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SCIPAC: quantitative estimation of cell-phenotype associations.


ABSTRACT: Numerous algorithms have been proposed to identify cell types in single-cell RNA sequencing data, yet a fundamental problem remains: determining associations between cells and phenotypes such as cancer. We develop SCIPAC, the first algorithm that quantitatively estimates the association between each cell in single-cell data and a phenotype. SCIPAC also provides a p-value for each association and applies to data with virtually any type of phenotype. We demonstrate SCIPAC's accuracy in simulated data. On four real cancerous or noncancerous datasets, insights from SCIPAC help interpret the data and generate new hypotheses. SCIPAC requires minimum tuning and is computationally very fast.

SUBMITTER: Gan D 

PROVIDER: S-EPMC11089691 | biostudies-literature | 2024 May

REPOSITORIES: biostudies-literature

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SCIPAC: quantitative estimation of cell-phenotype associations.

Gan Dailin D   Zhu Yini Y   Lu Xin X   Li Jun J  

Genome biology 20240513 1


Numerous algorithms have been proposed to identify cell types in single-cell RNA sequencing data, yet a fundamental problem remains: determining associations between cells and phenotypes such as cancer. We develop SCIPAC, the first algorithm that quantitatively estimates the association between each cell in single-cell data and a phenotype. SCIPAC also provides a p-value for each association and applies to data with virtually any type of phenotype. We demonstrate SCIPAC's accuracy in simulated d  ...[more]

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