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Hodge Decomposition of Single-Cell RNA Velocity

Zhe Su, Yiying Tong, Guo‐Wei Wei

2024Journal of Chemical Information and Modeling14 citationsDOIOpen Access PDF

Abstract

RNA velocity has the ability to capture the cell dynamic information in the biological processes; yet, a comprehensive analysis of the cell state transitions and their associated chemical and biological processes remains a gap. In this work, we provide the Hodge decomposition, coupled with discrete exterior calculus (DEC), to unveil cell dynamics by examining the decomposed curl-free, divergence-free, and harmonic components of the RNA velocity field in a low dimensional representation, such as a UMAP or a t-SNE representation. Decomposition results show that the decomposed components distinctly reveal key cell dynamic features such as cell cycle, bifurcation, and cell lineage differentiation, regardless of the choice of the low-dimensional representations. The consistency across different representations demonstrates that the Hodge decomposition is a reliable and robust way to extract these cell dynamic features, offering unique analysis and insightful visualization of single-cell RNA velocity fields.

Topics & Concepts

Vector fieldRepresentation (politics)DecompositionBiological systemRNAMathematicsComputer scienceGeometryChemistryBiologyEcologyPoliticsGeneLawPolitical scienceBiochemistrySingle-cell and spatial transcriptomicsCell Image Analysis TechniquesGene Regulatory Network Analysis
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