Structural and biophysical mechanisms underlying dynamic sensitivity of primary sensory interneurons in the cricket cereal sensory system

G.I. Cummins; S.M. Crook; A.G. Dimitrov; T. Ganje; G.A. Jacobs; J.P. Miller

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Structural and biophysical mechanisms underlying dynamic sensitivity of primary sensory interneurons in the cricket cereal sensory system

机译：cereal谷物感觉系统中主要感觉中间神经元动态敏感性的结构和生物物理机制

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We constructed probabilistic models of afferent inputs and compartmental models of interneurons in the cricket cereal system to examine the effects of dendritic morphology, distribution of synaptic inputs, and membrane properties on interneuron directional tuning properties. The mean directional tuning of afferent inputs to an interneuron was an excellent predictor of its directional tuning. Location of the synapses on the interneurons' dendrites was not essential to determining tuning characteristics, but had a substantial effect on sensitivity. Thus, we conclude that both sampling of the afferent population, and anatomical distribution of synaptic inputs are important determinants of an interneuron's directional response.

机译：我们构建了cereal谷物系统中传入输入的概率模型和中间神经元的隔室模型，以研究树突形态，突触输入的分布以及膜性质对中间神经元定向调节性质的影响。中间神经元传入输入的平均方向性调整是其方向性调整的绝佳预测指标。突触在中间神经元树突上的位置对于确定调谐特性不是必不可少的，但对灵敏度具有实质性影响。因此，我们得出结论，传入人口的采样和突触输入的解剖分布都是中间神经元定向反应的重要决定因素。

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来源
《Neurocomputing》 |2003年第6期|p.45-52|共8页
作者
G.I. Cummins; S.M. Crook; A.G. Dimitrov; T. Ganje; G.A. Jacobs; J.P. Miller;
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作者单位

Center for Computational Biology, Montana State University, 1 Lewis Hall, Bozeman, MT 89717, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类计算技术、计算机技术;
关键词
sensory systems; structure/function; neural maps; compartmental models; gaussian mixtures;

机译：感觉系统;结构/功能;神经图隔间模型高斯混合气;

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1. Effects of adaptation on neural coding by primary sensory interneurons in the cricket cercal system. [J] . Clague H, Theunissen F, Miller JP Journal of Neurophysiology . 1997,第1期

机译：适应对on脑系统初级感觉神经元神经编码的影响。
2. Dendritic calcium accumulation regulates wind sensitivity via short-term depression at cercal sensory-to-giant interneuron synapses in the cricket. [J] . Ogawa H, Baba Y, Oka K Journal of neurobiology . 2001,第4期

机译：树突状钙的积累通过在大脑中感觉到巨大的中间神经元突触处的短期抑制来调节风的敏感性。
3. Modeling ion channels from the cricket cereal sensory system [J] . Carrie Diaz Eaton, Sharon Crook, Graham Cummins, Neurocomputing . 2004,第期

机译：板球谷物感觉系统的离子通道建模
4. Structural and biophysical mechanisms underlying dynamic sensitivity of primary sensory interneurons in the cricket cereal sensory system [C] . G.I. Cummins, S.M. Crook, A.G. Dimitrov, Computational neuroscience meeting . 2003

机译：蟋蟀谷物感觉系统中原发性感觉中间敏感性的结构和生物物理机制
5. A Study of Primary Sensory Neurons and Schwann Cells Sensitivity to Visible Light Irradiation in vitro, and Feasibility of a Light Inducible System in Schwann Cells for Neurite Outgrowth Enhancement in vitro [D] . Diaz Vera, David. 2020

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6. Sensory Processing: Dendritic Ca2+ dynamics and multimodal processing in a cricket antennal interneuron [O] . Timothy George Bayley, Berthold Hedwig -1

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7. Extraction of Sensory Parameters from a Neural Map by Primary Sensory Interneurons [O] . Gwen A. Jacobs, Frederic E. Theunissen 2000

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8. Sensory Systems Neuroscientists Face One Fundamental Puzzle on Their Desks: How Primary Sensory Cortex Balances the Weights on Extrinsic and Intrinsic Sources of Information. [R] . Lee, S., Blake, R. 2013

机译：感觉系统神经科学家在他们的办公桌上面对一个基本难题：初级感觉皮层如何平衡外在和内在信息来源的权重。

Structural and biophysical mechanisms underlying dynamic sensitivity of primary sensory interneurons in the cricket cereal sensory system

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