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. 2025 Jun 18;16(6):101294.
doi: 10.1016/j.cels.2025.101294. Epub 2025 May 15.

Integrative, high-resolution analysis of single-cell gene expression across experimental conditions with PARAFAC2-RISE

Andrew Ramirez  1 Brian T Orcutt-Jahns  1 Sean Pascoe  2 Armaan Abraham  1 Breanna Remigio  3 Nathaniel Thomas  4 Aaron S Meyer  5
Affiliations

Integrative, high-resolution analysis of single-cell gene expression across experimental conditions with PARAFAC2-RISE

Andrew Ramirez et al. Cell Syst. .

Abstract

Effective exploration and analysis tools are vital for the extraction of insights from single-cell data. However, current techniques for modeling single-cell studies performed across experimental conditions (e.g., samples) require restrictive assumptions or do not adequately deconvolute condition-to-condition variation from cell-to-cell variation. Here, we report that reduction and insight in single-cell exploration (RISE), an adaptation of the tensor decomposition method PARAFAC2, enables the dimensionality reduction and analysis of single-cell data across conditions. We demonstrate the benefits of RISE across distinct examples of single-cell RNA-sequencing experiments of peripheral immune cells: pharmacologic drug perturbations and systemic lupus erythematosus patient samples. RISE enables associations of gene variation patterns with patients or perturbations while connecting each coordinated change to single cells without requiring cell-type annotations. The theoretical grounding of RISE suggests a unified framework for many single-cell data modeling tasks while providing an intuitive dimensionality reduction approach for multi-sample single-cell studies across biological contexts. A record of this paper's transparent peer review process is included in the supplemental information.

Keywords: PARAFAC2; scRNA-seq; single-cell analysis; tensor decomposition.

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Conflict of interest statement

Declaration of interests The authors declare no competing interests.

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