SCRINSHOT enables spatial mapping of cell states in tissue sections with single-cell resolution

Changes in cell identities and positions underlie tissue development and disease progression. Although single-cell mRNA sequencing (scRNA-Seq) methods rapidly generate extensive lists of cell states, spatially resolved single-cell mapping presents a challenging task. We developed SCRINSHOT (Single-C...

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Veröffentlicht in:	PLoS biology 2020-11, Vol.18 (11), p.e3000675-e3000675
Hauptverfasser:	Sountoulidis, Alexandros, Liontos, Andreas, Nguyen, Hong Phuong, Firsova, Alexandra B, Fysikopoulos, Athanasios, Qian, Xiaoyan, Seeger, Werner, Sundström, Erik, Nilsson, Mats, Samakovlis, Christos
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Schlagworte:	Amplification Animals Biology and Life Sciences Cell Line Collagen Complementary DNA Deoxyribonucleic acid DNA DNA polymerase DNA probes DNA sequencing DNA-directed DNA polymerase Elastin Extracellular matrix Fluorescent Dyes Gene expression Humans Hybridization Hybrids In Situ Hybridization - methods Medicin och hälsovetenskap Medicine and Health Sciences Methods Methods and Resources Mice Microscopy Nucleic Acid Amplification Techniques - methods Nucleic Acid Hybridization - methods Nucleotide sequence Oligonucleotides Phages Research and Analysis Methods Ribonucleic acid RNA RNA - chemistry RNA ligase RNA, Messenger - metabolism Signal detection Signal to noise ratio Single-Cell Analysis - methods Single-stranded DNA
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creator	Sountoulidis, Alexandros Liontos, Andreas Nguyen, Hong Phuong Firsova, Alexandra B Fysikopoulos, Athanasios Qian, Xiaoyan Seeger, Werner Sundström, Erik Nilsson, Mats Samakovlis, Christos
description	Changes in cell identities and positions underlie tissue development and disease progression. Although single-cell mRNA sequencing (scRNA-Seq) methods rapidly generate extensive lists of cell states, spatially resolved single-cell mapping presents a challenging task. We developed SCRINSHOT (Single-Cell Resolution IN Situ Hybridization On Tissues), a sensitive, multiplex RNA mapping approach. Direct hybridization of padlock probes on mRNA is followed by circularization with SplintR ligase and rolling circle amplification (RCA) of the hybridized padlock probes. Sequential detection of RCA-products using fluorophore-labeled oligonucleotides profiles thousands of cells in tissue sections. We evaluated SCRINSHOT specificity and sensitivity on murine and human organs. SCRINSHOT quantification of marker gene expression shows high correlation with published scRNA-Seq data over a broad range of gene expression levels. We demonstrate the utility of SCRINSHOT by mapping the locations of abundant and rare cell types along the murine airways. The amenability, multiplexity, and quantitative qualities of SCRINSHOT facilitate single-cell mRNA profiling of cell-state alterations in tissues under a variety of native and experimental conditions.
doi_str_mv	10.1371/journal.pbio.3000675
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subjects	Amplification Animals Biology and Life Sciences Cell Line Collagen Complementary DNA Deoxyribonucleic acid DNA DNA polymerase DNA probes DNA sequencing DNA-directed DNA polymerase Elastin Extracellular matrix Fluorescent Dyes Gene expression Humans Hybridization Hybrids In Situ Hybridization - methods Medicin och hälsovetenskap Medicine and Health Sciences Methods Methods and Resources Mice Microscopy Nucleic Acid Amplification Techniques - methods Nucleic Acid Hybridization - methods Nucleotide sequence Oligonucleotides Phages Research and Analysis Methods Ribonucleic acid RNA RNA - chemistry RNA ligase RNA, Messenger - metabolism Signal detection Signal to noise ratio Single-Cell Analysis - methods Single-stranded DNA
title	SCRINSHOT enables spatial mapping of cell states in tissue sections with single-cell resolution
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