spSeudoMap: cell type mapping of spatial transcriptomics using unmatched single-cell RNA-seq data

被引:0
作者
Sungwoo Bae
Hongyoon Choi
Dong Soo Lee
机构
[1] Seoul National University,Institute of Radiation Medicine, Medical Research Center
[2] Seoul National University Hospital,Department of Nuclear Medicine
[3] Seoul National University College of Medicine,Department of Nuclear Medicine
[4] Portrai,undefined
[5] Inc.,undefined
来源
Genome Medicine | / 15卷
关键词
Spatial transcriptomics; Single-cell RNA-seq; Cell sorting; Cell type mapping; Synthetic cell mixture; Pseudobulk;
D O I
暂无
中图分类号
学科分类号
摘要
Since many single-cell RNA-seq (scRNA-seq) data are obtained after cell sorting, such as when investigating immune cells, tracking cellular landscape by integrating single-cell data with spatial transcriptomic data is limited due to cell type and cell composition mismatch between the two datasets. We developed a method, spSeudoMap, which utilizes sorted scRNA-seq data to create virtual cell mixtures that closely mimic the gene expression of spatial data and trains a domain adaptation model for predicting spatial cell compositions. The method was applied in brain and breast cancer tissues and accurately predicted the topography of cell subpopulations. spSeudoMap may help clarify the roles of a few, but crucial cell types.
引用
收藏
相关论文
共 216 条
  • [1] Stahl PL(2016)Visualization and analysis of gene expression in tissue sections by spatial transcriptomics Science 353 78-82
  • [2] Salmen F(2021)Analysis and visualization of spatial transcriptomic data Front Genet 12 785290-691
  • [3] Vickovic S(2019)Efficient integration of heterogeneous single-cell transcriptomes using Scanorama Nat Biotechnol 37 685-1902
  • [4] Lundmark A(2019)Comprehensive integration of single-cell data Cell. 177 1888-526
  • [5] Navarro JF(2020)Single-cell and spatial transcriptomics enables probabilistic inference of cell type topography Commun Biol 3 565-671
  • [6] Magnusson J(2022)Robust decomposition of cell type mixtures in spatial transcriptomics Nat Biotechnol 40 517-1359
  • [7] Giacomello S(2021)SpatialDWLS: accurate deconvolution of spatial transcriptomic data Genome Biol 22 145-701
  • [8] Asp M(2021)SPOTlight: seeded NMF regression to deconvolute spatial transcriptomics spots with single-cell transcriptomes Nucleic Acids Res 49 e50-1092
  • [9] Westholm JO(2021)DSTG: deconvoluting spatial transcriptomics data through graph-based artificial intelligence Brief Bioinform 22 bbaa414-436
  • [10] Huss M(2022)CellDART: cell type inference by domain adaptation of single-cell and spatial transcriptomic data Nucleic Acids Res 50 e57-781
12345678910