@phdthesis{oai:doshisha.repo.nii.ac.jp:00028885,
 author = {谷隅, 勇太 and Tanisumi, Yuta},
 month = {2022-04-18, 2022-12-21},
 note = {「匂い」は私たちの生活を豊かにする感覚である。しかし、匂い情報が最初に大脳皮質に届く場である嗅皮質において、高次情報がどのように表現・分配されているのかは、不明である。本研究は、匂いを手掛かり刺激とした行動課題遂行中のラット・マウスを対象に、4つの嗅皮質亜領域から神経活動を記録した。そして、各領域のニューロンが異なる高次情報を表現することを発見し、それぞれが独自の機能を発揮する仮説を立案した。, The olfactory cortex (OC), which consists of some distinct subareas, receives both olfactory sensory signals from the olfactory bulb and top-down signals from higher-order regions. However, it remains unknown as to how each area of the OC encodes for sensory- and behavior-related information. We addressed this issue in rodents, particularly focusing on four subareas of the OC. Using electrophysiological recordings in the OC subareas with an odor-guided go/no-go task, we found that each area showed unique behavioral state signals that were predicted by the cue odors (i.e., moving to the reward port, waiting for the reward, and drinking reward state)., application/pdf},
 title = {Odor-functions map in the olfactory cortex subareas characterized by distinct behavioral state signals},
 year = {},
 yomi = {タニスミ, ユウタ}
}