ECEL1 新型突变导致 5D 型先天性关节挛缩症：分子动力学模拟研究。

ECEL1 novel mutation in arthrogryposis type 5D: A molecular dynamic simulation study.

机构信息

Innovative Medical Research Center, Faculty of Medicine, Mashhad Medical Science, Islamic Azad University, Mashhad, Iran.

Department of Medical Genetics, Next Generation Genetic Polyclinic, Mashhad, Iran.

出版信息

Mol Genet Genomic Med. 2023 Jun;11(6):e2153. doi: 10.1002/mgg3.2153. Epub 2023 Feb 16.

DOI:10.1002/mgg3.2153

PMID:36794879

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10265054/

Abstract

BACKGROUND

ECEL1 has been presented as a causal gene of an autosomal recessive form distal arthrogryposis (DA) which affects the distal joints. The present study focused on bioinformatic analysis of a novel mutation in ECEL1, c.535A>G (p. Lys179Glu), which was reported in a family with 2 affected boys and fetus through prenatal diagnosis.

METHODS

Whole-exome sequencing data analyzed followed by molecular dynamic (MD) simulation of native ECEL1 protein and mutant structures using GROMACS software. One variant c.535A>G, p. Lys179Glu (homozygous) on gene ECEL1 has been detected in proband which was validated in all family members through Sanger sequencing.

RESULTS

We demonstrated remarkable constructional differences by MD simulation between wild-type and novel mutant of ECEL1 gene. The reason for the lack of the Zn ion binding in mutation in the ECEL1 protein has been identified by average atomic distance and SMD analysis among the wild-type and mutant.

CONCLUSION

Overall, in this study, we present knowledge of the effect of the studied variant on the ECEL1 protein leading to neurodegenerative disorder in humans. This work may hopefully be supplementary to classical molecular dynamics to dissolve the mutational effects of cofactor-dependent protein.

摘要

背景

ECEL1 已被提出为常染色体隐性远端关节挛缩症（DA）的致病基因，该疾病影响远端关节。本研究重点对通过产前诊断在一个有 2 名受影响男孩和胎儿的家系中报告的 ECEL1 中的一个新突变 c.535A>G（p. Lys179Glu）进行生物信息学分析。

方法

对全外显子组测序数据进行分析，然后使用 GROMACS 软件对天然 ECEL1 蛋白和突变体结构进行分子动力学（MD）模拟。在先证者中检测到基因 ECEL1 上的一个变体 c.535A>G，p. Lys179Glu（纯合子），并通过 Sanger 测序在所有家庭成员中进行了验证。

结果

通过 MD 模拟，我们证明了野生型和新型 ECEL1 基因之间的显著结构差异。通过平均原子距离和 SMD 分析，确定了 ECEL1 蛋白突变中锌离子结合缺失的原因。

结论

总之，在这项研究中，我们提出了所研究的变异对导致人类神经退行性疾病的 ECEL1 蛋白的影响的知识。这项工作有望对依赖辅因子的蛋白质的突变效应的经典分子动力学研究起到补充作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1196/10265054/59dbbc6ba1bb/MGG3-11-e2153-g003.jpg

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ECEL1 新型突变导致 5D 型先天性关节挛缩症：分子动力学模拟研究。

ECEL1 novel mutation in arthrogryposis type 5D: A molecular dynamic simulation study.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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