Litcius/Paper detail

Learning interpretable cellular and gene signature embeddings from single-cell transcriptomic data

Yifan Zhao, Huiyu Cai, Zuobai Zhang, Jian Tang, Yue Li

2021Nature Communications94 citationsDOIOpen Access PDF

Abstract

Abstract The advent of single-cell RNA sequencing (scRNA-seq) technologies has revolutionized transcriptomic studies. However, large-scale integrative analysis of scRNA-seq data remains a challenge largely due to unwanted batch effects and the limited transferabilty, interpretability, and scalability of the existing computational methods. We present single-cell Embedded Topic Model (scETM). Our key contribution is the utilization of a transferable neural-network-based encoder while having an interpretable linear decoder via a matrix tri-factorization. In particular, scETM simultaneously learns an encoder network to infer cell type mixture and a set of highly interpretable gene embeddings, topic embeddings, and batch-effect linear intercepts from multiple scRNA-seq datasets. scETM is scalable to over 10 6 cells and confers remarkable cross-tissue and cross-species zero-shot transfer-learning performance. Using gene set enrichment analysis, we find that scETM-learned topics are enriched in biologically meaningful and disease-related pathways. Lastly, scETM enables the incorporation of known gene sets into the gene embeddings, thereby directly learning the associations between pathways and topics via the topic embeddings.

Topics & Concepts

InterpretabilityScalabilityComputer scienceSet (abstract data type)Computational biologyArtificial intelligenceKey (lock)EncoderMachine learningBiologyDatabaseProgramming languageOperating systemComputer securitySingle-cell and spatial transcriptomicsGene expression and cancer classificationCancer-related molecular mechanisms research