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SAGE: Spatially Aware Gene Selection and Dual-View Embedding Fusion for Domain Identification in Spatial

Yi He1,2,3, Yunpei Xu1,2,3, Liqing Ding1,2,3

  • 1School of Computer Science and Engineering, Central South University, Changsha, China.

Advanced Science (Weinheim, Baden-Wurttemberg, Germany)
|January 4, 2026
PubMed
Summary
This summary is machine-generated.

Spatially Aware Gene selection and dual-view Embedding fusion (SAGE) improves spatial transcriptomics analysis by identifying informative genes and integrating local and non-local data. This framework enhances domain identification and reveals biological insights across diverse datasets.

Keywords:
clusteringcontrastive learninggraph neural networksspatial transcriptomics

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Area of Science:

  • Genomics
  • Computational Biology
  • Bioinformatics

Background:

  • Spatial transcriptomics (ST) enables high-resolution gene expression mapping but struggles with accurate domain segmentation due to complex tissue structures and current method limitations.
  • Existing ST analysis methods often rely on local information, lack gene interpretability, and fail to capture long-range functional relationships, hindering the resolution of biologically meaningful architectures.

Purpose of the Study:

  • To present Spatially Aware Gene selection and dual-view Embedding fusion (SAGE), a unified framework for improved domain identification in spatial transcriptomics.
  • To address limitations in current ST methods by integrating topic-driven gene selection and dual-view embedding fusion for enhanced spatial domain delineation.

Main Methods:

  • SAGE integrates non-negative matrix factorization (NMF)-based topic modeling with classifier-based importance scoring to select spatially informative genes.
  • It fuses local expression graphs with topic-driven non-local graphs using consensus refinement and contrastive graph representation learning to jointly learn spatial and functional embeddings.

Main Results:

  • SAGE outperforms existing methods in clustering accuracy across 34 real-world ST datasets.
  • The framework reveals functionally coherent regions, interpretable gene expression patterns, and spatial heterogeneity in human breast cancer.
  • SAGE refines tumor-muscle interfaces in zebrafish melanoma and uncovers shared vascular signatures between anatomically separate tissues.

Conclusions:

  • SAGE provides accurate spatial domain delineation across diverse ST platforms.
  • The framework is effective for dissecting microenvironmental niches and understanding long-range tissue interactions relevant to disease progression.