关于参与DNA链断裂修复的Rad50突变对功能和结构影响的计算机模拟分析。

In silico analysis on the functional and structural impact of Rad50 mutations involved in DNA strand break repair.

作者信息

Remali Juwairiah, Aizat Wan Mohd, Ng Chyan Leong, Lim Yi Chieh, Mohamed-Hussein Zeti-Azura, Fazry Shazrul

机构信息

Department of Food Sciences, Faculty of Science and Technology, Universiti Kebangsaan Malaysia, Bangi, Selangor, Malaysia.

Institute of Systems Biology (INBIOSIS), Universiti Kebangsaan Malaysia, Bangi, Selangor, Malaysia.

出版信息

PeerJ. 2020 May 22;8:e9197. doi: 10.7717/peerj.9197. eCollection 2020.

DOI:10.7717/peerj.9197

PMID:32509463

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7247530/

Abstract

BACKGROUND

DNA double strand break repair is important to preserve the fidelity of our genetic makeup after DNA damage. Rad50 is one of the components in MRN complex important for DNA repair mechanism. Rad50 mutations can lead to microcephaly, mental retardation and growth retardation in human. However, Rad50 mutations in human and other organisms have never been gathered and heuristically compared for their deleterious effects. It is important to assess the conserved region in Rad50 and its homolog to identify vital mutations that can affect functions of the protein.

METHOD

In this study, Rad50 mutations were retrieved from SNPeffect 4.0 database and literature. Each of the mutations was analyzed using various bioinformatic analyses such as PredictSNP, MutPred, SNPeffect 4.0, I-Mutant and MuPro to identify its impact on molecular mechanism, biological function and protein stability, respectively.

RESULTS

We identified 103 mostly occurred mutations in the Rad50 protein domains and motifs, which only 42 mutations were classified as most deleterious. These mutations are mainly situated at the specific motifs such as Walker A, Q-loop, Walker B, D-loop and signature motif of the Rad50 protein. Some of these mutations were predicted to negatively affect several important functional sites that play important roles in DNA repair mechanism and cell cycle signaling pathway, highlighting Rad50 crucial role in this process. Interestingly, mutations located at non-conserved regions were predicted to have neutral/non-damaging effects, in contrast with previous experimental studies that showed deleterious effects. This suggests that software used in this study may have limitations in predicting mutations in non-conserved regions, implying further improvement in their algorithm is needed. In conclusion, this study reveals the priority of acid substitution associated with the genetic disorders. This finding highlights the vital roles of certain residues such as K42E, C681A/S, CC684R/S, S1202R, E1232Q and D1238N/A located in Rad50 conserved regions, which can be considered for a more targeted future studies.

摘要

背景

DNA双链断裂修复对于在DNA损伤后保持我们基因组成的保真度很重要。Rad50是MRN复合物中对DNA修复机制很重要的成分之一。Rad50突变可导致人类小头畸形、智力迟钝和生长发育迟缓。然而，人类和其他生物体中的Rad50突变从未被收集并进行有害效应的启发式比较。评估Rad50及其同源物中的保守区域以识别可能影响蛋白质功能的重要突变很重要。

方法

在本研究中，从SNPeffect 4.0数据库和文献中检索Rad50突变。使用各种生物信息学分析方法（如PredictSNP、MutPred、SNPeffect 4.0、I-Mutant和MuPro）分别分析每个突变，以确定其对分子机制、生物学功能和蛋白质稳定性的影响。

结果

我们在Rad50蛋白结构域和基序中鉴定出103个最常出现的突变，其中只有42个突变被归类为最有害的。这些突变主要位于Rad50蛋白的特定基序，如沃克A、Q环、沃克B、D环和特征基序。其中一些突变预计会对在DNA修复机制和细胞周期信号通路中起重要作用的几个重要功能位点产生负面影响，突出了Rad50在这一过程中的关键作用。有趣的是，与先前显示有害效应的实验研究相反，位于非保守区域的突变预计具有中性/无损害效应。这表明本研究中使用的软件在预测非保守区域的突变方面可能存在局限性，意味着需要进一步改进其算法。总之，本研究揭示了与遗传疾病相关的氨基酸替代的优先级。这一发现突出了位于Rad50保守区域的某些残基（如K42E、C681A/S、CC684R/S、S1202R、E1232Q和D1238N/A）的重要作用，可考虑用于未来更具针对性的研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bbc4/7247530/4983591007a7/peerj-08-9197-g001.jpg

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关于参与DNA链断裂修复的Rad50突变对功能和结构影响的计算机模拟分析。

In silico analysis on the functional and structural impact of Rad50 mutations involved in DNA strand break repair.

作者信息

机构信息

出版信息

BACKGROUND

METHOD

RESULTS

背景

方法

结果

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