顺序工作记忆中序列位置效应的突触相关性

IF 2.1 4区医学 Q2 MATHEMATICAL & COMPUTATIONAL BIOLOGY

Frontiers in Computational Neuroscience Pub Date : 2024-07-15 DOI:10.3389/fncom.2024.1430244

Jiaqi Zhou, Liping Gong, Xiaodong Huang, Chunlai Mu, Yuanyuan Mi

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引用次数: 0

摘要

顺序工作记忆（SWM）是指按顺序临时存储和处理信息，在大脑认知功能中发挥着重要作用。序列位置效应是指一个项目的回忆准确性与该项目呈现的顺序相关联的现象。序列位置效应的神经机制尚不清楚。工作记忆的突触机制认为，信息是以神经元突触连接的形式作为隐藏状态存储的。在此，我们建立了一个具有突触短期可塑性（STP）的连续吸引子神经网络，以探索序列位置效应的神经机制。通过延迟回忆任务，我们的模型再现了实验结果，即随着维持时间的延长，序列位置效应会从首要效应过渡到回顾效应。通过数字模拟和理论分析，我们发现过渡时刻是由 STP 参数和刺激项目呈现间隔决定的。我们的研究结果凸显了 STP 在 SWM 中处理顺序信息的关键作用。

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The synaptic correlates of serial position effects in sequential working memory

Sequential working memory (SWM), referring to the temporary storage and manipulation of information in order, plays a fundamental role in brain cognitive functions. The serial position effect refers to the phenomena that recall accuracy of an item is associated to the order of the item being presented. The neural mechanism underpinning the serial position effect remains unclear. The synaptic mechanism of working memory proposes that information is stored as hidden states in the form of facilitated neuronal synapse connections. Here, we build a continuous attractor neural network with synaptic short-term plasticity (STP) to explore the neural mechanism of the serial position effect. Using a delay recall task, our model reproduces the the experimental finding that as the maintenance period extends, the serial position effect transitions from the primacy to the recency effect. Using both numerical simulation and theoretical analysis, we show that the transition moment is determined by the parameters of STP and the interval between presented stimulus items. Our results highlight the pivotal role of STP in processing the order information in SWM.

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来源期刊

Frontiers in Computational Neuroscience MATHEMATICAL & COMPUTATIONAL BIOLOGY-NEUROSCIENCES

CiteScore

5.30

自引率

3.10%

发文量

166

审稿时长

6-12 weeks

期刊介绍： Frontiers in Computational Neuroscience is a first-tier electronic journal devoted to promoting theoretical modeling of brain function and fostering interdisciplinary interactions between theoretical and experimental neuroscience. Progress in understanding the amazing capabilities of the brain is still limited, and we believe that it will only come with deep theoretical thinking and mutually stimulating cooperation between different disciplines and approaches. We therefore invite original contributions on a wide range of topics that present the fruits of such cooperation, or provide stimuli for future alliances. We aim to provide an interactive forum for cutting-edge theoretical studies of the nervous system, and for promulgating the best theoretical research to the broader neuroscience community. Models of all styles and at all levels are welcome, from biophysically motivated realistic simulations of neurons and synapses to high-level abstract models of inference and decision making. While the journal is primarily focused on theoretically based and driven research, we welcome experimental studies that validate and test theoretical conclusions. Also: comp neuro