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scConfluence: single-cell diagonal integration with regularized Inverse Optimal Transport on weakly connected features

Jules Samaran, Gabriel Peyré, Laura Cantini

2024Nature Communications17 citationsDOIOpen Access PDF

Abstract

The abundance of unpaired multimodal single-cell data has motivated a growing body of research into the development of diagonal integration methods. However, the state-of-the-art suffers from the loss of biological information due to feature conversion and struggles with modality-specific populations. To overcome these crucial limitations, we here introduce scConfluence, a method for single-cell diagonal integration. scConfluence combines uncoupled autoencoders on the complete set of features with regularized Inverse Optimal Transport on weakly connected features. We extensively benchmark scConfluence in several single-cell integration scenarios proving that it outperforms the state-of-the-art. We then demonstrate the biological relevance of scConfluence in three applications. We predict spatial patterns for Scgn, Synpr and Olah in scRNA-smFISH integration. We improve the classification of B cells and Monocytes in highly heterogeneous scRNA-scATAC-CyTOF integration. Finally, we reveal the joint contribution of Fezf2 and apical dendrite morphology in Intra Telencephalic neurons, based on morphological images and scRNA. The abundance of unpaired multimodal single-cell data drives the need for improved integration methods. Here, authors introduce scConfluence, a method combining uncoupled autoencoders with regularized Inverse Optimal Transport to tackle robustly diverse integration scenarios.

Topics & Concepts

DiagonalBenchmark (surveying)Computer scienceFeature (linguistics)Biological systemInverseAlgorithmBiologyPattern recognition (psychology)Artificial intelligenceMathematicsPhilosophyGeometryGeodesyGeographyLinguisticsSingle-cell and spatial transcriptomicsExtracellular vesicles in diseaseImmune cells in cancer
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