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Malagoli, G. ; Hanel, P. ; Danese, A. ; Wolf, G.* ; Colomé-Tatché, M.

Geometry-aware graph attention networks to explain single-cell chromatin states and gene expression with SEAGALL.

Genome Biol., DOI: 10.1186/s13059-026-04066-2 (2026)
Postprint Forschungsdaten DOI PMC
Open Access Green
High-throughput single-cell sequencing is widely used to study cell identity. We present SEAGALL (Single-cell Explainable Geometry-Aware Graph Attention Learning pipeLine), a deep learning method to quantify the impact of molecular features on cellular phenotype, based on geometry-regularised autoencoders (GRAE) and explainable graph attention networks (X-GAT). The GRAE embeds the data into a latent space to build a reliable cell-cell graph. The GAT is trained to learn the annotations and XAI is used to explain the predictions, unravelling the features driving cell identity. SEAGALL extracts specific and stable signatures from multiple omics experiments, going beyond differential marker genes.
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Publikationstyp Artikel: Journalartikel
Dokumenttyp Wissenschaftlicher Artikel
ISSN (print) / ISBN 1474-760X
e-ISSN 1465-6906
Zeitschrift Genome Biology
Verlag Springer
Begutachtungsstatus Peer reviewed
Institut(e) Institute of Computational Biology (ICB)
Institute of Stem Cell Research (ISF)