Using single molecule Molecular Inversion Probes as a cost-effective, high-throughput sequencing approach to target all genes and loci associated with macular diseases

IF 3.3 2区 医学 Q2 GENETICS & HEREDITY
Human Mutation Pub Date : 2022-10-19 DOI:10.1002/humu.24489
Rebekkah J. Hitti-Malin, Claire-Marie Dhaenens, Daan M. Panneman, Zelia Corradi, Mubeen Khan, Anneke I. den Hollander, G. Jane Farrar, Christian Gilissen, Alexander Hoischen, Maartje van de Vorst, Femke Bults, Erica G. M. Boonen, Patrick Saunders, MD Study Group, Susanne Roosing, Frans P. M. Cremers
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引用次数: 7

Abstract

Macular degenerations (MDs) are a subgroup of retinal disorders characterized by central vision loss. Knowledge is still lacking on the extent of genetic and nongenetic factors influencing inherited MD (iMD) and age-related MD (AMD) expression. Single molecule Molecular Inversion Probes (smMIPs) have proven effective in sequencing the ABCA4 gene in patients with Stargardt disease to identify associated coding and noncoding variation, however many MD patients still remain genetically unexplained. We hypothesized that the missing heritability of MDs may be revealed by smMIPs-based sequencing of all MD-associated genes and risk factors. Using 17,394 smMIPs, we sequenced the coding regions of 105 iMD and AMD-associated genes and noncoding or regulatory loci, known pseudo-exons, and the mitochondrial genome in two test cohorts that were previously screened for variants in ABCA4. Following detailed sequencing analysis of 110 probands, a diagnostic yield of 38% was observed. This established an ‘‘MD-smMIPs panel,” enabling a genotype-first approach in a high-throughput and cost-effective manner, whilst achieving uniform and high coverage across targets. Further analysis will identify known and novel variants in MD-associated genes to offer an accurate clinical diagnosis to patients. Furthermore, this will reveal new genetic associations for MD and potential genetic overlaps between iMD and AMD.

Abstract Image

利用单分子分子倒置探针作为一种经济高效、高通量的测序方法,靶向与黄斑疾病相关的所有基因和位点
黄斑变性(MDs)是视网膜疾病的一个亚组,其特征是中央视力丧失。遗传和非遗传因素影响遗传性MD (iMD)和年龄相关性MD (AMD)表达的程度仍然缺乏知识。单分子分子倒置探针(smMIPs)已被证明在Stargardt病患者的ABCA4基因测序中有效,以确定相关的编码和非编码变异,然而许多MD患者仍然无法解释遗传原因。我们假设MDs缺失的遗传力可能通过基于smmips的所有MDs相关基因和危险因素测序来揭示。使用17394个smMIPs,我们对两个测试队列中的105个iMD和amd相关基因的编码区、非编码或调控位点、已知的伪外显子和线粒体基因组进行了测序,这些测试队列先前筛选了ABCA4的变体。在对110个先证者进行详细的测序分析后,观察到诊断率为38%。这建立了一个“MD-smMIPs小组”,以高通量和成本效益的方式实现了基因型优先的方法,同时实现了目标的统一和高覆盖率。进一步的分析将确定md相关基因的已知和新的变异,从而为患者提供准确的临床诊断。此外,这将揭示MD的新的遗传关联以及iMD和AMD之间潜在的遗传重叠。
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来源期刊
Human Mutation
Human Mutation 医学-遗传学
CiteScore
8.40
自引率
5.10%
发文量
190
审稿时长
2 months
期刊介绍: Human Mutation is a peer-reviewed journal that offers publication of original Research Articles, Methods, Mutation Updates, Reviews, Database Articles, Rapid Communications, and Letters on broad aspects of mutation research in humans. Reports of novel DNA variations and their phenotypic consequences, reports of SNPs demonstrated as valuable for genomic analysis, descriptions of new molecular detection methods, and novel approaches to clinical diagnosis are welcomed. Novel reports of gene organization at the genomic level, reported in the context of mutation investigation, may be considered. The journal provides a unique forum for the exchange of ideas, methods, and applications of interest to molecular, human, and medical geneticists in academic, industrial, and clinical research settings worldwide.
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