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Short-term memory errors are strongly associated with a drift in neural activity in the posterior parietal cortex

Author

Listed:
  • Joon Ho Choi
  • Sungwon Bae
  • Jiho Park
  • Minsu Yoo
  • Chul Hoon Kim
  • Lukas Ian Schmitt
  • Youngbin Tchoe
  • Dongil Chung
  • Ji-Woong Choi
  • Jong-Cheol Rah

Abstract

Understanding the neural mechanisms behind short-term memory (STM) errors is crucial for unraveling cognitive processes and addressing deficits associated with neuropsychiatric disorders. This study examines whether STM errors arise from misrepresentation of sensory information or decay in these representations over time. Using 2-photon calcium imaging in the posterior parietal cortex (PPC) of mice performing a delayed match-to-sample task, we identified a subset of PPC neurons exhibiting both directional and temporal selectivity. Contrary to the hypothesis that STM errors primarily stem from mis-encoding during the sample phase, our findings reveal that these errors are more strongly associated with a drift in neural activity during the delay period. This drift leads to a gradual divergence away from the correct representation, ultimately leading to incorrect behavioral responses. These results emphasize the importance of maintaining stable neural representations in the PPC for accurate STM. Furthermore, they highlight the potential for therapeutic interventions aimed at stabilizing PPC activity during delay periods as a strategy for mitigating cognitive impairments in conditions like schizophrenia.What are the neural mechanisms behind short-term memory errors? This study shows that such errors are primarily linked to a drift in neural activity in the posterior parietal cortex, highlighting the need for stable neural representations to support accurate memory performance.

Suggested Citation

  • Joon Ho Choi & Sungwon Bae & Jiho Park & Minsu Yoo & Chul Hoon Kim & Lukas Ian Schmitt & Youngbin Tchoe & Dongil Chung & Ji-Woong Choi & Jong-Cheol Rah, 2025. "Short-term memory errors are strongly associated with a drift in neural activity in the posterior parietal cortex," PLOS Biology, Public Library of Science, vol. 23(9), pages 1-32, September.
    • Handle: RePEc:plo:pbio00:3003359
    DOI: 10.1371/journal.pbio.3003359
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    1. Timothy D. Hanks & Charles D. Kopec & Bingni W. Brunton & Chunyu A. Duan & Jeffrey C. Erlich & Carlos D. Brody, 2015. "Distinct relationships of parietal and prefrontal cortices to evidence accumulation," Nature, Nature, vol. 520(7546), pages 220-223, April.
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