DeST-OT: Alignment of Spatiotemporal Transcriptomics Data

Halmos, Peter; Liu, Xinhao; Gold, Julian; Chen, Feng; Ding, Li; Raphael, Benjamin J.

doi:10.1101/2024.03.05.583575

2024

DOI: 10.1101/2024.03.05.583575

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DeST-OT: Alignment of Spatiotemporal Transcriptomics Data

Peter Halmos,

Xinhao Liu,

Julian Gold

et al.

Abstract: Spatially resolved transcriptomics (SRT) measures mRNA transcripts at thousands of locations within a tissue slice, revealing spatial variations in gene expression and distribution of cell types. In recent studies, SRT has been applied to tissue slices from multiple timepoints during the development of an organism. Alignment of this spatiotemporal transcriptomics data can provide insights into the gene expression programs governing the growth and differentiation of cells over space and time. We introduce DeST-… Show more

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2024

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References 43 publications

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A Spatiotemporal Atlas of Mouse Gastrulation and Early Organogenesis to Explore Axial Patterning and ProjectIn VitroModels ontoIn VivoSpace

Harland,

Lohoff,

Koulena

et al. 2024

Preprint

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SUMMARYAt the onset of murine gastrulation, pluripotent epiblast cells migrate through the primitive streak, generating mesodermal and endodermal precursors, while the ectoderm arises from the remaining epiblast. Together, these germ layers establish the body plan, defining major body axes and initiating organogenesis. Although comprehensive single cell transcriptional atlases of dissociated mouse embryos across embryonic stages have provided valuable insights during gastrulation, the spatial context for cell differentiation and tissue patterning remain underexplored. In this study, we employed spatial transcriptomics to measure gene expression in mouse embryos at E6.5 and E7.5 and integrated these datasets with previously published E8.5 spatial transcriptomics1and a scRNA-seq2atlas spanning E6.5 to E9.5. This approach resulted in a comprehensive spatiotemporal atlas, comprising over 150,000 cells with 88 refined cell type annotations as well as genome-wide transcriptional imputation during mouse gastrulation and early organogenesis. The atlas facilitates exploration of gene expression dynamics along anterior-posterior and dorsal-ventral axes at cell type, tissue, and organismal scales, revealing insights into mesodermal fate decisions within the primitive streak. Moreover, we developed a bioinformatics pipeline to project additional scRNA-seq datasets into a spatiotemporal framework and demonstrate its utility by analysing cardiovascular models of gastrulation3. To maximise impact, the atlas is publicly accessible via a user-friendly web portal empowering the wider developmental and stem cell biology communities to explore mechanisms of early mouse development in a spatiotemporal context.

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A Spatiotemporal Atlas of Mouse Gastrulation and Early Organogenesis to Explore Axial Patterning and ProjectIn VitroModels ontoIn VivoSpace

Harland,

Lohoff,

Koulena

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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DeST-OT: Alignment of Spatiotemporal Transcriptomics Data

Cited by 1 publication

References 43 publications

A Spatiotemporal Atlas of Mouse Gastrulation and Early Organogenesis to Explore Axial Patterning and ProjectIn VitroModels ontoIn VivoSpace

A Spatiotemporal Atlas of Mouse Gastrulation and Early Organogenesis to Explore Axial Patterning and ProjectIn VitroModels ontoIn VivoSpace

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