2024
DOI: 10.1002/wrna.1839
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Navigating the landscapes of spatial transcriptomics: How computational methods guide the way

Runze Li,
Xu Chen,
Xuerui Yang

Abstract: Spatially resolved transcriptomics has been dramatically transforming biological and medical research in various fields. It enables transcriptome profiling at single‐cell, multi‐cellular, or sub‐cellular resolution, while retaining the information of geometric localizations of cells in complex tissues. The coupling of cell spatial information and its molecular characteristics generates a novel multi‐modal high‐throughput data source, which poses new challenges for the development of analytical methods for data… Show more

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Cited by 4 publications
(2 citation statements)
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“…Li et al point out that although a variety of algorithms have been designed to integrate spatial and single-cell transcriptome data, there are significant differences in how these algorithms work and their scope of application ( Li et al, 2022 ). Spatial transcriptome data are highly non-ideal, including features such as complex data structure, low signal-to-noise ratio, high sparsity, and uneven coverage, which pose challenges for in-depth analysis of the data and parsing of biological information ( Li et al, 2024 ). Therefore, efficient algorithms are necessary for identification and analysis.…”
Section: Discussionmentioning
confidence: 99%
“…Li et al point out that although a variety of algorithms have been designed to integrate spatial and single-cell transcriptome data, there are significant differences in how these algorithms work and their scope of application ( Li et al, 2022 ). Spatial transcriptome data are highly non-ideal, including features such as complex data structure, low signal-to-noise ratio, high sparsity, and uneven coverage, which pose challenges for in-depth analysis of the data and parsing of biological information ( Li et al, 2024 ). Therefore, efficient algorithms are necessary for identification and analysis.…”
Section: Discussionmentioning
confidence: 99%
“…Li et al point out that although a variety of algorithms have been designed to integrate spatial and single-cell transcriptome data, there are significant differences in how these algorithms work and their scope of application (Li et al, 2022). Spatial transcriptome data are highly non-ideal, including features such as complex data structure, low signal-to-noise ratio, high sparsity, and uneven coverage, which pose challenges for in-depth analysis of the data and parsing of biological information (Li et al, 2024). Therefore, efficient algorithms are necessary for identification and analysis.…”
Section: Discussionmentioning
confidence: 99%