Frontiers in Computational Neuroscience (Jul 2024)

The synaptic correlates of serial position effects in sequential working memory

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

DOI
https://doi.org/10.3389/fncom.2024.1430244
Journal volume & issue
Vol. 18

Abstract

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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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