MaskGraphene: an advanced framework for interpretable joint representation for multi-slice, multi-condition spatial transcriptomics

Yunfei Hu; Zhenhan Lin; Manfei Xie; Weiman Yuan; Yikang Li; Mingxing Rao; Yichen Henry Liu; Wenjun Shen; Lu Zhang; Xin Maizie Zhou

doi:10.1186/s13059-025-03850-w

MaskGraphene: an advanced framework for interpretable joint representation for multi-slice, multi-condition spatial transcriptomics

Yunfei Hu
, Zhenhan Lin
, Manfei Xie
, Weiman Yuan
, Yikang Li
, Mingxing Rao
, Yichen Henry Liu
, Wenjun Shen
, Lu Zhang^*
, Xin Maizie Zhou^*

^*Corresponding author for this work

Department of Computer Science

Research output: Contribution to journal › Journal article › peer-review

Abstract

Recent advances in spatial transcriptomics (ST) highlight the need to integrate multiple slices for joint analysis. A key challenge is generating interpretable embeddings that preserve spatial geometry while correcting batch effects. We present MaskGraphene, a graph neural network that integrates ST data via masked self-supervised learning, triplet loss, and cluster-wise local alignment. By establishing indirect "soft-links" and direct "hard-links" across slices, MaskGraphene yields joint embeddings with high geometric fidelity. Benchmarks against eight methods demonstrate superior alignment and interpretability. MaskGraphene enhances downstream applications, including domain identification, trajectory reconstruction, biomarker discovery, and brain-layer mapping, enabling robust ST integration and biological insight.

Original language	English
Article number	380
Number of pages	45
Journal	Genome Biology
Volume	26
Issue number	1
DOIs	https://doi.org/10.1186/s13059-025-03850-w
Publication status	Published - 5 Nov 2025

User-Defined Keywords

Batch correction
Contrastive learning
Integration
Interpretable embeddings
Self-supervised learning
Spatial Transcriptomics

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10.1186/s13059-025-03850-w

Cite this

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title = "MaskGraphene: an advanced framework for interpretable joint representation for multi-slice, multi-condition spatial transcriptomics",

abstract = "Recent advances in spatial transcriptomics (ST) highlight the need to integrate multiple slices for joint analysis. A key challenge is generating interpretable embeddings that preserve spatial geometry while correcting batch effects. We present MaskGraphene, a graph neural network that integrates ST data via masked self-supervised learning, triplet loss, and cluster-wise local alignment. By establishing indirect {"}soft-links{"} and direct {"}hard-links{"} across slices, MaskGraphene yields joint embeddings with high geometric fidelity. Benchmarks against eight methods demonstrate superior alignment and interpretability. MaskGraphene enhances downstream applications, including domain identification, trajectory reconstruction, biomarker discovery, and brain-layer mapping, enabling robust ST integration and biological insight.",

keywords = "Batch correction, Contrastive learning, Integration, Interpretable embeddings, Self-supervised learning, Spatial Transcriptomics",

author = "Yunfei Hu and Zhenhan Lin and Manfei Xie and Weiman Yuan and Yikang Li and Mingxing Rao and Liu, \{Yichen Henry\} and Wenjun Shen and Lu Zhang and Zhou, \{Xin Maizie\}",

note = "This work was supported by the NIGMS Maximizing Investigators{\textquoteright} Research Award (MIRA) R35 GM146960, Young Collaborative Research Grant (C2004-23Y), and HMRF (11221026) Publisher Copyright: {\textcopyright} 2025. The Author(s).",

year = "2025",

month = nov,

day = "5",

doi = "10.1186/s13059-025-03850-w",

language = "English",

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journal = "Genome Biology",

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AU - Hu, Yunfei

AU - Lin, Zhenhan

AU - Xie, Manfei

AU - Yuan, Weiman

AU - Li, Yikang

AU - Rao, Mingxing

AU - Liu, Yichen Henry

AU - Shen, Wenjun

AU - Zhang, Lu

AU - Zhou, Xin Maizie

N1 - This work was supported by the NIGMS Maximizing Investigators’ Research Award (MIRA) R35 GM146960, Young Collaborative Research Grant (C2004-23Y), and HMRF (11221026) Publisher Copyright: © 2025. The Author(s).

PY - 2025/11/5

Y1 - 2025/11/5

N2 - Recent advances in spatial transcriptomics (ST) highlight the need to integrate multiple slices for joint analysis. A key challenge is generating interpretable embeddings that preserve spatial geometry while correcting batch effects. We present MaskGraphene, a graph neural network that integrates ST data via masked self-supervised learning, triplet loss, and cluster-wise local alignment. By establishing indirect "soft-links" and direct "hard-links" across slices, MaskGraphene yields joint embeddings with high geometric fidelity. Benchmarks against eight methods demonstrate superior alignment and interpretability. MaskGraphene enhances downstream applications, including domain identification, trajectory reconstruction, biomarker discovery, and brain-layer mapping, enabling robust ST integration and biological insight.

AB - Recent advances in spatial transcriptomics (ST) highlight the need to integrate multiple slices for joint analysis. A key challenge is generating interpretable embeddings that preserve spatial geometry while correcting batch effects. We present MaskGraphene, a graph neural network that integrates ST data via masked self-supervised learning, triplet loss, and cluster-wise local alignment. By establishing indirect "soft-links" and direct "hard-links" across slices, MaskGraphene yields joint embeddings with high geometric fidelity. Benchmarks against eight methods demonstrate superior alignment and interpretability. MaskGraphene enhances downstream applications, including domain identification, trajectory reconstruction, biomarker discovery, and brain-layer mapping, enabling robust ST integration and biological insight.

KW - Batch correction

KW - Contrastive learning

KW - Integration

KW - Interpretable embeddings

KW - Self-supervised learning

KW - Spatial Transcriptomics

UR - https://www.scopus.com/pages/publications/105020993389

U2 - 10.1186/s13059-025-03850-w

DO - 10.1186/s13059-025-03850-w

M3 - Journal article

C2 - 41194133

SN - 1474-7596

VL - 26

JO - Genome Biology

JF - Genome Biology

IS - 1

M1 - 380

ER -

MaskGraphene: an advanced framework for interpretable joint representation for multi-slice, multi-condition spatial transcriptomics

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