Literature DB >> 28296635

Dynamics of embryonic stem cell differentiation inferred from single-cell transcriptomics show a series of transitions through discrete cell states.

Sumin Jang1,2, Sandeep Choubey1,2, Leon Furchtgott1,3, Ling-Nan Zou1, Adele Doyle1,2, Vilas Menon4, Ethan B Loew1,2, Anne-Rachel Krostag4, Refugio A Martinez4, Linda Madisen4, Boaz P Levi4, Sharad Ramanathan1,2,4,5,6.   

Abstract

The complexity of gene regulatory networks that lead multipotent cells to acquire different cell fates makes a quantitative understanding of differentiation challenging. Using a statistical framework to analyze single-cell transcriptomics data, we infer the gene expression dynamics of early mouse embryonic stem (mES) cell differentiation, uncovering discrete transitions across nine cell states. We validate the predicted transitions across discrete states using flow cytometry. Moreover, using live-cell microscopy, we show that individual cells undergo abrupt transitions from a naïve to primed pluripotent state. Using the inferred discrete cell states to build a probabilistic model for the underlying gene regulatory network, we further predict and experimentally verify that these states have unique response to perturbations, thus defining them functionally. Our study provides a framework to infer the dynamics of differentiation from single cell transcriptomics data and to build predictive models of the gene regulatory networks that drive the sequence of cell fate decisions during development.

Entities:  

Keywords:  Single-cell RNA-seq; computational biology; context dependence; developmental biology; germ layer differentiation; mouse; stem cells; systems biology

Mesh:

Year:  2017        PMID: 28296635      PMCID: PMC5352225          DOI: 10.7554/eLife.20487

Source DB:  PubMed          Journal:  Elife        ISSN: 2050-084X            Impact factor:   8.140


  64 in total

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Authors:  J K Kim; S O Huh; H Choi; K S Lee; D Shin; C Lee; J S Nam; H Kim; H Chung; H W Lee; S D Park; R H Seong
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  16 in total

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5.  Defining the Teratoma as a Model for Multi-lineage Human Development.

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7.  Cell cycle time series gene expression data encoded as cyclic attractors in Hopfield systems.

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