小脑皮层的跨物种单细胞空间转录组图谱

IF 44.7 1区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES

Science Pub Date : 2024-09-27 DOI:10.1126/science.ado3927

Shijie Hao, Xiaojia Zhu, Zhi Huang, Qianqian Yang, Hean Liu, Yan Wu, Yafeng Zhan, Yu Dong, Chao Li, He Wang, Elize Haasdijk, Zihan Wu, Shenglong Li, Haotian Yan, Lijing Zhu, Shiyong Guo, Zefang Wang, Aojun Ye, Youning Lin, Luman Cui, Xing Tan, Huanlin Liu, Mingli Wang, Jing Chen, Yanqing Zhong, Wensi Du, Guangling Wang, Tingting Lai, Mengdi Cao, Tao Yang, Yuanfang Xu, Ling Li, Qian Yu, Zhenkun Zhuang, Ying Xia, Ying Lei, Yingjie An, Mengnan Cheng, Yun Zhao, Lei Han, Yue Yuan, Xinxiang Song, Yumo Song, Liqin Gu, Chang Liu, Xiumei Lin, Ruiqi Wang, Zhifeng Wang, Yang Wang, Shenyu Li, Huanhuan Li, Jingjing Song, Mengni Chen, Wanqiu Zhou, Nini Yuan, Suhong Sun, Shiwen Wang, Yu Chen, Mingyuan Zheng, Jiao Fang, Ruiyi Zhang, Shuzhen Zhang, Qinwen Chai, Jiabing Liu, Wu Wei, Jie He, Haibo Zhou, Yangang Sun, Zhen Liu, Chuanyu Liu, Jianhua Yao, Zhifeng Liang, Xun Xu, Muming Poo, Chengyu Li, Chris I. De Zeeuw, Zhiming Shen, Zhiyong Liu, Longqi Liu, Shiping Liu, Yidi Sun, Cirong Liu

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引用次数: 0

摘要

灵长类动物小脑的分子和细胞组织仍然特征不清。我们获得了猕猴、狨猴和小鼠小脑的单细胞空间转录组图谱，并确定了灵长类特有的细胞亚型，包括普肯耶细胞和分子层中间神经元，这些细胞亚型的谷氨酸离子型受体Delta型亚基2（GRID2）基因表现出不同的表达。在所有物种的前庭、后庭和前庭区域都发现了不同的基因表达谱，而在灵长类动物的颗粒层和小鼠的浦肯野层主要观察到了区域选择性基因表达。小脑皮层的基因表达梯度与清醒功能磁共振成像显示的功能连接梯度非常吻合，灵长类动物和小鼠之间的小叶特异性差异比两种灵长类动物之间的差异更大。这些全面的图谱和比较分析为了解小脑的进化和功能奠定了基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Cross-species single-cell spatial transcriptomic atlases of the cerebellar cortex

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Cross-species single-cell spatial transcriptomic atlases of the cerebellar cortex

The molecular and cellular organization of the primate cerebellum remains poorly characterized. We obtained single-cell spatial transcriptomic atlases of macaque, marmoset, and mouse cerebella and identified primate-specific cell subtypes, including Purkinje cells and molecular-layer interneurons, that show different expression of the glutamate ionotropic receptor Delta type subunit 2 (GRID2) gene. Distinct gene expression profiles were found in anterior, posterior, and vestibular regions in all species, whereas region-selective gene expression was predominantly observed in the granular layer of primates and in the Purkinje layer of mice. Gene expression gradients in the cerebellar cortex matched well with functional connectivity gradients revealed with awake functional magnetic resonance imaging, with more lobule-specific differences between primates and mice than between two primate species. These comprehensive atlases and comparative analyses provide the basis for understanding cerebellar evolution and function.

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来源期刊

Science 综合性期刊-综合性期刊

CiteScore

61.10

自引率

0.90%

发文量

审稿时长

2.1 months

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