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Vesalius: high‐resolution in silico anatomization of spatial transcriptomic data using image analysis

Patrick Martin, Hyobin Kim, Cecilia Lövkvist, Byung‐Woo Hong, Kyoung‐Jae Won

2022Molecular Systems Biology24 citationsDOIOpen Access PDF

Abstract

Characterization of tissue architecture promises to deliver insights into development, cell communication, and disease. In silico spatial domain retrieval methods have been developed for spatial transcriptomics (ST) data assuming transcriptional similarity of neighboring barcodes. However, domain retrieval approaches with this assumption cannot work in complex tissues composed of multiple cell types. This task becomes especially challenging in cellular resolution ST methods. We developed Vesalius to decipher tissue anatomy from ST data by applying image processing technology. Vesalius uniquely detected territories composed of multiple cell types and successfully recovered tissue structures in high-resolution ST data including in mouse brain, embryo, liver, and colon. Utilizing this tissue architecture, Vesalius identified tissue morphology-specific gene expression and regional specific gene expression changes for astrocytes, interneuron, oligodendrocytes, and entorhinal cells in the mouse brain.

Topics & Concepts

BiologyIn silicoTranscriptomeComputational biologyCell typeGene expressionGeneCellGeneticsSingle-cell and spatial transcriptomicsGene expression and cancer classificationMolecular Biology Techniques and Applications
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