16p13.3上的回文结构与复杂结构变异的形成和SRRM2单倍性有关

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
A. Pagnamenta, Jing Yu, T. Willis, Mona Hashim, E. Seaby, S. Walker, Jiaqi Xian, Emily W. Y. Cheng, A. L. T. Tavares, F. Forzano, H. Cox, T. Dabir, A. Brady, N. Ghali, S. Atanur, Sarah Ennis, D. Baralle, Jenny C. Taylor
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引用次数: 1

摘要

SRRM2编码一个剪接因子,最近由于新生突变的统计富集而与发育障碍有关。利用100,000基因组计划的数据,确定了4名无亲缘关系的智力残疾(ID)个体,每个个体都携带SRRM2全基因从头缺失。缺失的大小在248 - 482kb之间,所有远端断点都聚集在位于SRRM2上游75kb的一个复杂的144kb回文中。引人注目的是,其中三个缺失是复杂的,具有45-94 kb的倒置内部片段。在一个先证者-母亲二人组中,通过单倍型分析推断了新生状态。再加上另外两名携带较小预测蛋白截断变异体的患者(p.a g632∗和p.a ala2223leufs∗13),我们估计这种情况在不明原因ID患者队列中的患病率约为1/1300。在两例CASR/PKD1和SLC17A5中存在额外致病变异的病例中,表型混合阻碍了这种最近描述的疾病的表型描述。我们的数据强调了基因组测序在解决结构复杂性和推断新生状态方面的好处。16p13.3的基因组结构可能导致相对较高的复杂重排率,增加了与复发性基因组疾病相关的位点列表。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Palindrome-Like Structure on 16p13.3 Is Associated with the Formation of Complex Structural Variations and SRRM2 Haploinsufficiency
SRRM2 encodes a splicing factor recently implicated in developmental disorders due to a statistical enrichment of de novo mutations. Using data from the 100,000 Genomes Project, four unrelated individuals with intellectual disability (ID) were identified, each harbouring de novo whole gene deletions of SRRM2. Deletions ranged between 248 and 482 kb in size and all distal breakpoints clustered within a complex 144 kb palindrome situated 75 kb upstream of SRRM2. Strikingly, three of the deletions were complex, with inverted internal segments of 45-94 kb. In one proband-mother duo, de novo status was inferred by haplotype analysis. Together with two additional patients who harboured smaller predicted protein-truncating variants (p.Arg632 ∗ and p.Ala2223Leufs ∗ 13), we estimate the prevalence of this condition in cohorts of patients with unexplained ID to be ~1/1300. Phenotypic blending, present for two cases with additional pathogenic variants in CASR/PKD1 and SLC17A5, hampered the phenotypic delineation of this recently described condition. Our data highlights the benefits of genome sequencing for resolving structural complexity and inferring de novo status. The genomic architecture of 16p13.3 may give rise to relatively high rates of complex rearrangements, adding to the list of loci associated with recurrent genomic disorders.
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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