The quantitative characterization of free radical sources and traps by electromigration applications

Gabriella Donáth-Nagy , Peter Buchwald , Szende Vancea , Mircea Croitoru , Béla Tőkés
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引用次数: 1

Abstract

Nowadays, very diverse human activities generate urgent demands for fast, sensitive reliable innovative tools capable of detecting major industrial, military, and other dangerous products. An important part of these compounds are free radicals. Capillary electrophoresis (CE), especially in its miniaturized format (lab-on-a-chip), and other electromigration methods offer special possibilities to resolve this problem. These measurements have a great opportuness because of very wide chemical and biological role of free radicals. Several compounds, e.g. monomers and some biologically important groups (as are nitrones) oppose oxidative challenges by virtue of their trap very rapidly oxygen- or carbon-centered radicals and generating other radical species which are stable and biochemically less harmful than the original ones. In many cases, conventionally, the relative trap capacity is measured against tert.-butylhydroperoxide (TBH). In this lecture are presented numerous important free radical species (active oxygen–, nitrogen- and carbon-centered ones, as HO, NO etc) and their adequate in vitro and in vivo applied bioanalytical methods, including liquid chromatography with electrochemical detection and mass spectrometry, gas chromatography with mass spectrometry, capillary electrophoresis, electron spin resonance and chemiluminescence analysis. A simple and highly sensitive method is the capillary zone electrophoresis with amperometric detection (CZE-AD); It was introduced to determine indirectly OH by analysing its reaction products with salicylic and dihydroxybenzoic acids. Hydroxylated radical products of these acids are often used as a relative measurement in free radical research. Accurate determination of pK(a) values is important for proper characterization of newly synthesized molecules. CZE method was used for determination of their values. Are initiated new research fields as Fenton-, electro-Fenton and photoelectro-Fenton chemistry and foreseen their perspectives.

Nitric oxide is an important cell signaling molecule in physiology and pathophysiology. An indirect method for monitoring nitric oxide (NO) by determining nitrate and nitrite by microchip capillary electrophoresis (CE) with electrochemical (EC) detection has been developed. The amount of nitrite formed in this reaction (analyzed by capillary electrophoresis) was compared with the amount of oxygen consumed (measured by polarography). Were observed a linear relationship between the amount of consumed oxygen and the amount of nitrite formed in the measured range. These results demonstrate that polarographic measurements of the amount of oxygen consumed in the reaction with NO could be used to estimate the concentration of dissolved NO in authentic media. Polarography is an adequate method also to quantitative kinetic study of the free radical activity and of the trapping capacity of different compounds. This method is based on measure of the catalytic polarografic current of Fe(III) in the presence of free radical sources (TBH, hydrogen-peroxydes), and their traps. Personal contribution of the authors in this field is discussed.

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用电迁移应用定量表征自由基源和陷阱
如今,非常多样化的人类活动产生了对能够检测主要工业,军事和其他危险产品的快速,敏感可靠的创新工具的迫切需求。这些化合物的一个重要组成部分是自由基。毛细管电泳(CE),特别是其小型化格式(芯片实验室)和其他电迁移方法为解决这一问题提供了特殊的可能性。由于自由基具有非常广泛的化学和生物学作用,这些测量具有很大的机会。一些化合物,例如单体和一些生物学上重要的基团(如硝基),通过它们非常迅速地捕获以氧或碳为中心的自由基,并产生比原始自由基更稳定、生化危害性更小的其他自由基来抵抗氧化挑战。在许多情况下,传统上,相对阱容量是根据tert来测量的。-butylhydroperoxide(《)。本讲座介绍了许多重要的自由基(以活性氧、氮和碳为中心的自由基,如HO、NO等)及其在体外和体内应用的生物分析方法,包括液相色谱电化学检测和质谱,气相色谱质谱,毛细管电泳,电子自旋共振和化学发光分析。毛细管区带电泳-安培检测(CZE-AD)是一种简便、灵敏的检测方法;介绍了通过分析其与水杨酸和二羟基苯甲酸的反应产物间接测定OH的方法。这些酸的羟基化自由基产物常被用作自由基研究中的相对测量。准确测定pK(a)值对于正确表征新合成分子具有重要意义。采用CZE法测定其值。开创了Fenton化学、电Fenton化学、光电Fenton化学等新的研究领域,并预见了它们的发展前景。一氧化氮是生理和病理生理中重要的细胞信号分子。建立了一种微芯片毛细管电泳(CE) -电化学(EC)间接检测一氧化氮(NO)的方法。将该反应中形成的亚硝酸盐的数量(通过毛细管电泳分析)与消耗的氧气数量(通过极谱法测量)进行比较。在测量范围内,观察到耗氧量与亚硝酸盐形成量呈线性关系。这些结果表明,极谱法测量与NO反应中消耗的氧气量可以用来估计真实介质中溶解的NO的浓度。极谱法对自由基活性和不同化合物的捕获能力的定量动力学研究也是一种适当的方法。该方法是基于对Fe(III)在自由基源(TBH,过氧化氢)及其陷阱存在下的催化极谱电流的测量。讨论了作者在这一领域的个人贡献。
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