DeST-OT: Alignment of spatiotemporal transcriptomics data

Peter Halmos; Xinhao Liu; Julian Gold; Feng Chen; Li Ding; Benjamin J. Raphael

doi:10.1016/j.cels.2024.12.001

DeST-OT: Alignment of spatiotemporal transcriptomics data

Peter Halmos, Xinhao Liu, Julian Gold, Feng Chen, Li Ding, Benjamin J. Raphael

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

Abstract

Spatially resolved transcriptomics (SRT) measures mRNA transcripts at thousands of locations within a tissue slice, revealing spatial variations in gene expression and cell types. SRT has been applied to tissue slices from multiple time points during the development of an organism. We introduce developmental spatiotemporal optimal transport (DeST-OT), a method to align spatiotemporal transcriptomics data using optimal transport (OT). DeST-OT uses semi-relaxed OT to model cellular growth, death, and differentiation processes. We also derive a growth distortion metric and a migration metric to quantify the plausibility of spatiotemporal alignments. DeST-OT outperforms existing methods on the alignment of spatiotemporal transcriptomics data from developing mouse kidney and axolotl brain. DeST-OT estimated growth rates also provide insights into the gene expression programs governing the growth and differentiation of cells over space and time.

Original language	American English
Article number	101160
Journal	Cell Systems
Volume	16
Issue number	2
DOIs	https://doi.org/10.1016/j.cels.2024.12.001
State	Published - Feb 19 2025
Externally published	Yes

ASJC Scopus subject areas

Pathology and Forensic Medicine
Histology
Cell Biology

Keywords

alignment
development
developmental biology
growth rates
optimal transport
semi-relaxed optimal transport
spatially resolved transcriptomics
spatiotemporal
trajectory inference

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10.1016/j.cels.2024.12.001

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title = "DeST-OT: Alignment of spatiotemporal transcriptomics data",

abstract = "Spatially resolved transcriptomics (SRT) measures mRNA transcripts at thousands of locations within a tissue slice, revealing spatial variations in gene expression and cell types. SRT has been applied to tissue slices from multiple time points during the development of an organism. We introduce developmental spatiotemporal optimal transport (DeST-OT), a method to align spatiotemporal transcriptomics data using optimal transport (OT). DeST-OT uses semi-relaxed OT to model cellular growth, death, and differentiation processes. We also derive a growth distortion metric and a migration metric to quantify the plausibility of spatiotemporal alignments. DeST-OT outperforms existing methods on the alignment of spatiotemporal transcriptomics data from developing mouse kidney and axolotl brain. DeST-OT estimated growth rates also provide insights into the gene expression programs governing the growth and differentiation of cells over space and time.",

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day = "19",

doi = "10.1016/j.cels.2024.12.001",

language = "American English",

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AU - Halmos, Peter

AU - Liu, Xinhao

AU - Gold, Julian

AU - Chen, Feng

AU - Ding, Li

AU - Raphael, Benjamin J.

PY - 2025/2/19

Y1 - 2025/2/19

N2 - Spatially resolved transcriptomics (SRT) measures mRNA transcripts at thousands of locations within a tissue slice, revealing spatial variations in gene expression and cell types. SRT has been applied to tissue slices from multiple time points during the development of an organism. We introduce developmental spatiotemporal optimal transport (DeST-OT), a method to align spatiotemporal transcriptomics data using optimal transport (OT). DeST-OT uses semi-relaxed OT to model cellular growth, death, and differentiation processes. We also derive a growth distortion metric and a migration metric to quantify the plausibility of spatiotemporal alignments. DeST-OT outperforms existing methods on the alignment of spatiotemporal transcriptomics data from developing mouse kidney and axolotl brain. DeST-OT estimated growth rates also provide insights into the gene expression programs governing the growth and differentiation of cells over space and time.

AB - Spatially resolved transcriptomics (SRT) measures mRNA transcripts at thousands of locations within a tissue slice, revealing spatial variations in gene expression and cell types. SRT has been applied to tissue slices from multiple time points during the development of an organism. We introduce developmental spatiotemporal optimal transport (DeST-OT), a method to align spatiotemporal transcriptomics data using optimal transport (OT). DeST-OT uses semi-relaxed OT to model cellular growth, death, and differentiation processes. We also derive a growth distortion metric and a migration metric to quantify the plausibility of spatiotemporal alignments. DeST-OT outperforms existing methods on the alignment of spatiotemporal transcriptomics data from developing mouse kidney and axolotl brain. DeST-OT estimated growth rates also provide insights into the gene expression programs governing the growth and differentiation of cells over space and time.

KW - alignment

KW - development

KW - developmental biology

KW - growth rates

KW - optimal transport

KW - semi-relaxed optimal transport

KW - spatially resolved transcriptomics

KW - spatiotemporal

KW - trajectory inference

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JO - Cell Systems

JF - Cell Systems

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M1 - 101160

ER -

DeST-OT: Alignment of spatiotemporal transcriptomics data

Abstract

ASJC Scopus subject areas

Keywords

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