大脑
生物
斑马鱼
神经解剖学
电池类型
神经科学
平原的
纹状体
海马结构
神经细胞
中间神经元
进化生物学
基因
细胞
中枢神经系统
抑制性突触后电位
遗传学
再生(生物学)
多巴胺
作者
Muhammad Tibi,Stav Biton Hayun,Hannah Hochgerner,Zhige Lin,Shachar Givon,Osnat Ophir,Tal Shay,Thomas Mueller,Ronen Segev,Amit Zeisel
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2023-11-01
卷期号:9 (44): eadh7693-eadh7693
被引量:25
标识
DOI:10.1126/sciadv.adh7693
摘要
Teleost fish form the largest group of vertebrates and show a tremendous variety of adaptive behaviors, making them critically important for the study of brain evolution and cognition. The neural basis mediating these behaviors remains elusive. We performed a systematic comparative survey of the goldfish telencephalon. We mapped cell types using single-cell RNA sequencing and spatial transcriptomics, resulting in de novo molecular neuroanatomy parcellation. Glial cells were highly conserved across 450 million years of evolution separating mouse and goldfish, while neurons showed diversity and modularity in gene expression. Specifically, somatostatin interneurons, famously interspersed in the mammalian isocortex for local inhibitory input, were curiously aggregated in a single goldfish telencephalon nucleus but molecularly conserved. Cerebral nuclei including the striatum, a hub for motivated behavior in amniotes, had molecularly conserved goldfish homologs. We suggest elements of a hippocampal formation across the goldfish pallium. Last, aiding study of the teleostan everted telencephalon, we describe substantial molecular similarities between goldfish and zebrafish neuronal taxonomies.
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