体感系统
感觉系统
神经科学
物理
电生理学
皮质(解剖学)
地质学
大脑皮层
筒状皮质
大脑定位
脑电波
视皮层
大脑活动与冥想
运动皮层
空间生态学
光学
声学
空间分布
感觉皮层
地震波
次级体感皮层
空间频率
作者
Zhiwen Ye,Alexander Ladd,Nancy MacKenzie,Ljuvica Kolich,Anna J. Li,Daniel Birman,Matthew S. Bull,Tanya L. Daigle,Bosiljka Tasic,Hongkui Zeng,Nicholas A. Steinmetz
出处
期刊:Science
[American Association for the Advancement of Science]
日期:2026-06-18
卷期号:392 (6804): eadx1369-eadx1369
标识
DOI:10.1126/science.adx1369
摘要
Patterns of brain activity moving in waves occur across brain regions and species, yet their spatial organization, anatomical basis, and brain-wide distribution remain unclear. Using cortex-wide imaging and electrophysiology in awake mice, we revealed a prominent wave motif across spatial scales. Waves frequently formed rotational patterns centered on somatosensory cortex and sweeping across somatotopic maps. Axonal architecture within sensory cortex exhibited a matching circular arrangement. Rotating waves were mirrored between hemispheres and between sensory and motor cortex and were coordinated with subcortical spiking. Bilaterally cutting the circular circuitry diminished rotating waves. Rotating waves were modulated across behavioral states, evoked by sensory inputs, and recruited during correct visuomotor performance. These results establish that rotating waves are sculpted by axonal architecture across diverse brain systems and behavioral contexts.
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