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Three-dimensional molecular cartography of human cerebral organoids revealed by double-barcoded spatial transcriptomics

Gwendoline Lozachmeur, Aude Bramoulle, Antoine Aubert, François Stüder, Julien Moehlin, Lucie Madrange, F Yates, Jean‐Philippe Deslys, Marco Antonio Mendoza-Parra

2023Cell Reports Methods14 citationsDOIOpen Access PDF

Abstract

Spatially resolved transcriptomics is revolutionizing our understanding of complex tissues, but scaling these approaches to multiple tissue sections and three-dimensional tissue reconstruction remains challenging and cost prohibitive. In this work, we present a low-cost strategy for manufacturing molecularly double-barcoded DNA arrays, enabling large-scale spatially resolved transcriptomics studies. We applied this technique to spatially resolve gene expression in several human brain organoids, including the reconstruction of a three-dimensional view from multiple consecutive sections, revealing gene expression heterogeneity throughout the tissue.

Topics & Concepts

TranscriptomeOrganoidComputational biologyBrain tissueBiologyGene expressionScale (ratio)Computer scienceGeneCell biologyNeuroscienceCartographyGeneticsGeographySingle-cell and spatial transcriptomicsCell Image Analysis TechniquesMolecular Biology Techniques and Applications
Three-dimensional molecular cartography of human cerebral organoids revealed by double-barcoded spatial transcriptomics | Litcius