Litcius/Paper detail

Digital-WGS: Automated, highly efficient whole-genome sequencing of single cells by digital microfluidics

Qingyu Ruan, Weidong Ruan, Xiaoye Lin, Yang Wang, Fenxiang Zou, Leiji Zhou, Zhi Zhu, Chaoyong Yang

2020Science Advances114 citationsDOIOpen Access PDF

Abstract

Single-cell whole-genome sequencing (WGS) is critical for characterizing dynamic intercellular changes in DNA. Current sample preparation technologies for single-cell WGS are complex, expensive, and suffer from high amplification bias and errors. Here, we describe Digital-WGS, a sample preparation platform that streamlines high-performance single-cell WGS with automatic processing based on digital microfluidics. Using the method, we provide high single-cell capture efficiency for any amount and types of cells by a wetted hydrodynamic structure. The digital control of droplets in a closed hydrophobic interface enables the complete removal of exogenous DNA, sufficient cell lysis, and lossless amplicon recovery, achieving the low coefficient of variation and high coverage at multiple scales. The single-cell genomic variations profiling performs the excellent detection of copy number variants with the smallest bin of 150 kb and single-nucleotide variants with allele dropout rate of 5.2%, holding great promise for broader applications of single-cell genomics.

Topics & Concepts

MicrofluidicsSingle-cell analysisDigital microfluidicsComputer scienceComputational biologyAmpliconGenomicsDigital polymerase chain reactionGenomeBiologyCellNanotechnologyGeneticsChemistryGeneMaterials sciencePhysical chemistryPolymerase chain reactionElectrowettingElectrodeSingle-cell and spatial transcriptomicsInnovative Microfluidic and Catalytic Techniques InnovationElectrowetting and Microfluidic Technologies