This study investigated how common structures shared across different feature domains, such as spatial locations and colors, can be spontaneously employed to facilitate memory of multiple sequences in working memory (WM).
The key findings are:
Behavioral performance: Sequences with consistent color-location trajectories (aligned condition) show enhanced memory precision and a significant correlation between reproduced color and location sequence trajectories, compared to the misaligned condition.
Neural encoding: During encoding, the brain represents the shared 1st-to-2nd and 2nd-to-3rd trajectory information for the aligned condition, but not for the misaligned condition.
Neural replay: When preparing to recall the location sequence, the brain spontaneously reactivates the color sequence in a temporally compressed, forward replay manner for the aligned condition, but not for the misaligned condition.
Structure-behavior relationship: The neural representation of the shared trajectory structure correlates with the behavioral trajectory correlation between color and location sequences.
These findings suggest that shared common structures are leveraged for storage of multiple sequences in WM through compressed encoding and neural replay, facilitating efficient information organization. The brain spontaneously extracts and utilizes the underlying relational structure across feature domains to overcome the limited capacity of WM.
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biorxiv.org
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by Huang,Q., Lu... 게시일 www.biorxiv.org 07-19-2023
https://www.biorxiv.org/content/10.1101/2023.07.18.549616v3더 깊은 질문