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CellO: comprehensive and hierarchical cell type classification of human cells with the Cell Ontology

Matthew N. Bernstein, Zhongjie Ma, Michael Gleicher, Colin N. Dewey

2020iScience47 citationsDOIOpen Access PDF

Abstract

Cell type annotation is a fundamental task in the analysis of single-cell RNA-sequencing data. In this work, we present CellO, a machine learning-based tool for annotating human RNA-seq data with the Cell Ontology. CellO enables accurate and standardized cell type classification of cell clusters by considering the rich hierarchical structure of known cell types. Furthermore, CellO comes pre-trained on a comprehensive data set of human, healthy, untreated primary samples in the Sequence Read Archive. CellO's comprehensive training set enables it to run out of the box on diverse cell types and achieves competitive or even superior performance when compared to existing state-of-the-art methods. Lastly, CellO's linear models are easily interpreted, thereby enabling exploration of cell-type-specific expression signatures across the ontology. To this end, we also present the CellO Viewer: a web application for exploring CellO's models across the ontology.

Topics & Concepts

CelloComputer scienceOntologySet (abstract data type)Artificial intelligenceNatural language processingHierarchical organizationInformation retrievalProgramming languageManagementArtPhilosophyPianoEpistemologyEconomicsArt historySingle-cell and spatial transcriptomicsGene expression and cancer classificationGenomics and Phylogenetic Studies