内在生物物理多样性在增加信息含量的同时使神经元放电去相关。

Intrinsic biophysical diversity decorrelates neuronal firing while increasing information content.

机构信息

Department of Biological Sciences, Carnegie Mellon University, Pittsburgh, Pennsylvania, USA.

出版信息

Nat Neurosci. 2010 Oct;13(10):1276-82. doi: 10.1038/nn.2630. Epub 2010 Aug 29.

DOI:10.1038/nn.2630

PMID:20802489

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2975253/

Abstract

Although examples of variation and diversity exist throughout the nervous system, their importance remains a source of debate. Even neurons of the same molecular type have notable intrinsic differences. Largely unknown, however, is the degree to which these differences impair or assist neural coding. We examined the outputs from a single type of neuron, the mitral cells of the mouse olfactory bulb, to identical stimuli and found that each cell's spiking response was dictated by its unique biophysical fingerprint. Using this intrinsic heterogeneity, diverse populations were able to code for twofold more information than their homogeneous counterparts. In addition, biophysical variability alone reduced pair-wise output spike correlations to low levels. Our results indicate that intrinsic neuronal diversity is important for neural coding and is not simply the result of biological imprecision.

摘要

尽管神经系统中存在着变异和多样性的例子，但它们的重要性仍然存在争议。即使是同一分子类型的神经元也有显著的内在差异。然而，这些差异在多大程度上损害或辅助神经编码在很大程度上是未知的。我们检查了来自同一类型的神经元，即小鼠嗅球的僧帽细胞，对相同的刺激的输出，发现每个细胞的尖峰反应都由其独特的生物物理指纹决定。利用这种内在的异质性，不同的群体能够编码两倍以上的信息，而不是它们的同质对应物。此外，仅生物物理变异性就将成对输出尖峰相关性降低到低水平。我们的结果表明，内在神经元多样性对神经编码很重要，而不仅仅是生物不精确的结果。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5d84/2975253/94b06dc01a7b/nihms226409f1.jpg

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内在生物物理多样性在增加信息含量的同时使神经元放电去相关。

Intrinsic biophysical diversity decorrelates neuronal firing while increasing information content.

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