Spatially resolved gene regulatory and disease-related vulnerability map of the adult Macaque cortex

Cell type epigenetic and topographic information of primate brain is lacking. Here, authors identified transcriptional regulatory network, gradient expression pattern and disease vulnerability at cell type level in PFC, M1 and V1 of monkey brain by snRNAseq, snATAC-seq and Stereo-seq.

Bibliographic Details
Main Authors:	Ying Lei, Mengnan Cheng, Zihao Li, Zhenkun Zhuang, Liang Wu, Yunong sun, Lei Han, Zhihao Huang, Yuzhou Wang, Zifei Wang, Liqin Xu, Yue Yuan, Shang Liu, Taotao Pan, Jiarui Xie, Chuanyu Liu, Giacomo Volpe, Carl Ward, Yiwei Lai, Jiangshan Xu, Mingyue Wang, Hao Yu, Haixi Sun, Qichao Yu, Chunqing Wang, Chi Wai Wong, Wei Liu, Liangzhi Xu, Jingkuan Wei, Dandan Chen, Zhouchun Shang, Guibo Li, Kun Ma, Le Cheng, Fei Ling, Tao Tan, Kai Chen, Bosiljka Tasic, Michael Dean, Weizhi Ji, Huanming Yang, Ying Gu, Miguel A. Esteban, Yuxiang Li, Ao Chen, Yuyu Niu, Hongkui Zeng, Yong Hou, Longqi Liu, Shiping Liu, Xun Xu
Format:	Article
Language:	English
Published:	Nature Portfolio 2022-11-01
Series:	Nature Communications
Online Access:	https://doi.org/10.1038/s41467-022-34413-3

Description
Summary:	Cell type epigenetic and topographic information of primate brain is lacking. Here, authors identified transcriptional regulatory network, gradient expression pattern and disease vulnerability at cell type level in PFC, M1 and V1 of monkey brain by snRNAseq, snATAC-seq and Stereo-seq.
ISSN:	2041-1723

Spatially resolved gene regulatory and disease-related vulnerability map of the adult Macaque cortex

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