Imputation for Single-cell RNA-seq Data with Non-negative Matrix Factorization and Transfer Learning

J Bioinform Comput Biol. 2023 Dec;21(6):2350029. doi: 10.1142/S0219720023500294. Epub 2024 Jan 23.ABSTRACTSingle-cell RNA sequencing (scRNA-seq) has been proven to be an effective technology for investigating the heterogeneity and transcriptome dynamics due to the single-cell resolution. However, one of the major problems for data obtained by scRNA-seq is excessive zeros in the count matrix, which hinders the downstream analysis enormously. Here, we present a method that integrates non-negative matrix factorization and transfer learning (NMFTL) to impute the scRNA-seq data. It borrows gene expression information from the additional dataset and adds graph-regularized terms to the decomposed matrices. These strategies not only maintain the intrinsic geometrical structure of the data itself but also further improve the accuracy of estimating the expression values by adding the transfer term in the model. The real data analysis result demonstrates that the proposed method outperforms the existing matrix-factorization-based imputation methods in recovering dropout entries, preserving gene-to-gene and cell-to-cell relationships, and in the downstream analysis, such as cell clustering analysis, the proposed method also has a good performance. For convenience, we have implemented the "NMFTL" method with R scripts, which could be available at https://github.com/FocusPaka/NMFTL.PMID:38248911 | DOI:10.1142/S0219720023500294
Source: Journal of Bioinformatics and Computational Biology - Category: Bioinformatics Authors: Source Type: research