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Main Authors: Xiao, Xiongtao, Chen, Xiaofeng, Jiang, Feiyan, Zhang, Songming, Cao, Wenming, Tan, Cheng, Gao, Zhangyang, Li, Zhongshan
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.20159
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author Xiao, Xiongtao
Chen, Xiaofeng
Jiang, Feiyan
Zhang, Songming
Cao, Wenming
Tan, Cheng
Gao, Zhangyang
Li, Zhongshan
author_facet Xiao, Xiongtao
Chen, Xiaofeng
Jiang, Feiyan
Zhang, Songming
Cao, Wenming
Tan, Cheng
Gao, Zhangyang
Li, Zhongshan
contents Single-cell spatial transcriptomics (ST) offers a unique approach to measuring gene expression profiles and spatial cell locations simultaneously. However, most existing ST methods assume that cells in closer spatial proximity exhibit more similar gene expression patterns. Such assumption typically results in graph structures that prioritize local spatial information while overlooking global patterns, limiting the ability to fully capture the broader structural features of biological tissues. To overcome this limitation, we propose GATES (Graph Attention neTwork with global Expression fuSion), a novel model designed to capture structural details in spatial transcriptomics data. GATES first constructs an expression graph that integrates local and global information by leveraging both spatial proximity and gene expression similarity. The model then employs an autoencoder with adaptive attention to assign proper weights for neighboring nodes, enhancing its capability of feature extraction. By fusing features of both the spatial and expression graphs, GATES effectively balances spatial context with gene expression data. Experimental results across multiple datasets demonstrate that GATES significantly outperforms existing methods in identifying spatial domains, highlighting its potential for analyzing complex biological tissues. Our code can be accessed on GitHub at https://github.com/xiaoxiongtao/GATES.
format Preprint
id arxiv_https___arxiv_org_abs_2410_20159
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle GATES: Graph Attention Network with Global Expression Fusion for Deciphering Spatial Transcriptome Architectures
Xiao, Xiongtao
Chen, Xiaofeng
Jiang, Feiyan
Zhang, Songming
Cao, Wenming
Tan, Cheng
Gao, Zhangyang
Li, Zhongshan
Genomics
Single-cell spatial transcriptomics (ST) offers a unique approach to measuring gene expression profiles and spatial cell locations simultaneously. However, most existing ST methods assume that cells in closer spatial proximity exhibit more similar gene expression patterns. Such assumption typically results in graph structures that prioritize local spatial information while overlooking global patterns, limiting the ability to fully capture the broader structural features of biological tissues. To overcome this limitation, we propose GATES (Graph Attention neTwork with global Expression fuSion), a novel model designed to capture structural details in spatial transcriptomics data. GATES first constructs an expression graph that integrates local and global information by leveraging both spatial proximity and gene expression similarity. The model then employs an autoencoder with adaptive attention to assign proper weights for neighboring nodes, enhancing its capability of feature extraction. By fusing features of both the spatial and expression graphs, GATES effectively balances spatial context with gene expression data. Experimental results across multiple datasets demonstrate that GATES significantly outperforms existing methods in identifying spatial domains, highlighting its potential for analyzing complex biological tissues. Our code can be accessed on GitHub at https://github.com/xiaoxiongtao/GATES.
title GATES: Graph Attention Network with Global Expression Fusion for Deciphering Spatial Transcriptome Architectures
topic Genomics
url https://arxiv.org/abs/2410.20159