神经突触中神经递质释放和扩散的模拟:分析和建模

2012 International Conference on High Performance Computing & Simulation (HPCS) Pub Date : 2012-07-02 DOI:10.1109/HPCSim.2012.6266997

Elena Gómez Barroso, J. Sánchez, Á. Merchán-Pérez

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引用次数: 0

摘要

化学突触传递涉及一种神经递质的释放，这种神经递质扩散到细胞外空间，并与突触后膜上的特定受体相互作用。计算机模拟方法为探索不同条件下突触传递的各个方面提供了基本工具。特别是，蒙特卡罗方法可以跟踪神经递质分子的随机运动及其与其他离散分子(受体)的相互作用。我们已经开发了突触模型，就形状而言，这些模型具有简单的几何形状，但具有一组可变的参数，这些参数指定了突触连接中涉及的结构的尺寸。我们分析了基于这些理想模型的兴奋性突触的模拟，其中AMPA受体存在，涉及的神经递质是谷氨酸。

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Simulation of the release and diffusion of neurotransmitters in neuronal synapses: Analysis and modelling

Chemical synaptic transmisssion involves the release of a neurotransmitter that diffuses in the extracellular space and interacts with specific receptors located on the postsynaptic membrane. Computer simulation approaches provide fundamental tools for exploring various aspects of the synaptic transmission under different conditions. In particular, Monte Carlo methods can track the stochastic movements of neurotransmitter molecules and their interactions with other discrete molecules, the receptors. We have developed synaptic models that had a simple geometry as far as shape is concerned, but had a variable set of parameters that specified the dimensions of the structures involved in the synaptic junction. We have analyzed simulations based on these idealized models of excitatory synapses where AMPA receptors are present and the neurotransmitter involved is glutamate.

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2012 International Conference on High Performance Computing & Simulation (HPCS)

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