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Diversity of Monopolar and Bipolar Nanosecond Pulsed Electric Signals on the Metallo-Enzyme Superoxide Dismutase (SOD), a Modelling Approach

机译：单极和双极纳秒脉冲电信号的多样性对金属酶超氧化物歧化酶（SOD），一种建模方法

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Recent papers showed that when dealing with nanosecond pulsed electric fields (nsPEFs), bipolar pulses proved far less effective at membrane permeabilization and at cell killing than monopolar ones, contrary to what happens in the microsecond range. The mechanism at the basis of such selective response of cells is not fully elucidated. One hypothesis worthwhile to test could be a direct action of nsPEFs on intracellular enzyme reactions. The goal of this study is to investigate possible enzyme response due to the application of nsPEF monopolar and bipolar of intensity of 10° V/m and duration of 100 ns on the superoxide dismutase (SOD,Cu-Zn) enzyme, by means of a molecular dynamics (MD) modelling approach.

机译：最近的论文表明，在处理纳秒脉冲电场（NPEFS）时，双极脉冲在膜透明度和细胞杀死中被证明的比较效率远远不如单调的脉冲杀伤。相反，符合微秒范围内发生的影响。基于细胞的这种选择性响应的机制未得到完全阐明。一个值得测试的假设可能是NPEFS对细胞内酶反应的直接作用。本研究的目的是探讨可能的酶反应，因为在超氧化物歧化酶（SOD，Cu-Zn）酶上的10°V / m强度和100ns的持续时间，通过A分子动力学（MD）建模方法。

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《European Conference on Antennas and Propagation 》|2017年|759-1581 p. :|共3页
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作者
Elena della Valle; Paolo Marracino; Olga Pakhomova; Micaela Liberti; Francesca Apollonio;
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中图分类 TN924-532;
关键词
nanosecond pulses; high voltage; protein; molecular dynamics;

机译：纳秒脉冲;高压;蛋白质;分子动力学;

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专利

1. Bipolar nanosecond electric pulses are less efficient at electropermeabilization and killing cells than monopolar pulses [J] . IbeyB.L., UlleryJ.C., PakhomovaO.N., Biochemical and Biophysical Research Communications . 2014 ,第2期

机译：双极纳秒电脉冲在电透化和杀死细胞方面比单极脉冲效率低
2. Bipolar nanosecond electric pulses are less efficient at electropermeabilization and killing cells than monopolar pulses [J] . IbeyB.L., UlleryJ.C., PakhomovaO.N., Biochemical and Biophysical Research Communications . 2014 ,第2期

机译：双极纳秒电脉冲在电透化和杀死细胞方面比单极脉冲效率低
3. Comparative evaluation of transmembrane ion transport due to monopolar and bipolar nanosecond, high-intensity electroporation pulses based on full three-dimensional analyses [J] . Q. Hu, R. R Joshi Journal of Applied Physics . 2017 ,第3期

机译：基于全三维分析的单极性和双极性纳秒级高强度电穿孔脉冲引起的跨膜离子传输的比较评估
4. Diversity of monopolar and bipolar nanosecond pulsed electric signals on the metallo-enzyme superoxide dismutase (SOD), a modelling approach [C] . Elena della Valle, Paolo Marracino, Olga Pakhomova, European Conference on Antennas and Propagation . 2017

机译：金属酶超氧化物歧化酶（SOD）上单极性和双极性纳秒脉冲电信号的多样性，一种建模方法
5. Modulation of manganese superoxide dismutase (MnSOD): Effects on proinflammatory and p53 signaling [D] . Robbins, Delira Freddi. 2012

机译：调节锰超氧化物歧化酶（MnSOD）：对促炎和p53信号的影响
6. Bipolar nanosecond electric pulses are less efficient at electropermeabilization and killing cells than monopolar pulses [O] . Bennett L. Ibey, Jody Ullery, Olga N. Pakhomova, -1

机译：双极纳秒电脉冲在电透化和杀死细胞方面比单极脉冲效率低
7. Bipolar nanosecond electric pulses are less efficient at electropermeabilization and killing cells than monopolar pulses [O] . Bennett L. Ibey, Jody C. Ullery, Olga N. Pakhomova, 2014

机译：双极纳秒电脉冲比单极脉冲更低，杀灭细胞较低

Diversity of Monopolar and Bipolar Nanosecond Pulsed Electric Signals on the Metallo-Enzyme Superoxide Dismutase (SOD), a Modelling Approach

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