影响。我们提出了一种随机猝发算法,该算法应用于无猝发尖峰序列,并在每个尖峰上添加随机数量的时间抖动猝发尖峰。这种简单的算法忽略了猝发的任何可能的刺激依赖性,但可以将无猝发和有猝发尖峰序列的频谱和信号传输特征联系起来。通过对各种统计集合进行平均,我们发现了一个频率相关因子,它连接了有突发性和无突发性尖峰序列的线性和二阶易感性。频谱之间的关系更为复杂:除了与频率相关的乘法因子外,还涉及一个额外的与频率相关的偏移量。我们证实了随机整合-发射神经元(无猝发)尖峰序列的这些关系,并确定了猝发会增强或减弱传输的频率范围。然后,我们考虑了弱电鱼的电感受器传入的猝发尖峰序列,并对猝发尖峰的作用进行了如下研究。我们将猝发尖峰序列的频谱统计与(i) 去除猝发尖峰的尖峰序列和(ii) 根据我们的算法在(i) 中赋予猝发的尖峰序列进行比较。我们与信号无关的脉冲串算法解释了重要的频谱特征,例如脉冲串引起的非线性响应增强。原始突发性尖峰序列与我们的突发性尖峰序列在信息传递方面存在差异。因此,我们的算法有助于识别猝发的不同效应。
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来源期刊
CiteScore
2.00
自引率
8.30%
发文量
32
审稿时长
3 months
期刊介绍: The Journal of Computational Neuroscience provides a forum for papers that fit the interface between computational and experimental work in the neurosciences. The Journal of Computational Neuroscience publishes full length original papers, rapid communications and review articles describing theoretical and experimental work relevant to computations in the brain and nervous system. Papers that combine theoretical and experimental work are especially encouraged. Primarily theoretical papers should deal with issues of obvious relevance to biological nervous systems. Experimental papers should have implications for the computational function of the nervous system, and may report results using any of a variety of approaches including anatomy, electrophysiology, biophysics, imaging, and molecular biology. Papers investigating the physiological mechanisms underlying pathologies of the nervous system, or papers that report novel technologies of interest to researchers in computational neuroscience, including advances in neural data analysis methods yielding insights into the function of the nervous system, are also welcomed (in this case, methodological papers should include an application of the new method, exemplifying the insights that it yields).It is anticipated that all levels of analysis from cognitive to cellular will be represented in the Journal of Computational Neuroscience.
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