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A Rapid PCR-Free Next-Generation Sequencing Method for the Detection of Copy Number Variations in Prenatal Samples

Xiya Zhou, Xiangbin Chen, Yulin Jiang, Qingwei Qi, Na Hao, Chengkun Liu, Mengnan Xu, David S. Cram, Juntao Liu

2021Life27 citationsDOIOpen Access PDF

Abstract

Next-generation sequencing (NGS) is emerging as a new method for the detection of clinically significant copy number variants (CNVs). In this study, we developed and validated rapid CNV-sequencing (rCNV-seq) for clinical application in prenatal diagnosis. Low-pass whole-genome sequencing was performed on PCR libraries prepared from amniocyte genomic DNA. From 10-40 ng of input DNA, PCR-free libraries consistently produced sequencing data with high unique read mapping ratios, low read redundancy, low coefficient of variation for all chromosomes and high genomic coverage. In validation studies, reliable and accurate CNV detection using PCR-free-based rCNV-seq was demonstrated for a range of common trisomies and sex chromosome aneuploidies as well as microdeletion and duplication syndromes. In reproducibility studies, CNV copy number and genomic intervals closely matched those defined by chromosome microarray analysis. Clinical testing of genomic DNA samples from 217 women referred for prenatal diagnosis identified eight samples (3.7%) with known chromosome disorders. We conclude that PCR-free-based rCNV-seq is a sensitive, specific, reproducible and efficient method that can be used in any NGS-based diagnostic laboratory for detection of clinically significant CNVs.

Topics & Concepts

Copy-number variationBiologyGeneticsDNA sequencingCopy number analysisChromosomeComputational biologyMassive parallel sequencingGenomeGenePrenatal Screening and DiagnosticsGenomic variations and chromosomal abnormalitiesCancer Genomics and Diagnostics