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DeepGFT: identifying spatial domains in spatial transcriptomics of complex and 3D tissue using deep learning and graph Fourier transform
DeepGFT: identifying spatial domains in spatial transcriptomics of complex and 3D tissue using deep learning and graph Fourier transform
by Liu, Jixin , Sun, Shuli , Liu, Bingqiang , Li, Guojun
in Algorithms / Animal Genetics and Genomics / Animals / Bioinformatics / Biomedical and Life Sciences / breast neoplasms / Breast Neoplasms - genetics / Breast Neoplasms - pathology / Cancer / Clustering / Deep Learning / domain / Drosophila / Drosophila - genetics / Eigenvalues / Eigenvectors / Evolutionary Biology / Female / Fourier Analysis / Fourier transforms / Gene expression / Gene Expression Profiling - methods / genes / Germinal centers / Graph Fourier transform / Human Genetics / Humans / Identification / Life Sciences / Lymph nodes / Lymph Nodes - metabolism / Methodology / Microbial Genetics and Genomics / Neural networks / Plant Genetics and Genomics / Signal processing / spatial data / Spatial domain identification / Spatial resolved transcriptomics / Transcriptome / Transcriptomics
2025
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DeepGFT: identifying spatial domains in spatial transcriptomics of complex and 3D tissue using deep learning and graph Fourier transform
by Liu, Jixin , Sun, Shuli , Liu, Bingqiang , Li, Guojun
in Algorithms / Animal Genetics and Genomics / Animals / Bioinformatics / Biomedical and Life Sciences / breast neoplasms / Breast Neoplasms - genetics / Breast Neoplasms - pathology / Cancer / Clustering / Deep Learning / domain / Drosophila / Drosophila - genetics / Eigenvalues / Eigenvectors / Evolutionary Biology / Female / Fourier Analysis / Fourier transforms / Gene expression / Gene Expression Profiling - methods / genes / Germinal centers / Graph Fourier transform / Human Genetics / Humans / Identification / Life Sciences / Lymph nodes / Lymph Nodes - metabolism / Methodology / Microbial Genetics and Genomics / Neural networks / Plant Genetics and Genomics / Signal processing / spatial data / Spatial domain identification / Spatial resolved transcriptomics / Transcriptome / Transcriptomics
2025
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DeepGFT: identifying spatial domains in spatial transcriptomics of complex and 3D tissue using deep learning and graph Fourier transform
DeepGFT: identifying spatial domains in spatial transcriptomics of complex and 3D tissue using deep learning and graph Fourier transform
by Liu, Jixin , Sun, Shuli , Liu, Bingqiang , Li, Guojun
in Algorithms / Animal Genetics and Genomics / Animals / Bioinformatics / Biomedical and Life Sciences / breast neoplasms / Breast Neoplasms - genetics / Breast Neoplasms - pathology / Cancer / Clustering / Deep Learning / domain / Drosophila / Drosophila - genetics / Eigenvalues / Eigenvectors / Evolutionary Biology / Female / Fourier Analysis / Fourier transforms / Gene expression / Gene Expression Profiling - methods / genes / Germinal centers / Graph Fourier transform / Human Genetics / Humans / Identification / Life Sciences / Lymph nodes / Lymph Nodes - metabolism / Methodology / Microbial Genetics and Genomics / Neural networks / Plant Genetics and Genomics / Signal processing / spatial data / Spatial domain identification / Spatial resolved transcriptomics / Transcriptome / Transcriptomics
2025

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DeepGFT: identifying spatial domains in spatial transcriptomics of complex and 3D tissue using deep learning and graph Fourier transform
DeepGFT: identifying spatial domains in spatial transcriptomics of complex and 3D tissue using deep learning and graph Fourier transform
Journal Article

DeepGFT: identifying spatial domains in spatial transcriptomics of complex and 3D tissue using deep learning and graph Fourier transform

Liu, Jixin,
Sun, Shuli,
Liu, Bingqiang,
Li, Guojun
2025
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Overview
The rapid advancements in spatially resolved transcriptomics (SRT) enable the characterization of gene expressions while preserving spatial information. However, high dropout rates and noise hinder accurate spatial domain identification for understanding tissue architecture. We present DeepGFT, a method that simultaneously models spot-wise and gene-wise relationships by integrating deep learning with graph Fourier transform for spatial domain identification. Benchmarking results demonstrate the superiority of DeepGFT over existing methods. DeepGFT detects tumor substructures with immune-related differences in human breast cancer, identifies the complex germinal centers accurately in human lymph node, and accurately reveals the developmental changes in 3D Drosophila data.
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Publisher
BioMed Central,Springer Nature B.V,BMC
Subject

Algorithms

/ Animal Genetics and Genomics

/ Animals

/ Bioinformatics

/ Biomedical and Life Sciences

/ breast neoplasms

/ Breast Neoplasms - genetics

/ Breast Neoplasms - pathology

/ Cancer

/ Clustering

/ Deep Learning

/ domain

/ Drosophila

/ Drosophila - genetics

/ Eigenvalues

/ Eigenvectors

/ Evolutionary Biology

/ Female

/ Fourier Analysis

/ Fourier transforms

/ Gene expression

/ Gene Expression Profiling - methods

/ genes

/ Germinal centers

/ Graph Fourier transform

/ Human Genetics

/ Humans

/ Identification

/ Life Sciences

/ Lymph nodes

/ Lymph Nodes - metabolism

/ Methodology

/ Microbial Genetics and Genomics

/ Neural networks

/ Plant Genetics and Genomics

/ Signal processing

/ spatial data

/ Spatial domain identification

/ Spatial resolved transcriptomics

/ Transcriptome

/ Transcriptomics

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