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scLEGA: an attention-based deep clustering method with a tendency for low expression of genes on single-cell RNA-seq data

Zhenze Liu, Yingjian Liang, Guohua Wang, Tianjiao Zhang

2024Briefings in Bioinformatics21 citationsDOIOpen Access PDF

Abstract

Single-cell RNA sequencing (scRNA-seq) enables the exploration of biological heterogeneity among different cell types within tissues at a resolution. Inferring cell types within tissues is foundational for downstream research. Most existing methods for cell type inference based on scRNA-seq data primarily utilize highly variable genes (HVGs) with higher expression levels as clustering features, overlooking the contribution of HVGs with lower expression levels. To address this, we have designed a novel cell type inference method for scRNA-seq data, termed scLEGA. scLEGA employs a novel zero-inflated negative binomial (ZINB) loss function that fully considers the contribution of genes with lower expression levels and combines two distinct scRNA-seq clustering strategies through a multi-head attention mechanism. It utilizes a low-expression optimized denoising autoencoder, based on the novel ZINB model, to extract low-dimensional features and handle dropout events, and a GCN-based graph autoencoder (GAE) that leverages neighbor information to guide dimensionality reduction. The iterative fusion of denoising and topological embedding in scLEGA facilitates the acquisition of cluster-friendly cell representations in the hidden embedding, where similar cells are brought closer together. Compared to 12 state-of-the-art cell type inference methods on 15 scRNA-seq datasets, scLEGA demonstrates superior performance in clustering accuracy, scalability, and stability. Our scLEGA model codes are freely available at https://github.com/Masonze/scLEGA-main.

Topics & Concepts

RNA-SeqComputational biologyGeneExpression (computer science)Cluster analysisComputer scienceGene expressionRNAArtificial intelligenceBiologyGeneticsTranscriptomeProgramming languageSingle-cell and spatial transcriptomicsExtracellular vesicles in disease