Decomposing representational drift across wake and sleep

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The study recorded single-unit activity in mouse olfactory cortex across cycles of awake odor exposure and subsequent sleep, using a low-rank decoder to quantify how neural representations drift over time. It identified four orthogonal drift modes at different timescales and found that sleep and wake produce qualitatively different representational transformations, with sleep causing an about-turn in drift characterized by a combination of decorrelation and rotation rather than a simple continuation of online learning. The authors also reported evidence for olfactory replay, compressed by ~2.5× and associated with locally generated piriform cortex sharp waves, while the main limitation is that the work is focused on olfactory cortex dynamics in mice rather than broader circuit or disease contexts. This paper does not explicitly discuss endometriosis or adenomyosis; it was included in the corpus via a keyword match in the upstream search index.

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Abstract Neural representations evolve over time, yet the relative contributions of online experience and offline states such as sleep remain unclear. Here, we recorded single-unit activity in the olfactory cortex of mice across cycles of awake odour exposure and sleep, and developed a low-rank decoder to track representational drift. We identified four orthogonal drift modes operating on distinct timescales, revealing that sleep and wake drive qualitatively different transformations, which indicates that offline reorganisation is not a simple continuation of online learning. Rather, sleep initiates an about-turn in the overall drift trajectory, which is uniquely characterised by a combination of decorrelation and rotation of odour representations. We also provide the first evidence for olfactory replay, occurring at ~2.5× temporal compression and associated with locally generated piriform cortex sharp waves. Together, these findings demonstrate that representational drift comprises state-dependent components, and reveal distinct contributions of wake and sleep to sensory representational change. Competing Interest Statement The authors have declared no competing interest.

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last seen: 2026-05-20T01:45:00.602351+00:00