Motivation: Single-cell profiling has become a common practice to investigate the complexity of tissues, organs, and organisms. Recent technological advances are expanding our capabilities to profile various molecular layers beyond the transcriptome such as, but not limited to, the genome, the epigenome, and the proteome. Depending on the experimental procedure, these data can be obtained from separate assays or the very same cells. Yet, integration of more than two assays is currently not supported by the majority of the computational frameworks avaiable. Results: We here propose a Multi-Omic data integration framework based on Wasserstein Generative Adversarial Networks suitable for the analysis of paired or unpaired data with a high number of modalities (>2). At the core of our strategy is a single network trained on all modalities together, limiting the computational burden when many molecular layers are evaluated.

Giansanti, V., Giannese, F., Botrugno, O., Gandolfi, G., Balestrieri, C., Antoniotti, M., et al. (2024). Scalable Integration of Multiomic Single Cell Data Using Generative Adversarial Networks. BIOINFORMATICS, 40(5) [10.1093/bioinformatics/btae300].

Scalable Integration of Multiomic Single Cell Data Using Generative Adversarial Networks

Giansanti, V;Antoniotti, M;
2024

Abstract

Motivation: Single-cell profiling has become a common practice to investigate the complexity of tissues, organs, and organisms. Recent technological advances are expanding our capabilities to profile various molecular layers beyond the transcriptome such as, but not limited to, the genome, the epigenome, and the proteome. Depending on the experimental procedure, these data can be obtained from separate assays or the very same cells. Yet, integration of more than two assays is currently not supported by the majority of the computational frameworks avaiable. Results: We here propose a Multi-Omic data integration framework based on Wasserstein Generative Adversarial Networks suitable for the analysis of paired or unpaired data with a high number of modalities (>2). At the core of our strategy is a single network trained on all modalities together, limiting the computational burden when many molecular layers are evaluated.
Articolo in rivista - Articolo scientifico
Single Cells; Transcriptomics; AI
English
2-mag-2024
2024
40
5
btae300
none
Giansanti, V., Giannese, F., Botrugno, O., Gandolfi, G., Balestrieri, C., Antoniotti, M., et al. (2024). Scalable Integration of Multiomic Single Cell Data Using Generative Adversarial Networks. BIOINFORMATICS, 40(5) [10.1093/bioinformatics/btae300].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/475562
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