印度尼西亚SARS-CoV-2 ORF3a非同义突变分析

Hartiyowidi Yuliawuri, J. Christian, N. Steven
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引用次数: 2

摘要

背景:印度尼西亚关于SARS - CoV-2 ORF3a突变位点的报道仍然有限。一些研究表明ORF3a蛋白的突变可能会改变SARS-CoV-2的发病机制。对新变异的观察应作为风险监测框架。材料和方法:通过分析2020年3月至2021年7月GISAID数据库中的3751个SARS-CoV-2 DNA序列,评估ORF3a蛋白突变的影响。全基因组序列采用EMBL-EBI的Clustal Omega多序列比对比对,使用BioEdit version 7.2.5软件进行分析。参考全基因组序列取自Genbank数据库,登录号为NC045512。由于读数不准确,我们排除了含有N个字母的样本。使用PredictProtein (https://predictprotein.org)和protein Variation Effect Analyzer (PROVEAN) v1.1.3分析点突变对蛋白质结构的影响。在线软件。结果:在SARS-CoV-2的ORF3a蛋白中发现了5个最常见的非同义突变,分别是Q57H(58.04%)、S26L(27.25%)、S220I(10.37%)、D155H(8.98%)和P104S(5.47%)。结论:这些突变数据显示印度尼西亚ORF3a SARS-CoV-2在2021年7月之前存在氨基酸变化现象。这种突变的含义需要在进一步的研究中确定。关键词:印度尼西亚,突变,非同义,SARS-CoV-2,全基因组
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Non-Synonymous Mutation Analysis of SARS-CoV-2 ORF3a in Indonesia
Background: The report of mutation sites ORF3a SARS CoV-2 in Indonesia is still limited. Some research showed that mutations in ORF3a protein might alter SARS-CoV-2 pathogenesis. Observation of new variants should be conducted as a risk monitoring framework.Materials and method: We assessed the impact of mutations in ORF3a protein by analyzing 3,751 SARS-CoV-2 DNA sequences from the GISAID database from March 2020 until July 2021. The whole-genome sequences were aligned using Clustal Omega Multiple Sequence Alignment from EMBL-EBI and analyzed using BioEdit version 7.2.5 software. The reference whole genome sequence was taken from the Genbank database with accession number NC045512. We excluded the samples containing N letters due to inaccurate reading. Effect of point mutations on protein structure was analyzed using PredictProtein (https://predictprotein.org) and Protein Variation Effect Analyzer (PROVEAN) v1.1.3. online software.Results: We identified five most frequent non-synonymous mutations in ORF3a protein of SARS-CoV-2 which were Q57H (58.04%), S26L (27.25%), S220I (10.37%), D155H (8.98%), and P104S (5.47%).Conclusion: These mutation data showed the phenomenon of amino acid changes in ORF3a SARS-CoV-2 in Indonesia until July 2021. The implication of this mutation needs to be determined in further studies.Keywords: Indonesia, mutations, non-synonymous, SARS-CoV-2, whole genome 
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