Short-term plasticity in a computational model of the tail-withdrawal circuit in Aplysia

Douglas A. Baxter; John H. Byrne

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Short-term plasticity in a computational model of the tail-withdrawal circuit in Aplysia

机译：海ly尾缩回回路计算模型的短期可塑性

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The tail-withdrawal circuit of Aplysia provides a useful model system for investigating synaptic dynamics. Sensory neurons within the circuit manifest several forms of synaptic plasticity. Here, we developed a model of the circuit and investigated the ways in which depression (DEP) and potentiation (POT) contributed to information processing. DEP limited the amount of motor neuron activity that could be elicited by the monosynaptic pathway alone. POT within the monosynaptic pathway did not compensate for DEP. There was, however, a synergistic interaction between POT and the polysynaptic pathway. This synergism extended the dynamic range of the network, and the interplay between DEP and POT made the circuit responded preferentially to long-duration, low-frequency inputs.

机译：Aplysia的尾巴撤回电路为调查突触动力学提供了有用的模型系统。回路内的感觉神经元表现出几种形式的突触可塑性。在这里，我们开发了电路模型，并研究了抑郁（DEP）和增强（POT）有助于信息处理的方式。 DEP限制了单单突触途径可能引起的运动神经元活性。单突触途径中的POT不能补偿DEP。但是，POT和多突触途径之间存在协同相互作用。这种协同作用扩展了网络的动态范围，DEP和POT之间的相互作用使电路优先响应长时间的低频输入。

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来源
《Neurocomputing》 |2007年第12期|p.1993-1999|共7页
作者
Douglas A. Baxter; John H. Byrne;
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作者单位

Department of Neurobiology and Anatomy, The University of Texas Medical School at Houston, Houston, TX 77025, 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
synaptic depression; post-tetanic potentiation; information processing;

机译：突触抑制;强直后增强;信息处理;

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专利

1. Peculiarities of the Tail-Withdrawal Reflex Circuit in Aplysia: a Model Study [J] . W. Ye, S.Q.Liu, Y.J.Zeng Neurophysiology . 2013,第5a6期

机译：在海sia尾缩回反射回路的特殊性：模型研究。
2. Study of classical conditioning in Aplysia through the implementation of computational models of its learning circuit [J] . A. SANTOS, A. PORTO, J. ROMERO, Journal of Experimental and Theoretical Artificial Intelligence . 2007,第2期

机译：通过学习电路计算模型的实施研究海藻中的经典条件
3. Serotonin Induces Structural Plasticity of Both Extrinsic Modulating and Intrinsic Mediating Circuits In?Vitro in Aplysia Californica [J] . Chirag Upreti, Edward Konstantinov, Stefan R. Kassabov, Cell Reports . 2019,第11期

机译：血清素在Aplysia Californica中诱导外在调节和内在介质电路的结构可塑性
4. Neuromorphic circuits for Short-Term Plasticity with recovery control [C] . Ramachandran Harshawardhan, Weber Stefan, Aamir Syed Ahmed, IEEE International Symposium on Circuits and Systems . 2014

机译：具有恢复控制的短期可塑性的神经形态电路
5. Computational studies of feeding behavior of Aplysia californica using a back-propagation model and a continuous time model with genetic algorithms. [D] . Deodhar, Dilip Nagesh. 1999

机译：使用反向传播模型和具有遗传算法的连续时间模型对加州海Ap的进食行为进行计算研究。
6. Short-Term Plasticity in a Computational Model of the Tail-Withdrawal Circuit in Aplysia [O] . Douglas A. Baxter, John H. Byrne -1

机译：海鸟尾巴抽回回路计算模型中的短期可塑性
7. Study of classical conditioning in Aplysia through the implementation of computational models of its learning circuit [O] . Santos-del-Riego Antonino, Pazos A., Porto-Pazos Ana B., 2007

机译：通过实现其学习电路的计算模型来研究Aplysia中的经典条件
8. Circuit Analysis and Computational Model of Operant Conditioning in Aplysia [R] . Carew, T. J. 1993

机译：海王星操作条件的电路分析与计算模型

Short-term plasticity in a computational model of the tail-withdrawal circuit in Aplysia

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