cKBET: assessing goodness of batch effect correction for single-cell RNA-seq
Por um escritor misterioso
Last updated 10 novembro 2024
lt;p>Single-cell RNA sequencing reveals the gene structure and gene expression status of a single cell, which can reflect the heterogeneity between cells. However, batch effects caused by non-biological factors may hinder data integration and downstream analysis. Although the batch effect can be evaluated by visualizing the data, which actually is subjective and inaccurate. In this work, we propose a quantitative method cKBET, which considers the batch and cell type information simultaneously. The cKBET method accesses batch effects by comparing the global and local fraction of cells of different batches in different cell types. We verify the performance of our cKBET method on simulated and real biological data sets. The experimental results show that our cKBET method is superior to existing methods in most cases. In general, our cKBET method can detect batch effect with either balanced or unbalanced cell types, and thus evaluate batch correction methods.</p>
A benchmark of batch-effect correction methods for single-cell RNA sequencing data, Genome Biology
cKBET: assessing goodness of batch effect correction for single-cell RNA-seq
Batch effects in single-cell RNA-sequencing data are corrected by matching mutual nearest neighbors
cKBET: assessing goodness of batch effect correction for single-cell RNA-seq
CellMixS: quantifying and visualizing batch effects in single-cell RNA-seq data
Removal of Batch Effects from Single-cell RNA-Seq
PDF] Projected t-SNE for batch correction
Batch alignment of single-cell transcriptomics data using deep metric learning
PDF) BERMUDA: A novel deep transfer learning method for single-cell RNA sequencing batch correction reveals hidden high-resolution cellular subtypes
PDF] Projected t-SNE for batch correction
Batch effects in single-cell RNA-sequencing data are corrected by matching mutual nearest neighbors
Cancers, Free Full-Text
Recomendado para você
você pode gostar