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Manifold alignment for heterogeneous single-cell multi-omics data integration using Pamona

Kai Cao, Yiguang Hong, Lin Wan

2021Bioinformatics99 citationsDOIOpen Access PDF

Abstract

MOTIVATION: Single-cell multi-omics sequencing data can provide a comprehensive molecular view of cells. However, effective approaches for the integrative analysis of such data are challenging. Existing manifold alignment methods demonstrated the state-of-the-art performance on single-cell multi-omics data integration, but they are often limited by requiring that single-cell datasets be derived from the same underlying cellular structure. RESULTS: In this study, we present Pamona, a partial Gromov-Wasserstein distance-based manifold alignment framework that integrates heterogeneous single-cell multi-omics datasets with the aim of delineating and representing the shared and dataset-specific cellular structures across modalities. We formulate this task as a partial manifold alignment problem and develop a partial Gromov-Wasserstein optimal transport framework to solve it. Pamona identifies both shared and dataset-specific cells based on the computed probabilistic couplings of cells across datasets, and it aligns cellular modalities in a common low-dimensional space, while simultaneously preserving both shared and dataset-specific structures. Our framework can easily incorporate prior information, such as cell type annotations or cell-cell correspondence, to further improve alignment quality. We evaluated Pamona on a comprehensive set of publicly available benchmark datasets. We demonstrated that Pamona can accurately identify shared and dataset-specific cells, as well as faithfully recover and align cellular structures of heterogeneous single-cell modalities in a common space, outperforming the comparable existing methods. AVAILABILITYAND IMPLEMENTATION: Pamona software is available at https://github.com/caokai1073/Pamona. SUPPLEMENTARY INFORMATION: Supplementary data are available at Bioinformatics online.

Topics & Concepts

Data integrationComputer scienceOmicsComputational biologyManifold (fluid mechanics)Nonlinear dimensionality reductionState (computer science)Data miningBioinformaticsBiologyMachine learningAlgorithmDimensionality reductionEngineeringMechanical engineeringSingle-cell and spatial transcriptomicsCell Image Analysis TechniquesBioinformatics and Genomic Networks