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SCRIBE: a new approach to dropout imputation and batch effects correction for single-cell RNA-seq data

EasyChair Preprint 1591

7 pagesDate: October 6, 2019

Abstract

Single-cell RNA sequencing technologies are widely used in recent years as a powerful tool allowing the observation of gene expression at the resolution of single cells. Two of the major challenges in scRNA-seq data analysis are dropout events and batch effects. The inflation of zero(dropout rate) varies substantially across single cells. Evidence has shown that technical noise, including batch effects, explains a notable proportion of this cell-to-cell variation. To capture biological variation, it is necessary to quantify and remove technical variation. Here, we introduce SCRIBE (Single-Cell Recovery Imputation with Batch Effects), a principled framework that imputes dropout events and corrects batch effects simultaneously. We demonstrate, through real examples, that SCRIBE outperforms existing scRNA-seq data analysis tools in recovering cell-specific gene expression patterns, removing batch effects and retaining biological variation across cells.

Keyphrases: Batch effects correction, Imputation, Monte-Carlo EM algorithm, Single-cell RNA-sequencing data, batch effect, batch effect correction, mixed model, mouse neuron dataset, silhouette width, uniform manifold approximation

BibTeX entry
BibTeX does not have the right entry for preprints. This is a hack for producing the correct reference:
@booklet{EasyChair:1591,
  author    = {Yiliang Zhang and Kexuan Liang and Molei Liu and Yue Li and Hao Ge and Hongyu Zhao},
  title     = {SCRIBE: a new approach to dropout imputation and batch effects correction for single-cell RNA-seq data},
  howpublished = {EasyChair Preprint 1591},
  year      = {EasyChair, 2019}}
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