全外显子组测序在一名患有科凯恩综合征的台湾男孩的CSB蛋白编码基因中鉴定出一种新的纯合错义突变。

Whole Exome Sequencing Identifies a Novel Homozygous Missense Mutation in the CSB Protein-Encoding Gene in a Taiwanese Boy with Cockayne Syndrome.

作者信息

Lin Ching-Ming, Yang Jay-How, Lee Hwei-Jen, Lin Yu-Pang, Tsai Li-Ping, Hsu Chih-Sin, Luxton G W Gant, Hu Chih-Fen

机构信息

Department of Pediatrics, Tri-Service General Hospital, National Defense Medical Center, Taipei 11490, Taiwan.

Department of Pediatrics, Kaohsiung Armed Forces General Hospital, Kaohsiung 80284, Taiwan.

出版信息

Life (Basel). 2021 Nov 14;11(11):1230. doi: 10.3390/life11111230.

DOI:10.3390/life11111230

PMID:34833108

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8618937/

Abstract

BACKGROUND

Cockayne syndrome (CS) is a rare form of dwarfism that is characterized by progressive premature aging. CS is typically caused by mutations in the excision repair cross-complementing protein group 6 () gene that encodes the CS group B (CSB) protein. Using whole exome sequencing, we recently identified a novel homozygous missense mutation (Leu536Trp) in CSB in a Taiwanese boy with CS. Since the current database (Varsome) interprets this variant as likely pathogenic, we utilized a bioinformatic tool to investigate the impact of Leu536Trp as well as two other variants (Arg453Ter, Asp532Gly) in similar articles on the CSB protein structure stability.

METHODS

We used iterative threading assembly refinement (I-TASSER) to generate a predictive 3D structure of CSB. We calculated the change of mutation energy after residues substitution on the protein stability using I-TASSER as well as the artificial intelligence program Alphafold.

RESULTS

The Asp532Gly variant destabilized both modeled structures, while the Leu536Trp variant showed no effect on I-TASSER's model but destabilized the Alphafold's modeled structure.

CONCLUSIONS

We propose here the first case of CS associated with a novel homozygous missense mutation (Leu536Trp) in CSB. Furthermore, we suggest that the Asp532Gly and Leu536Trp variants are both pathogenic after bioinformatic analysis of protein stability.

摘要

背景

科凯恩综合征（CS）是一种罕见的侏儒症形式，其特征为进行性早衰。CS通常由编码CS组B（CSB）蛋白的切除修复交叉互补蛋白6（）基因突变引起。通过全外显子组测序，我们最近在一名患有CS的台湾男孩中鉴定出CSB基因中的一种新型纯合错义突变（Leu536Trp）。由于当前数据库（Varsome）将此变体解释为可能致病，我们利用一种生物信息学工具来研究Leu536Trp以及其他两个变体（Arg453Ter、Asp532Gly）在类似文章中对CSB蛋白结构稳定性的影响。

方法

我们使用迭代穿线装配优化（I-TASSER）来生成CSB的预测三维结构。我们使用I-TASSER以及人工智能程序Alphafold计算蛋白质稳定性上残基替换后的突变能量变化。

结果

Asp532Gly变体使两个建模结构都不稳定，而Leu536Trp变体对I-TASSER的模型没有影响，但使Alphafold的建模结构不稳定。

结论

我们在此报告首例与CSB基因中新型纯合错义突变（Leu536Trp）相关的CS病例。此外，我们建议在对蛋白质稳定性进行生物信息学分析后，Asp532Gly和Leu536Trp变体均具有致病性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1179/8618937/0bae5c54b946/life-11-01230-g001.jpg

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全外显子组测序在一名患有科凯恩综合征的台湾男孩的CSB蛋白编码基因中鉴定出一种新的纯合错义突变。

Whole Exome Sequencing Identifies a Novel Homozygous Missense Mutation in the CSB Protein-Encoding Gene in a Taiwanese Boy with Cockayne Syndrome.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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