Spatial Integration of Multi-omics Single-cell Data with SIMO

Overview

Journal Nat Commun

Date 2025 Feb 1

PMID 39893194

Authors

Penghui Yang

Kaiyu Jin

Yue Yao

Lijun Jin

Xin Shao

Chengyu Li

Xiaoyan Lu

Xiaohui Fan

Affiliations

Soon will be listed here.

Abstract

Technical limitations in spatial and single-cell omics sequencing pose challenges for capturing and describing multimodal information at the spatial scale. To address this, we develop SIMO, a computational method designed for the Spatial Integration of Multi-Omics datasets through probabilistic alignment. Unlike previous tools, SIMO not only integrates spatial transcriptomics with single-cell RNA-seq but expands beyond, enabling integration across multiple single-cell modalities, such as chromatin accessibility and DNA methylation, which have not been co-profiled spatially before. We benchmark SIMO on simulated datasets, demonstrating its high accuracy and robustness. Further application on biological datasets reveals SIMO's ability to detect topological patterns of cells and their regulatory modes across multiple omics layers. Through comprehensive analysis of real-world data, SIMO uncovers multimodal spatial heterogeneity, offering deeper insights into the spatial organization and regulation of biological molecules. These findings position SIMO as a powerful tool for advancing spatial biology by revealing previously inaccessible multimodal insights.

Citing Articles

Spatial integration of multi-omics single-cell data with SIMO.

Yang P, Jin K, Yao Y, Jin L, Shao X, Li C Nat Commun. 2025; 16(1):1265.

PMID: 39893194 PMC: 11787318. DOI: 10.1038/s41467-025-56523-4.

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