生物
转录组
器官发生
简编
胚胎干细胞
原肠化
进化生物学
胚胎
胚胎发生
命运图
计算生物学
斑马鱼
细胞生物学
遗传学
基因
基因表达
考古
历史
作者
Yichi Xu,Tengjiao Zhang,Qin Zhou,Mengzhu Hu,Qi Yao,Yifang Xue,Lihui Wang,Yuxiao Nie,Zhirong Bao,Weiyang Shi
标识
DOI:10.1101/2021.11.30.470583
摘要
Abstract The early window of human embryogenesis is largely a black box for developmental biologists. Here we probed the cellular diversity of 4- to 6-week human embryos when essentially all organs are just laid out. Based on over 180,000 single-cell transcriptomes, we generated a comprehensive atlas of 313 cell types in 18 developmental systems, which were annotated with a collection of ontology and markers from 157 publications. Together with spatial transcriptome on embryonic sections, we characterized the molecule and spatial architecture of previously unappreciated cell types. Combined with data from other vertebrates, the rich information shed light on spatial patterning of axes, systemic temporal regulation of developmental progression and potential human-specific regulation. Our study provides a compendium of early progenitor cells of human organs, which can serve as the root of lineage analysis in organogenesis.
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