A Cu-Amyloid β Complex Activating Fenton Chemistry in Alzheimer's Disease: Learning with Multiple First-Principles Simulations

机译：Alzheimer疾病中的Cu-淀粉样蛋白β复合物激活Fenton化学：用多个第一原理模拟学习

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Amyloid β peptides form complexes with copper, both in vitro and in vivo, relatively soluble in water as oligomers and active as catalysts for oxidation of organic substrates by hydrogen peroxide, a species always present in cells and in their aerobic environment. All these species are present in the synapse, thus making a connection between the amyloid cascade hypothesis and the oxidative damages by reactive oxygen species in neurons, when pathological dishomeostasis of amyloid peptides and metal ions occur. In order to understand the structural features of these toxic complexes, we built several models of Cu-AP peptides in monomeric and dimeric forms and we found, performing multiple first-principles molecular dynamics simulations, that Cu-induced dimers are more active than monomers in converting hydrogen peroxide into aggressive hydroxyl radicals.

机译：淀粉样蛋白β肽在体外和体内铜形成络合物，在水中相对溶于水作为低聚物，作为催化剂作为通过过氧化氢氧化有机底物的催化剂，该物种总是存在于细胞中和其有氧环境中的物种。所有这些物种存在于突触中，从而通过神经元中的反应性氧物种在淀粉样蛋白级联假设和氧化损伤之间进行连接，当淀粉样肽和金属离子的病理煮沸抑制时。为了了解这些毒性复合物的结构特征，我们在单体和二聚体中构建了多种模型的Cu-AP肽，我们发现，进行多种第一原理的分子动力学模拟，即Cu诱导的二聚体比单体更活跃将过氧化氢转化为侵蚀性羟基。

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《International conference on computational methods in science and engineering》|2014年||共3页
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Giovanni La Penna; Christelle Hureau; Peter Faller;
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中图分类计算数学的应用;
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Neurodegeneration; First-principles molecular dynamics;

机译：神经变性;第一原理分子动力学;

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1. Identifying, By First-Principles Simulations, Cu[Amyloid-β] Species Making Fenton-Type Reactions in Alzheimer's Disease [J] . Giovanni La Penna, Christelle Hureau, Oliviero Andreussi The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2013,第51期

机译：通过第一性原理模拟鉴定在阿尔茨海默氏病中引起Fenton型反应的Cu [淀粉样β]物种
2. Learning chemistry with multiple first-principles simulations [J] . La Penna Giovanni, Hureau Christelle, Faller Peter Molecular simulation . 2015,第10a12期

机译：通过多个第一性原理模拟学习化学
3. Copper reduction and dioxygen activation in Cu-amyloid beta peptide complexes: insight from molecular modelling [J] . Arrigoni Federica, Prosdocimi Tommaso, Mollica Luca, Metallomics. integrated biometal science . 2018,第11期

机译：Cu-淀粉样蛋白β肽复合物中的铜减杂和二恶英激活：分子建模的洞察力
4. A Cu-Amyloid β Complex Activating Fenton Chemistry in Alzheimer's Disease: Learning with Multiple First-Principles Simulations [C] . Giovanni La Penna, Christelle Hureau, Peter Faller International conference on computational methods in science and engineering 2014 . 2014

机译：在阿尔茨海默氏病中的铜淀粉样β复合物激活Fenton化学：学习与多个第一性原理模拟。
5. Genetic ablation of the platelet activating factor receptor does not impair learning and memory in wild-type mice or alter amyloid plaque number in a transgenic model of Alzheimer's disease [D] . Peshdary, Vian. 2012

机译：血小板活化因子受体的遗传消融不会损害野生型小鼠的学习和记忆，也不会改变阿尔茨海默氏病转基因模型中的淀粉样斑块数
6. Fenton chemistry and oxidative stress mediate the toxicity of the β-amyloid peptide in a Drosophila model of Alzheimer’s disease [O] . Thomas Rival, Richard M Page, Dhianjali S Chandraratna, -1

机译：Fenton化学和氧化应激介导了阿尔茨海默氏病果蝇模型中β淀粉样肽的毒性
7. Fenton chemistry and oxidative stress mediate the toxicity of the β-amyloid peptide in a Drosophila model of Alzheimer’s disease [O] . Rival, Thomas, Page, Richard M, Chandraratna, Dhianjali S, 2009

机译：Fenton化学和氧化应激介导了阿尔茨海默氏病果蝇模型中β淀粉样肽的毒性

A Cu-Amyloid β Complex Activating Fenton Chemistry in Alzheimer's Disease: Learning with Multiple First-Principles Simulations

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