DESP: Demixing Cell State Profiles from Dynamic Bulk Molecular Measurements

biorxiv(2023)

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摘要
There is wide interest to determine the dynamic expression of proteins and other molecules that drive phenotypic remodeling in development and pathobiology, but due to technical limitations these systems remain largely unexplored at the resolution of the underlying cell states. Here, we present DESP, a novel algorithm that leverages independent readouts of cellular proportions, such as from single-cell RNA-sequencing or cell sorting, to resolve the relative contributions of cell states to bulk molecular measurements, most notably quantitative proteomics, recorded in parallel. We applied DESP to an in-vitro model of the epithelial-to-mesenchymal transition and demonstrated its ability to accurately reconstruct cell state signatures from bulk-level measurements of both the proteome and transcriptome providing insights into transient regulatory mechanisms. DESP provides a generalizable computational framework for modeling the relationship between bulk and single-cell molecular measurements, enabling the study of proteomes and other molecular profiles at the cell state-level using established bulk-level workflows. ### Competing Interest Statement The authors have declared no competing interest.
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关键词
dynamic bulk molecular measurements,cell state profiles
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