Odorant representations indicate nonlinear processing across the olfactory system.

IF 2.9 2区医学 Q2 NEUROSCIENCES

Cerebral cortex Pub Date : 2025-05-01 DOI:10.1093/cercor/bhaf112

Jesús Olivares, Patricio Orio, Viktor Sadílek, Oliver Schmachtenberg, Andrés Canales-Johnson

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Abstract

The olfactory system comprises intricate networks of interconnected brain regions that process information across both the local and long-range circuits to extract odorant identity. Similar to pattern recognition in other sensory domains, such as the visual system, recognizing odorant identity likely depends on highly nonlinear interactions between these recurrently connected nodes. In this study, we investigate whether odorant identity can be distinguished through nonlinear interactions in the local field potentials of the olfactory bulb and telencephalic regions (the ventral nucleus of the ventral telencephalon and the dorsal posterior zone of the telencephalon) in anesthetized rainbow trout. Our results show that odorant identity modulates complex information-theoretic measures, specifically information sharing and redundancy across these brain areas, indicating nonlinear processing. In contrast, traditional linear connectivity measures, such as coherence and phase synchrony, showed little or no significant modulation by odorants. These findings suggest that nonlinear interactions encoded by olfactory oscillations carry crucial odor information across the teleost olfactory system, offering insights into the broader role of nonlinear dynamics in sensory processing.

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气味表征表明整个嗅觉系统的非线性处理。

嗅觉系统由相互连接的大脑区域组成的复杂网络组成，这些区域在局部和远程回路中处理信息，以提取气味的身份。与其他感官领域（如视觉系统）的模式识别类似，气味识别可能依赖于这些循环连接节点之间的高度非线性相互作用。在这项研究中，我们研究了是否可以通过麻醉虹鳟鱼嗅球和端脑区（端脑腹侧核和端脑背后区）局部场电位的非线性相互作用来区分气味识别。我们的研究结果表明，气味识别调节了复杂的信息理论测量，特别是这些大脑区域的信息共享和冗余，表明非线性处理。相比之下，传统的线性连接测量，如相干性和相位同步，显示很少或没有显著的调制气味。这些发现表明，由嗅觉振荡编码的非线性相互作用在硬骨鱼嗅觉系统中携带着关键的气味信息，为非线性动力学在感觉加工中的更广泛作用提供了见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cerebral cortex 医学-神经科学

CiteScore

6.30

自引率

8.10%

发文量

510

审稿时长

2 months

期刊介绍： Cerebral Cortex publishes papers on the development, organization, plasticity, and function of the cerebral cortex, including the hippocampus. Studies with clear relevance to the cerebral cortex, such as the thalamocortical relationship or cortico-subcortical interactions, are also included. The journal is multidisciplinary and covers the large variety of modern neurobiological and neuropsychological techniques, including anatomy, biochemistry, molecular neurobiology, electrophysiology, behavior, artificial intelligence, and theoretical modeling. In addition to research articles, special features such as brief reviews, book reviews, and commentaries are included.