通过整合基因组学和转录组学，为 1054 名 Stargardt 病先证者解析 ABCA4 中的暗物质。

Resolving the dark matter of ABCA4 for 1054 Stargardt disease probands through integrated genomics and transcriptomics.

机构信息

Department of Human Genetics, Radboud University Medical Center, Nijmegen, The Netherlands.

Donders Institute for Brain, Cognition and Behaviour, Radboud University Medical Center, Nijmegen, The Netherlands.

出版信息

Genet Med. 2020 Jul;22(7):1235-1246. doi: 10.1038/s41436-020-0787-4. Epub 2020 Apr 20.

DOI:10.1038/s41436-020-0787-4

PMID:32307445

Abstract

PURPOSE

Missing heritability in human diseases represents a major challenge, and this is particularly true for ABCA4-associated Stargardt disease (STGD1). We aimed to elucidate the genomic and transcriptomic variation in 1054 unsolved STGD and STGD-like probands.

METHODS

Sequencing of the complete 128-kb ABCA4 gene was performed using single-molecule molecular inversion probes (smMIPs), based on a semiautomated and cost-effective method. Structural variants (SVs) were identified using relative read coverage analyses and putative splice defects were studied using in vitro assays.

RESULTS

In 448 biallelic probands 14 known and 13 novel deep-intronic variants were found, resulting in pseudoexon (PE) insertions or exon elongations in 105 alleles. Intriguingly, intron 13 variants c.1938-621G>A and c.1938-514G>A resulted in dual PE insertions consisting of the same upstream, but different downstream PEs. The intron 44 variant c.6148-84A>T resulted in two PE insertions and flanking exon deletions. Eleven distinct large deletions were found, two of which contained small inverted segments. Uniparental isodisomy of chromosome 1 was identified in one proband.

CONCLUSION

Deep sequencing of ABCA4 and midigene-based splice assays allowed the identification of SVs and causal deep-intronic variants in 25% of biallelic STGD1 cases, which represents a model study that can be applied to other inherited diseases.

摘要

目的

人类疾病的遗传缺失是一个主要的挑战，这在 ABCA4 相关的斯塔加特病（STGD1）中尤为明显。我们旨在阐明 1054 名未解决的 STGD 和 STGD 样先证者的基因组和转录组变异。

方法

使用单分子分子反转探针（smMIPs）对完整的 128kb ABCA4 基因进行测序，该方法基于半自动且具有成本效益的方法。使用相对读覆盖分析鉴定结构变异（SVs），并使用体外测定研究推定的剪接缺陷。

结果

在 448 名双等位基因先证者中，发现了 14 个已知和 13 个新的深内含子变异，导致 105 个等位基因中出现假外显子（PE）插入或外显子延长。有趣的是，内含子 13 变异 c.1938-621G>A 和 c.1938-514G>A 导致由相同上游但不同下游 PE 组成的双 PE 插入。内含子 44 变异 c.6148-84A>T 导致两个 PE 插入和侧翼外显子缺失。发现了 11 个不同的大片段缺失，其中两个包含小的倒置片段。一个先证者被鉴定为 1 号染色体单亲二体性。

结论

ABCA4 的深度测序和基于 midigene 的剪接测定允许在 25%的双等位基因 STGD1 病例中鉴定 SVs 和因果深内含子变异，这代表了可以应用于其他遗传性疾病的模型研究。

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通过整合基因组学和转录组学，为 1054 名 Stargardt 病先证者解析 ABCA4 中的暗物质。

Resolving the dark matter of ABCA4 for 1054 Stargardt disease probands through integrated genomics and transcriptomics.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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