细胞分化过程中基因表达的内在维度

bioRxiv - Systems Biology Pub Date : 2024-08-06 DOI:10.1101/2024.08.02.606382

Marta Biondo, Niccolò Cirone, Filippo Valle, Silvia Lazzardi, Michele Caselle, Matteo Osella

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引用次数: 0

摘要

长期以来，瓦丁顿的表观遗传景观一直是理解细胞命运决定的概念框架。表观遗传图谱的几何结构编码了引导未定型细胞基因表达谱向终末分化细胞类型发展的分子机制。在本研究中，我们证明了将内在维度的概念应用于单细胞转录组数据可以有效捕捉表达轨迹的趋势，从而支持这一框架。通过这种方法，我们可以定义一个稳健的细胞效力评分，而无需依赖先前的生物学信息。通过分析来自不同物种、实验方案和分化过程的大量数据集，我们验证了我们的方法，并成功地再现了已确立的细胞类型效力等级。

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The intrinsic dimension of gene expression during cell differentiation

Waddington’s epigenetic landscape has long served as a conceptual framework for understanding cell fate decisions. The landscape’s geometry encodes the molecular mechanisms that guide the gene expression profiles of uncommitted cells toward terminally differentiated cell types. In this study, we demonstrate that applying the concept of intrinsic dimension to single-cell transcriptomic data can effectively capture trends in expression trajectories, supporting this framework. This approach allows us to define a robust cell potency score without relying on prior biological information. By analyzing an extensive collection of datasets from various species, experimental protocols, and differentiation processes, we validate our method and successfully reproduce established hierarchies of cell type potency.

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bioRxiv - Systems Biology

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