长寿的量子化学分子模型:线粒体作为细胞电池的抗氧化作用的重要性

S. Yanagida, K. Osabe, T. Nagai, Nobuyuki Murakami
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引用次数: 3

摘要

背景:量子化学即基于密度泛函数理论的分子建模(DFT/MM)是研究分子范德华力(vdW)聚集体平衡几何和能量结构的一种新的分析方法。鉴于预防疾病的作用,采用DFT/MM分析线粒体(mt)中的氧化还原反应,线粒体(mt)作为细胞的电池,利用氧气和d -葡萄糖发挥作用。材料和方法:采用B3LYP交换相关函数和Spartan ' 16 (Wavefunction, Inc.)的6-31G (d)基集进行DFT-based molecular modeling (DFT/MM),相当于量子力学/分子力学(QM/MM)方法。欧文,CA)。结果:DFT/MM验证并预测了mt中基态氧(O2)和d -葡萄糖的氧化还原反应会产生超氧自由基阴离子(O2)和过氧化氢(HOOH),在ATP没有耗尽的情况下,在mt中开始积累HOOH,从而产生有害的羟基自由基(HO dot)。羟基自由基(HO点)破坏细胞膜,导致mt功能障碍。抗氧化化学物质如维生素C、甲状腺素(T4)、三碘甲状腺原氨酸(T3)会抑制羟基自由基的积累和有害的HO自由基的形成。甲状腺激素是所谓的超氧化物歧化酶之一,碘原子在mt的抗氧化作用中起着重要作用。结论:饮食中摄入维生素C等抗氧化化学物质,保持血液中可接受的含碘T4和T3水平,以及有氧运动防止HOOH的积累是延长mt的必要条件,是细胞的电池。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Quantum chemistry molecular modeling for longevity: Importance of antioxidative effects in mitochondria as battery of cells
Background: Quantum chemistry, i.e., density functional theory-based molecular modeling (DFT/MM) using computer software of “Spartan” on personal computer is a novel analysis method for equilibrium geometry and energy structure of van der Waals force (vdW) aggregates of molecules. In view of the action of preventing disease, DFT/MM is undertaken to analyze redox reactions in mitochondria (mt) as battery of cells which is functioning using oxygen and D-glucose. Materials and methods: DFT-based molecular modeling (DFT/MM), equivalent to the quantum mechanics/molecular mechanics (QM/MM) method, was performed by using the B3LYP exchange-correlation function and the 6–31G(d) basis set with Spartan’16 (Wavefunction, Inc. Irvine, CA). Results: DFT/MM verifies and predicts that superoxide radical anion (O2) and hydrogen peroxide (HOOH) are produced by redox reactions of ground state oxygen (O2) and D-glucose in mt. Without exhausting ATP, accumulation of HOOH will start in mt, resulting in production of hazardous hydroxyl radical (HO dot). The hydroxyl radical (HO dot) destroys cellular membrane, leading to dysfunction of mt. Accumulation of HOOH and formation of hazardous HO radical will be suppressed by antioxidative chemical substance, e.g., Vitamin C, thyroxin (T4), and triiodothyronine (T3). Thyroid hormone is one of so-called super oxide dismutase, iodine atoms in which play an important role of antioxidative effects in mt. Conclusion: Dietary intake of antioxidative chemical substance like Vitamin C, preservation of acceptable level of iodine-bearing T4 and T3 in blood, and aerobic exercise which prevents accumulation of HOOH are essential for prolonged mt as battery of cells.
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