分析新型错义 ATR 突变揭示了 Seckel 综合征潜在的新剪接缺陷。

Analysis of novel missense ATR mutations reveals new splicing defects underlying Seckel syndrome.

机构信息

Centre for Chromosome Biology, National University of Ireland in Galway, Galway, Ireland.

School of Life Sciences, University of Dundee, Dundee, Scotland.

出版信息

Hum Mutat. 2018 Dec;39(12):1847-1853. doi: 10.1002/humu.23648. Epub 2018 Sep 24.

DOI:10.1002/humu.23648

PMID:30199583

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7615757/

Abstract

Ataxia Telangiectasia and Rad3 related (ATR) is one of the main regulators of the DNA damage response. It coordinates cell cycle checkpoint activation, replication fork stability, restart and origin firing to maintain genome integrity. Mutations of the ATR gene have been reported in Seckel patients, who suffer from a rare genetic disease characterized by severe microcephaly and growth retardation. Here, we report the case of a Seckel patient with compound heterozygous mutations in ATR. One allele has an intronic mutation affecting splicing of neighboring exons, the other an exonic missense mutation, producing the variant p.Lys1665Asn, of unknown pathogenicity. We have modeled this novel missense mutation, as well as a previously described missense mutation p.Met1159Ile, and assessed their effect on ATR function. Interestingly, our data indicate that both missense mutations have no direct effect on protein function, but rather result in defective ATR splicing. These results emphasize the importance of splicing mutations in Seckel Syndrome.

摘要

毛细血管扩张共济失调症相关基因（ATR）是 DNA 损伤反应的主要调控因子之一。它协调细胞周期检查点的激活、复制叉的稳定性、重新启动和起始点火，以维持基因组的完整性。ATR 基因突变已在 Seckel 患者中被报道，这些患者患有一种罕见的遗传性疾病，其特征是严重的小头畸形和生长迟缓。在这里，我们报告了一例 ATR 复合杂合突变的 Seckel 患者。一个等位基因有一个内含子突变，影响相邻外显子的剪接，另一个外显子错义突变，产生未知致病性的变体 p.Lys1665Asn。我们对这个新的错义突变以及之前描述的错义突变 p.Met1159Ile 进行了建模，并评估了它们对 ATR 功能的影响。有趣的是，我们的数据表明，这两种错义突变都不会直接影响蛋白质功能，而是导致 ATR 剪接缺陷。这些结果强调了剪接突变在 Seckel 综合征中的重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1f87/7615757/dc2e83e95df6/EMS194563-f001.jpg

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分析新型错义 ATR 突变揭示了 Seckel 综合征潜在的新剪接缺陷。

Analysis of novel missense ATR mutations reveals new splicing defects underlying Seckel syndrome.

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