SpatialDWLS: accurate deconvolution of spatial transcriptomic data

Rui Dong; Guo Cheng Yuan

doi:10.1186/s13059-021-02362-7

SpatialDWLS: accurate deconvolution of spatial transcriptomic data

Rui Dong
, Guo Cheng Yuan

Research output: Contribution to journal › Article › peer-review

212 Scopus citations

Abstract

Recent development of spatial transcriptomic technologies has made it possible to characterize cellular heterogeneity with spatial information. However, the technology often does not have sufficient resolution to distinguish neighboring cell types. Here, we present spatialDWLS, to quantitatively estimate the cell-type composition at each spatial location. We benchmark the performance of spatialDWLS by comparing it with a number of existing deconvolution methods and find that spatialDWLS outperforms the other methods in terms of accuracy and speed. By applying spatialDWLS to a human developmental heart dataset, we observe striking spatial temporal changes of cell-type composition during development.

Original language	English
Article number	145
Journal	Genome Biology
Volume	22
Issue number	1
DOIs	https://doi.org/10.1186/s13059-021-02362-7
State	Published - Dec 2021

Keywords

Deconvolution
Single cell
Spatial transcriptomics

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10.1186/s13059-021-02362-7

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title = "SpatialDWLS: accurate deconvolution of spatial transcriptomic data",

abstract = "Recent development of spatial transcriptomic technologies has made it possible to characterize cellular heterogeneity with spatial information. However, the technology often does not have sufficient resolution to distinguish neighboring cell types. Here, we present spatialDWLS, to quantitatively estimate the cell-type composition at each spatial location. We benchmark the performance of spatialDWLS by comparing it with a number of existing deconvolution methods and find that spatialDWLS outperforms the other methods in terms of accuracy and speed. By applying spatialDWLS to a human developmental heart dataset, we observe striking spatial temporal changes of cell-type composition during development.",

keywords = "Deconvolution, Single cell, Spatial transcriptomics",

author = "Rui Dong and Yuan, \{Guo Cheng\}",

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AU - Dong, Rui

AU - Yuan, Guo Cheng

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N2 - Recent development of spatial transcriptomic technologies has made it possible to characterize cellular heterogeneity with spatial information. However, the technology often does not have sufficient resolution to distinguish neighboring cell types. Here, we present spatialDWLS, to quantitatively estimate the cell-type composition at each spatial location. We benchmark the performance of spatialDWLS by comparing it with a number of existing deconvolution methods and find that spatialDWLS outperforms the other methods in terms of accuracy and speed. By applying spatialDWLS to a human developmental heart dataset, we observe striking spatial temporal changes of cell-type composition during development.

AB - Recent development of spatial transcriptomic technologies has made it possible to characterize cellular heterogeneity with spatial information. However, the technology often does not have sufficient resolution to distinguish neighboring cell types. Here, we present spatialDWLS, to quantitatively estimate the cell-type composition at each spatial location. We benchmark the performance of spatialDWLS by comparing it with a number of existing deconvolution methods and find that spatialDWLS outperforms the other methods in terms of accuracy and speed. By applying spatialDWLS to a human developmental heart dataset, we observe striking spatial temporal changes of cell-type composition during development.

KW - Deconvolution

KW - Single cell

KW - Spatial transcriptomics

UR - https://www.scopus.com/pages/publications/85105577240

U2 - 10.1186/s13059-021-02362-7

DO - 10.1186/s13059-021-02362-7

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VL - 22

JO - Genome Biology

JF - Genome Biology

IS - 1

M1 - 145

ER -

SpatialDWLS: accurate deconvolution of spatial transcriptomic data

Abstract

Keywords

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