iScience (Jun 2023)

ADEPT: Autoencoder with differentially expressed genes and imputation for robust spatial transcriptomics clustering

  • Yunfei Hu,
  • Yuying Zhao,
  • Curtis T. Schunk,
  • Yingxiang Ma,
  • Tyler Derr,
  • Xin Maizie Zhou

Journal volume & issue
Vol. 26, no. 6
p. 106792

Abstract

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Summary: Advancements in spatial transcriptomics (ST) have enabled an in-depth understanding of complex tissues by quantifying gene expression at spatially localized spots. Several notable clustering methods have been introduced to utilize both spatial and transcriptional information in the analysis of ST datasets. However, data quality across different ST sequencing techniques and types of datasets influence the performance of different methods and benchmarks. To harness spatial context and transcriptional profile in ST data, we developed a graph-based, multi-stage framework for robust clustering, called ADEPT. To control and stabilize data quality, ADEPT relies on a graph autoencoder backbone and performs an iterative clustering on imputed, differentially expressed genes-based matrices to minimize the variance of clustering results. ADEPT outperformed other popular methods on ST data generated by different platforms across analyses such as spatial domain identification, visualization, spatial trajectory inference, and data denoising.

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