Preserving Neural Function under Extreme Scaling

被引：24

作者：

Cuntz, Hermann ^{[1
,2
,3
]}

Forstner, Friedrich ^{[1
]}

Schnell, Bettina ^{[1
,4
]}

Ammer, Georg ^{[1
]}

Raghu, Shamprasad Varija ^{[1
,5
]}

Borst, Alexander ^{[1
]}

机构：

[1] Max Planck Inst Neurobiol, Dept Syst & Computat Neurobiol, D-82152 Martinsried, Germany

[2] Goethe Univ Frankfurt, Inst Clin Neuroanat, D-60054 Frankfurt, Germany

[3] Ernst Strungmann Inst Neurosci Cooperat Max Planc, Frankfurt, Germany

[4] Univ Washington, Dept Biol, Seattle, WA 98195 USA

[5] Neurosci Res Partnership, Biopolis, Singapore

来源：

PLOS ONE | 2013年 / 8卷 / 08期

关键词：

INTRINSIC ELECTROPHYSIOLOGICAL CHARACTERISTICS; PLATE TANGENTIAL CELLS; MOTION-SENSITIVE INTERNEURONS; LOBULA PLATE; VISUAL INTERNEURONS; MEMBRANE-PROPERTIES; RESPONSE PROPERTIES; DENDRITIC STRUCTURE; FLY; DROSOPHILA;

D O I：

10.1371/journal.pone.0071540

中图分类号：

O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];

学科分类号：

07 ; 0710 ; 09 ;

摘要：

Important brain functions need to be conserved throughout organisms of extremely varying sizes. Here we study the scaling properties of an essential component of computation in the brain: the single neuron. We compare morphology and signal propagation of a uniquely identifiable interneuron, the HS cell, in the blowfly (Calliphora) with its exact counterpart in the fruit fly (Drosophila) which is about four times smaller in each dimension. Anatomical features of the HS cell scale isometrically and minimise wiring costs but, by themselves, do not scale to preserve the electrotonic behaviour. However, the membrane properties are set to conserve dendritic as well as axonal delays and attenuation as well as dendritic integration of visual information. In conclusion, the electrotonic structure of a neuron, the HS cell in this case, is surprisingly stable over a wide range of morphological scales.

引用

页数：10

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