Gly→Ala Point Mutation and Conformation of Poly-Ala Stretch of PABPN1: A Molecular Dynamics Study

生物物理化学(英文) Pub Date : 2015-03-31 DOI:10.4236/JBPC.2015.62006

M. Shafique, M. L. Garg, F. S. Nandel

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引用次数: 5

Abstract

Single nucleotide replacing mutations in genes cause a number of diseases, but sometimes these mutations mimic other genetic mutations such as trinucleotide repeats expansions. A mutation in codon GGG→GCG results in Gly→Ala at the N-terminal of PABPN1 protein that mimics the trinucleotide repeat expansion disease called Oculopharyngeal muscular dystrophy (OPMD). Molecular dynamics simulations in water with peptide models having sequence Ac-A10-GA2GG-NHme (peptide A) and Ac-A10A3GG-NHme (peptide B) reveal an increase in the length of helical segment in peptide B. The α-helical length is found to be stable in peptide B with starting geometry of a right handed helix, while in the case peptide A, the helical length is short. The interactions of water molecules at terminals, side chain-backbone interactions and hydrogen bonds provide stability to resultant conformation. The adopted helix by the poly-Ala stretch may lead to masking some other active parts of the PABPN1 that may trigger the aggregation, decrease in degradation and/or impaired function of protein. Hence, further studies with N-terminal may be helpful to understand unclear disease mechanism.

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PABPN1基因Gly→Ala点突变与聚Ala链构象的分子动力学研究

单核苷酸取代基因突变导致许多疾病，但有时这些突变模仿其他基因突变，如三核苷酸重复扩增。密码子GGG→GCG的突变导致PABPN1蛋白n末端的Gly→Ala，模拟三核苷酸重复扩增病称为眼咽肌营养不良(OPMD)。用含有α- a10 - ga2gg - nhme(肽A)和Ac-A10A3GG-NHme(肽B)序列的肽模型在水中进行分子动力学模拟，结果表明α-螺旋段长度在肽B中增加，α-螺旋长度在肽B中稳定，以右手螺旋开始，而在肽A中，α-螺旋长度较短。水分子在末端的相互作用、侧链-主链相互作用和氢键提供了合成构象的稳定性。poly-Ala拉伸所采用的螺旋可能导致掩盖PABPN1的一些其他活性部分，这些活性部分可能引发蛋白质聚集，降解减少和/或功能受损。因此，进一步研究n端可能有助于了解尚不清楚的疾病机制。

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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生物物理化学(英文)

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