Cell type atlas and lineage tree of a whole complex animal by single-cell transcriptomics

Mireya Plass; Jordi Solana; F. Alexander Wolf; Salah Ayoub; Aristotelis Misios; Petar Glažar; Benedikt Obermayer; Fabian J. Theis; Christine Kocks; Nikolaus Rajewsky

doi:10.1126/science.aaq1723

Cell type atlas and lineage tree of a whole complex animal by single-cell transcriptomics

Mireya Plass, Jordi Solana, F. Alexander Wolf, Salah Ayoub, Aristotelis Misios, Petar Glažar, Benedikt Obermayer, Fabian J. Theis, Christine Kocks, Nikolaus Rajewsky

Chair of Mathematical Modelling of Biological Systems

Research output: Contribution to journal › Article › peer-review

309 Scopus citations

Abstract

Flatworms of the species Schmidtea mediterranea are immortal—adult animals contain a large pool of pluripotent stem cells that continuously differentiate into all adult cell types. Therefore, single-cell transcriptome profiling of adult animals should reveal mature and progenitor cells. By combining perturbation experiments, gene expression analysis, a computational method that predicts future cell states from transcriptional changes, and a lineage reconstruction method, we placed all major cell types onto a single lineage tree that connects all cells to a single stem cell compartment. We characterized gene expression changes during differentiation and discovered cell types important for regeneration. Our results demonstrate the importance of single-cell transcriptome analysis for mapping and reconstructing fundamental processes of developmental and regenerative biology at high resolution.

Original language	English
Article number	eaaq1723
Journal	Science
Volume	360
Issue number	6391
DOIs	https://doi.org/10.1126/science.aaq1723
State	Published - 25 May 2018

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abstract = "Flatworms of the species Schmidtea mediterranea are immortal—adult animals contain a large pool of pluripotent stem cells that continuously differentiate into all adult cell types. Therefore, single-cell transcriptome profiling of adult animals should reveal mature and progenitor cells. By combining perturbation experiments, gene expression analysis, a computational method that predicts future cell states from transcriptional changes, and a lineage reconstruction method, we placed all major cell types onto a single lineage tree that connects all cells to a single stem cell compartment. We characterized gene expression changes during differentiation and discovered cell types important for regeneration. Our results demonstrate the importance of single-cell transcriptome analysis for mapping and reconstructing fundamental processes of developmental and regenerative biology at high resolution.",

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AU - Plass, Mireya

AU - Solana, Jordi

AU - Alexander Wolf, F.

AU - Ayoub, Salah

AU - Misios, Aristotelis

AU - Glažar, Petar

AU - Obermayer, Benedikt

AU - Theis, Fabian J.

AU - Kocks, Christine

AU - Rajewsky, Nikolaus

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AB - Flatworms of the species Schmidtea mediterranea are immortal—adult animals contain a large pool of pluripotent stem cells that continuously differentiate into all adult cell types. Therefore, single-cell transcriptome profiling of adult animals should reveal mature and progenitor cells. By combining perturbation experiments, gene expression analysis, a computational method that predicts future cell states from transcriptional changes, and a lineage reconstruction method, we placed all major cell types onto a single lineage tree that connects all cells to a single stem cell compartment. We characterized gene expression changes during differentiation and discovered cell types important for regeneration. Our results demonstrate the importance of single-cell transcriptome analysis for mapping and reconstructing fundamental processes of developmental and regenerative biology at high resolution.

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Cell type atlas and lineage tree of a whole complex animal by single-cell transcriptomics

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