Author:
Shin Hyun-Tae,Kim Nayoung K. D.,Yun Jae Won,Lee Boram,Kyung Sungkyu,Lee Ki-Wook,Ryu Daeun,Kim Jinho,Bae Joon Seol,Park Donghyun,Choi Yoon-La,Lee Se-Hoon,Ahn Myung-Ju,Park Keunchil,Park Woong-Yang
Abstract
ABSTRACTAccurate detection of genomic fusions by high-throughput sequencing in clinical samples with inadequate tumor purity and formalin-fixed paraffin embedded (FFPE) tissue is an essential task in precise oncology. We developed the fusion detection algorithm Junction Location Identifier (JuLI) for optimization of high-depth clinical sequencing. We implemented novel filtering steps to minimize false positives and a joint calling function to increase sensitivity in clinical setting. We comprehensively validated the algorithm using high-depth sequencing data from cancer cell lines and clinical samples and whole genome sequencing data from NA12878. We showed that JuLI outperformed state-of-the-art fusion callers in cases with high-depth clinical sequencing and rescued a driver fusion from false negative in plasma cell-free DNA. JuLI is freely available via GitHub (https://github.com/sgilab/JuLI).
Publisher
Cold Spring Harbor Laboratory