PLoS ONE (Jan 2023)

scAEGAN: Unification of single-cell genomics data by adversarial learning of latent space correspondences.

  • Sumeer Ahmad Khan,
  • Robert Lehmann,
  • Xabier Martinez-de-Morentin,
  • Alberto Maillo,
  • Vincenzo Lagani,
  • Narsis A Kiani,
  • David Gomez-Cabrero,
  • Jesper Tegner

DOI
https://doi.org/10.1371/journal.pone.0281315
Journal volume & issue
Vol. 18, no. 2
p. e0281315

Abstract

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Recent progress in Single-Cell Genomics has produced different library protocols and techniques for molecular profiling. We formulate a unifying, data-driven, integrative, and predictive methodology for different libraries, samples, and paired-unpaired data modalities. Our design of scAEGAN includes an autoencoder (AE) network integrated with adversarial learning by a cycleGAN (cGAN) network. The AE learns a low-dimensional embedding of each condition, whereas the cGAN learns a non-linear mapping between the AE representations. We evaluate scAEGAN using simulated data and real scRNA-seq datasets, different library preparations (Fluidigm C1, CelSeq, CelSeq2, SmartSeq), and several data modalities as paired scRNA-seq and scATAC-seq. The scAEGAN outperforms Seurat3 in library integration, is more robust against data sparsity, and beats Seurat 4 in integrating paired data from the same cell. Furthermore, in predicting one data modality from another, scAEGAN outperforms Babel. We conclude that scAEGAN surpasses current state-of-the-art methods and unifies integration and prediction challenges.