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Spatially mapped single-cell chromatin accessibility.

Nature communications (2021-02-26)
Casey A Thornton, Ryan M Mulqueen, Kristof A Torkenczy, Andrew Nishida, Eve G Lowenstein, Andrew J Fields, Frank J Steemers, Wenri Zhang, Heather L McConnell, Randy L Woltjer, Anusha Mishra, Kevin M Wright, Andrew C Adey
RÉSUMÉ

High-throughput single-cell epigenomic assays can resolve cell type heterogeneity in complex tissues, however, spatial orientation is lost. Here, we present single-cell combinatorial indexing on Microbiopsies Assigned to Positions for the Assay for Transposase Accessible Chromatin, or sciMAP-ATAC, as a method for highly scalable, spatially resolved, single-cell profiling of chromatin states. sciMAP-ATAC produces data of equivalent quality to non-spatial sci-ATAC and retains the positional information of each cell within a 214 micron cubic region, with up to hundreds of tracked positions in a single experiment. We apply sciMAP-ATAC to assess cortical lamination in the adult mouse primary somatosensory cortex and in the human primary visual cortex, where we produce spatial trajectories and integrate our data with non-spatial single-nucleus RNA and other chromatin accessibility single-cell datasets. Finally, we characterize the spatially progressive nature of cerebral ischemic infarction in the mouse brain using a model of transient middle cerebral artery occlusion.

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Glycine, ReagentPlus®, ≥99% (HPLC)
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TWEEN® 20, viscous liquid
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Azoture de sodium, ReagentPlus®, ≥99.5%
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Albumin, Bovine Serum, 30% Sterile-Filtered Aqueous Solution, Preservative-Free