scDMV: a zero–one inflated beta mixture model for DNA methylation variability with scBS-seq data

Yan Zhou; Ying Zhang; Minjiao Peng; Yaru Zhang; Chenghao Li; Lianjie Shu; Yaohua Hu; Jianzhong Su; Jinfeng Xu

doi:10.1093/bioinformatics/btad772

scDMV: a zero–one inflated beta mixture model for DNA methylation variability with scBS-seq data

Yan Zhou, Ying Zhang, Minjiao Peng, Yaru Zhang, Chenghao Li, Lianjie Shu, Yaohua Hu^*, Jianzhong Su^*, Jinfeng Xu^*

^*Corresponding author for this work

Department of Biostatistics

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

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Abstract

Motivation: The utilization of single-cell bisulfite sequencing (scBS-seq) methods allows for precise analysis of DNA methylation patterns at the individual cell level, enabling the identification of rare populations, revealing cell-specific epigenetic changes, and improving differential methylation analysis. Nonetheless, the presence of sparse data and an overabundance of zeros and ones, attributed to limited sequencing depth and coverage, frequently results in reduced precision accuracy during the process of differential methylation detection using scBS-seq. Consequently,there is a pressing demand for an innovative differential methylation analysis approach that effectively tackles these data characteristics and enhances recognition accuracy.

Results: We propose a novel beta mixture approach called scDMV for analyzing methylation differences in single-cell bisulfite sequencing data,which effectively handles excess zeros and ones and accommodates low-input sequencing. Our extensive simulation studies demonstrate that the scDMV approach outperforms several alternative methods in terms of sensitivity, precision, and controlling the false positive rate. Moreover,in real data applications, we observe that scDMV exhibits higher precision and sensitivity in identifying differentially methylated regions, even with low-input samples. In addition, scDMV reveals important information for GO enrichment analysis with single-cell whole-genome sequencing data that are often overlooked by other methods.

Availability and implementation: The scDMV method, along with a comprehensive tutorial, can be accessed as an R package on the following GitHub repository: https://github.com/PLX-m/scDMV.

© The Author(s) 2023. Published by Oxford University Press.

Original language	English
Article number	btad772
Journal	Bioinformatics
Volume	40
Issue number	1
Online published	23 Dec 2023
DOIs	https://doi.org/10.1093/bioinformatics/btad772
Publication status	Published - Jan 2024

Funding

This work was supported by the National Natural Science Foundation of China [12071305, 12371295] and Natural Science Foundation of Guangdong Province of China [2023A1515011399] to Y.Z.; The Hong Kong Research Grant Council [17308820] to J.X.; the National Key Research and Development Program of China [2021YFC2501005] and the National Natural Science Foundation of China [82172882] to J.S.; and the National Natural Science Foundation of China [12222112], Project of Educational Commission of Guangdong Province [2023ZDZX1017], Shenzhen Science and Technology Program [RCJC20221008092753082] to Y.H; the Department of Science and Technology of Guangdong Province (EF020/ FBA-SLJ/2022/GDSTC) and the University of Macau Research Committee (MYRG2022-00017-FBA) to L. S. The data underlying this article will be shared on reasonable request to the corresponding author.

Publisher's Copyright Statement

This full text is made available under CC-BY 4.0. https://creativecommons.org/licenses/by/4.0/

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abstract = "Motivation: The utilization of single-cell bisulfite sequencing (scBS-seq) methods allows for precise analysis of DNA methylation patterns at the individual cell level, enabling the identification of rare populations, revealing cell-specific epigenetic changes, and improving differential methylation analysis. Nonetheless, the presence of sparse data and an overabundance of zeros and ones, attributed to limited sequencing depth and coverage, frequently results in reduced precision accuracy during the process of differential methylation detection using scBS-seq. Consequently,there is a pressing demand for an innovative differential methylation analysis approach that effectively tackles these data characteristics and enhances recognition accuracy.Results: We propose a novel beta mixture approach called scDMV for analyzing methylation differences in single-cell bisulfite sequencing data,which effectively handles excess zeros and ones and accommodates low-input sequencing. Our extensive simulation studies demonstrate that the scDMV approach outperforms several alternative methods in terms of sensitivity, precision, and controlling the false positive rate. Moreover,in real data applications, we observe that scDMV exhibits higher precision and sensitivity in identifying differentially methylated regions, even with low-input samples. In addition, scDMV reveals important information for GO enrichment analysis with single-cell whole-genome sequencing data that are often overlooked by other methods.Availability and implementation: The scDMV method, along with a comprehensive tutorial, can be accessed as an R package on the following GitHub repository: https://github.com/PLX-m/scDMV.{\textcopyright} The Author(s) 2023. Published by Oxford University Press.",

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AU - Li, Chenghao

AU - Shu, Lianjie

AU - Hu, Yaohua

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scDMV: a zero–one inflated beta mixture model for DNA methylation variability with scBS-seq data

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scDMV: a zero–one inflated beta mixture model for DNA methylation variability with scBS-seq data

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