Prediction of RNA Secondary Structure at IVS1 Mutation of Beta Globin Gene

International Journal of ChemTech Research Pub Date : 2020-01-01 DOI:10.20902/ijctr.2019.130131

N. Sumantri, D. R. Wijayanti

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Abstract

Background: Beta globin gene is responsible for producing beta globin chains that stabilize the structure and function of hemoglobin. This gene expression is controlled by complex interactions of transcriptions factors and its regulatory elements in a specific manner. Disturbed beta globin genes may result in hemoglobinopathies, mainly sickle cell disease and beta thalassemia. It seems interesting that several mutations occurring in intronic region results in severe symptoms to beta thalassemia patients, such an IVS1nt5 G>C. This research aimed to analyze RNA structural alteration effected by intronic mutation of beta thalassemia. Methods: The most prevalent mutation of beta thalassemia in Indonesia was obtained from Ithanet. The RNA secondary structure of IVS1nt5 G>C and beta globin gen (HBB) wildtype were performed by RNAStructure, along with probknot prediction. Results: The result showed that intronic mutation caused conformational change in beta globin secondary structure, either for max expect or base pairing probability approach. The mutant had bigger and more loops that diminished the protein stability. Thus, the structure might undergo dysfunction. Conclusion: The comprehensive structural-functional significance of these findings needs further study.

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β -珠蛋白基因IVS1突变的RNA二级结构预测

背景:β珠蛋白基因负责产生稳定血红蛋白结构和功能的β珠蛋白链。该基因的表达受转录因子及其调控元件的复杂相互作用控制。紊乱的-珠蛋白基因可能导致血红蛋白病，主要是镰状细胞病和-地中海贫血。有趣的是，在内含子区发生的几种突变导致β地中海贫血患者出现严重症状，如IVS1nt5 G>C。本研究旨在分析β地中海贫血的内含子突变对RNA结构的影响。方法:从Ithanet中获得印度尼西亚最流行的-地中海贫血突变。采用RNAStructure对IVS1nt5 G>C和β珠蛋白原(HBB)野生型的RNA二级结构进行分析，并进行probknot预测。结果:内含子突变引起β -珠蛋白二级结构的构象变化，无论对最大期望还是碱基配对概率都是如此。突变体有更大、更多的环，这降低了蛋白质的稳定性。因此，该结构可能发生功能障碍。结论:这些发现的综合结构功能意义有待进一步研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of ChemTech Research

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