Molecular dynamics simulations of wild-type and point mutation human prion protein at normal and elevated temperature

Eman El-Bastawissy; Michael H. Knaggs; Ian H. Gilbert

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Molecular dynamics simulations of wild-type and point mutation human prion protein at normal and elevated temperature

机译：正常和高温下野生型和点突变人病毒蛋白的分子动力学模拟

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This paper describes molecular dynamics simulations of prion protein at 300 and 500 K. This was undertaken to gain insight into the factors involved in the stability of prion protein. Simulations were done using the Particle Mesh Ewald (PME) method using a homology model of the C-terminal fragment of human prion protein and the NMR structure of the human prion protein. The simulations at both 300 and 500 K were stable. Simulations were also undertaken with a mutant known to be associated with prion disease: Asp178Asn. The Asp178Asn simulation trajectory was observed to be much less stable than for the wild-type protein trajectory. Significant breakdown in secondary structure was observed for Asp178Asn at 500 K.

机译：本文介绍了在300和500 K下500病毒蛋白的分子动力学模拟。这样做是为了深入了解in病毒蛋白稳定性所涉及的因素。使用Particle Mesh Ewald（PME）方法使用人类human病毒蛋白C末端片段的同源性模型和人类病毒蛋白的NMR结构进行了模拟。 300 K和500 K的模拟都是稳定的。还使用已知与病毒疾病有关的突变体Asp178Asn进行了模拟。观察到Asp178Asn模拟轨迹的稳定性远不如野生型蛋白质轨迹稳定。在500 K下观察到Asp178Asn的二级结构发生了显着分解。

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《Journal of molecular graphics & modelling》 |2001年第2期|共10页
作者
Eman El-Bastawissy; Michael H. Knaggs; Ian H. Gilbert;
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正文语种 eng
中图分类自动化技术、计算机技术;
关键词
prion protein; simulation; NMR structure;

机译：ion病毒蛋白;模拟;NMR结构;

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1. Molecular dynamics simulations of wild-type and point mutation human prion protein at normal and elevated temperature [J] . Eman El-Bastawissy, Michael H. Knaggs, Ian H. Gilbert Journal of molecular graphics & modelling . 2001,第2期

机译：正常和高温下野生型和点突变人病毒蛋白的分子动力学模拟
2. Influence of the pathogenic mutations T188K/R/A on the structural stability and misfolding of human prion protein: Insight from molecular dynamics simulations [J] . GuoJ., NingL., RenH., Biochimica et Biophysica Acta. General Subjects . 2012,第2期

机译：致病性突变T188K / R / A对人病毒蛋白结构稳定性和错误折叠的影响：分子动力学模拟的启示
3. MOLECULAR DYNAMICS SIMULATIONS OF RHODOPSIN AND PRION PROTEINS: THE EFFECT OF DISEASE-RELATED AMINO ACID MUTATIONS ON THE STRUCTURAL CONFORMATIONS [J] . K. T. Kholmurodov Физика　Элемнтарных　частиц　и　Атомного　Ядра . 2005,第2期

机译：视紫红质和PR蛋白的分子动力学模拟：疾病相关氨基酸突变对结构构象的影响
4. The Role of Electrostatic Interaction in Triggering the Unraveling of Stable Helix 1 in Normal Prion Protein.A Molecular Dynamics Simulation Investigation [C] . Hong-Fang Ji, Hong-Yu Zhang, Liang Shen 第三届国际分子模拟与信息技术应用学术会议 . 2007

机译：静电相互作用在触发正常Pri蛋白中稳定螺旋1解体中的作用。分子动力学模拟研究
5. Thermodynamic and Transport Properties of Na-Ca Aluminosilicate Liquids and Glasses by Molecular Dynamics Simulations at Elevated Temperature and Pressure. [D] . Neilson, Ryan Thomas. 2017

机译：Na-Ca铝硅酸盐液体和玻璃在高温和高压下的分子动力学模拟的热力学和传输性质。
6. Characterization of cell-surface prion protein relative to its recombinant analogue: Insights from molecular dynamics simulations of diglycosylated membrane-bound human prion protein [O] . Mari L. DeMarco, Valerie Daggett -1

机译：细胞表面病毒蛋白相对于其重组类似物的表征：双糖基化的膜结合人human病毒蛋白的分子动力学模拟的启示
7. One gene, two diseases and three conformations: molecular dynamics simulations of mutants of human prion protein at room temperature and elevated temperatures. [O] . Shamsir Mohd Shahir, Dalby Andrew 2005

机译：一种基因，两种疾病和三种构象：人类病毒蛋白突变体在室温和高温下的分子动力学模拟。

Molecular dynamics simulations of wild-type and point mutation human prion protein at normal and elevated temperature

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