Jing Wang1, Victor W Zhang1, Yanming Feng1, Xia Tian1, Fang-Yuan Li1, Cavatina Truong1, Guoli Wang1, Pei-Wen Chiang2, Richard A Lewis3, Lee-Jun C Wong1. 1. Department of Molecular and Human Genetics, Baylor College of Medicine, Houston, Texas, United States. 2. Casey Eye Institute, Oregon Health and Science University, Portland, Oregon, United States. 3. Department of Molecular and Human Genetics, Baylor College of Medicine, Houston, Texas, United States Department of Ophthalmology, Baylor College of Medicine, Houston, Texas, United States.
Abstract
PURPOSE: The purpose of this study was to establish a fully validated, high-throughput next-generation sequencing (NGS) approach for comprehensive, cost-effective, clinical molecular diagnosis of retinitis pigmentosa (RP). METHODS: Target sequences of a panel of 66 genes known to cause all nonsyndromic and a few syndromic forms of RP were enriched by using custom-designed probe hybridization. A total of 939 coding exons and 20 bp of their flanking intron regions with a total of 202,800 bp of target sequences were captured, followed by massively parallel sequencing (MPS) on the Illumina HiSeq2000 device. RESULTS: Twelve samples with known mutations were used for test validation. We achieved an average sequence depth of ∼1000× per base. Exons with <20× insufficient coverage were completed by PCR/Sanger sequencing to ensure 100% coverage. We analyzed DNA from 65 unrelated RP patients and detected deleterious mutations in 53 patients with a diagnostic yield of ∼82%. CONCLUSIONS: Clinical validation and consistently deep coverage of individual exons allow for the accurate identification of all types of mutations including point mutations, exonic deletions, and large insertions. Our comprehensive MPS approach greatly improves diagnostic acumen for RP in a cost- and time-efficient manner. Copyright 2014 The Association for Research in Vision and Ophthalmology, Inc.
PURPOSE: The purpose of this study was to establish a fully validated, high-throughput next-generation sequencing (NGS) approach for comprehensive, cost-effective, clinical molecular diagnosis of retinitis pigmentosa (RP). METHODS: Target sequences of a panel of 66 genes known to cause all nonsyndromic and a few syndromic forms of RP were enriched by using custom-designed probe hybridization. A total of 939 coding exons and 20 bp of their flanking intron regions with a total of 202,800 bp of target sequences were captured, followed by massively parallel sequencing (MPS) on the Illumina HiSeq2000 device. RESULTS: Twelve samples with known mutations were used for test validation. We achieved an average sequence depth of ∼1000× per base. Exons with <20× insufficient coverage were completed by PCR/Sanger sequencing to ensure 100% coverage. We analyzed DNA from 65 unrelated RP patients and detected deleterious mutations in 53 patients with a diagnostic yield of ∼82%. CONCLUSIONS: Clinical validation and consistently deep coverage of individual exons allow for the accurate identification of all types of mutations including point mutations, exonic deletions, and large insertions. Our comprehensive MPS approach greatly improves diagnostic acumen for RP in a cost- and time-efficient manner. Copyright 2014 The Association for Research in Vision and Ophthalmology, Inc.
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