Spatiotemporal mapping of gene expression landscapes and developmental trajectories during zebrafish embryogenesis.
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IF: 13.417
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Cited by: 16
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Datasets
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Abstract

A major challenge in understanding vertebrate embryogenesis is the lack of topographical transcriptomic information that can help correlate microenvironmental cues within the hierarchy of cell-fate decisions. Here, we employed Stereo-seq to profile 91 zebrafish embryo sections covering six critical time points during the first 24 h of development, obtaining a total of 152,977 spots at a resolution of 10 × 10 × 15 μm3 (close to cellular size) with spatial coordinates. Meanwhile, we identified spatial modules and co-varying genes for specific tissue organizations. By performing the integrated analysis of the Stereo-seq and scRNA-seq data from each time point, we reconstructed the spatially resolved developmental trajectories of cell-fate transitions and molecular changes during zebrafish embryogenesis. We further investigated the spatial distribution of ligand-receptor pairs and identified potentially important interactions during zebrafish embryo development. Our study constitutes a fundamental reference for further studies aiming to understand vertebrate development.

Keywords

Spatial Transcriptomics
Stereo-seq
Spatial Temporal Transcriptomics
embryonic development
scRNA-seq
spatial transcriptomics
zebrafish

Authors

Liu, Chang
Li, Rui
Li, Young
Lin, Xiumei
Zhao, Kaichen
Liu, Qun
Wang, Shuowen
Yang, Xueqian
Shi, Xuyang
Ma, Yuting
Pei, Chenyu
Wang, Hui
Bao, Wendai
Hui, Junhou
Yang, Tao
Xu, Zhicheng
Lai, Tingting
Berberoglu, Michael Arman
Sahu, Sunil Kumar
Esteban, Miguel A
Ma, Kailong
Fan, Guangyi
Li, Yuxiang
Liu, Shiping
Chen, Ao
Xu, Xun
Dong, Zhiqiang
Liu, Longqi