Spatiotemporal mapping of gene expression landscapes and developmental trajectories during zebrafish embryogenesis

Spatiotemporal mapping of gene expression landscapes and developmental trajectories during zebrafish embryogenesis

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...

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Bibliographic Details
Published in:Developmental cell Vol. 57; no. 10; pp. 1284 - 1298.e5
Main 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
Format: Journal Article
Language:English
Published: United States Elsevier Inc 23-05-2022
Subjects:
Animals
Embryo, Mammalian
embryonic development
Embryonic Development - genetics
Gene Expression Profiling
Gene Expression Regulation, Developmental
scRNA-seq
spatial transcriptomics
Stereo-seq
Transcriptome
zebrafish
Zebrafish - genetics
Stereo-seq
scRNA-seq
zebrafish
spatial transcriptomics
embryonic development
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Summary: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. [Display omitted] •Stereo-seq is used to generate a ZESTA•Co-varying spatial gene modules reveal the interactions between functional regions•Integration of Stereo-seq and scRNA-seq builds spatial developmental trajectories•Spatiotemporal ligand-receptor dynamics provides insights to regulatory mechanisms Liu et al. employ Stereo-seq to dissect the spatiotemporal transcriptomic dynamics in developing zebrafish embryos. This study provides a spatially resolved resource for the research of vertebrate embryogenesis and also helps to uncover how molecular and cellular interactions contribute to zebrafish embryogenesis.
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ISSN:1534-5807
1878-1551
DOI:10.1016/j.devcel.2022.04.009