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  Efficient encoding of motion is mediated by gap junctions in the fly visual system

Wang, S., Borst, A., Zaslaysky, N., Tishby, N., & Segev, I. (2017). Efficient encoding of motion is mediated by gap junctions in the fly visual system. PLoS Computational Biology, 13(12):. doi:10.1371/journal.pcbi.1005846.

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アイテムのパーマリンク: https://hdl.handle.net/21.11116/0000-0000-E631-5 版のパーマリンク: https://hdl.handle.net/21.11116/0000-000A-0AD6-A
資料種別: 学術論文

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journal.pcbi.1005846.pdf (出版社版), 4MB
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journal.pcbi.1005846.pdf
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Data Availability: The paper is a theoretical work and does not contain experimental data. All the parameters required to reproduce our simulation and results are specified in the Material and Methods section.
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© 2017 Wang et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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 作成者:
Wang, Siwei, 著者
Borst, Alexander1, 著者           
Zaslaysky, Noga, 著者
Tishby, Naftali, 著者
Segev, Idan, 著者
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1Department: Circuits-Computation-Models / Borst, MPI of Neurobiology, Max Planck Society, ou_1113548              

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キーワード: MOVEMENT-SENSITIVE NEURON; OPTIC FLOW; INFORMATION-TRANSFER; ELECTRICAL SYNAPSES; SENSORY INFORMATION; GAMMA OSCILLATIONS; DESCENDING NEURON; RECEPTIVE-FIELDS; METABOLIC COST; IN-VIVOBiochemistry & Molecular Biology; Mathematical & Computational Biology;
 要旨: Understanding the computational implications of specific synaptic connectivity patterns is a fundamental goal in neuroscience. In particular, the computational role of ubiquitous electrical synapses operating via gap junctions remains elusive. In the fly visual system, the cells in the vertical-system network, which play a key role in visual processing, primarily connect to each other via axonal gap junctions. This network therefore provides a unique opportunity to explore the functional role of gap junctions in sensory information processing. Our information theoretical analysis of a realistic VS network model shows that within 10 ms following the onset of the visual input, the presence of axonal gap junctions enables the VS system to efficiently encode the axis of rotation,., of the fly's ego motion. This encoding efficiency, measured in bits, is near-optimal with respect to the physical limits of performance determined by the statistical structure of the visual input itself. The VS network is known to be connected to downstream pathways via a subset of triplets of the vertical system cells; we found that because of the axonal gap junctions, the efficiency of this subpopulation in encoding. is superior to that of the whole vertical system network and is robust to a wide range of signal to noise ratios. We further demonstrate that this efficient encoding of motion by this subpopulation is necessary for the fly's visually guided behavior, such as banked turns in evasive maneuvers. Because gap junctions are formed among the axons of the vertical system cells, they only impact the system's readout, while maintaining the dendritic input intact, suggesting that the computational principles implemented by neural circuitries may be much richer than previously appreciated based on point neuron models. Our study provides new insights as to how specific network connectivity leads to efficient encoding of sensory stimuli.

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言語: eng - English
 日付: 2017-12-04
 出版の状態: 出版
 ページ: 22
 出版情報: -
 目次: -
 査読: -
 識別子(DOI, ISBNなど): ISI: 000418951400007
DOI: 10.1371/journal.pcbi.1005846
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出版物 1

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出版物名: PLoS Computational Biology
種別: 学術雑誌
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出版社, 出版地: San Francisco, CA : Public Library of Science
ページ: - 巻号: 13 (12) 通巻号: e1005846 開始・終了ページ: - 識別子(ISBN, ISSN, DOIなど): ISSN: 1553-734X
CoNE: https://pure.mpg.de/cone/journals/resource/1000000000017180_1