期刊
CELL SYSTEMS
卷 7, 期 3, 页码 258-+出版社
CELL PRESS
DOI: 10.1016/j.cels.2018.07.006
关键词
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资金
- NIH [DP2HD088158, 1DP2OD00667, P01GM099117]
- Fondazione Telethon Core Grant
- Armenise-Harvard Foundation Career Development Award
- European Research Council [759154]
- Rita-Levi Montalcini program from MIUR
- Alfred P. Sloan Foundation Research Fellowship
- European Research Council (ERC) [759154] Funding Source: European Research Council (ERC)
Cellular reprogramming through manipulation of defined factors holds great promise for large-scale production of cell types needed for use in therapy and for revealing principles of gene regulation. However, most reprogramming systems are inefficient, converting only a fraction of cells to the desired state. Here, we analyze MYOD-mediated reprogramming of human fibroblasts to myotubes, a well-characterized model system for direct conversion by defined factors, at pseudotemporal resolution using single-cell RNA-seq. To expose barriers to efficient conversion, we introduce a novel analytic technique, trajectory alignment, which enables quantitative comparison of gene expression kinetics across two biological processes. Reprogrammed cells navigate a trajectory with branch points that correspond to two alternative decision points, with cells that select incorrect branches terminating at aberrant or incomplete reprogramming outcomes. Analysis of these branch points revealed insulin and BMP signaling as crucial molecular determinants of reprogramming. Single-cell trajectory alignment enables rigorous quantitative comparisons between biological trajectories found in diverse processes in development, reprogramming, and other contexts.
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