明日叶黄酮类化合物清除羟基自由基活性研究

为了研究明日叶黄酮类化合物对羟基自由基的清除作用,以明日叶（主要取叶片）为原料,用体积分数为65％乙醇提取明日叶总黄酮,测定其总黄酮含量.通过Fenton反应体系产生羟基自由基,利用明日叶提取液中的功能成分黄酮类化合物对羟基自由基的清除作用进行研究.结果表明：明日叶提取物总黄酮质量分数为10.18％,且黄酮类化合物对羟基自由基有较强清除效力,当提取物总黄酮浓度在0.1～1.0 mg/mL范围内,其与清除率呈正相关.明日叶中黄酮类化合物对羟基自由基有较强清除效力,作为天然抗氧化产品开发具有一定价值.     

羟基自由基引发的马来酸酐聚合反应机理AM1研究

用AM1方法计算了马来酸酐、羟基自由基及其加成产物α-羟基丁二酸酐基自由基的电子结构、电荷分布和键级.应用前线轨道理论和成键三原则研究了羟基自由基引发下马来酸酐聚合过程中α-羟基丁二酸酐基自由基活性中间体参与反应的可能性及其自由基聚合反应机理.计算结果表明:马来酸酐基态分子的HOMO和LUMO分别对应于双键CC的成键π-MO和反键π -MO;马来酸酐的羟基自由基加成反应活化能计算值为55 7kJ/mol;马来酸酐在羟基自由基引发下的自由基聚合产物是链式结构,与实验事实相符.     

半枝莲多糖脱色及清除羟基自由基作用的研究

研究了半枝莲多糖的脱色的最佳条件及多糖体外清除羟基自由基的作用,结果表明,从活性炭、中性氧化铝、大孔吸附树脂AB-8、LSA-21和NKA-9等5种脱色剂中筛选出的最佳脱色剂为AB-8,AB-8脱色的最佳条件是pH7,温度40℃,溶液中多糖含量1046.5mg/L,此时多糖保留率为88.446%,脱色率为90.65%;体外清除羟基自由基作用结果表明,半枝莲粗多糖、SBP、SBP1随浓度的升高,其清除作用逐渐增强,SPB2几乎没有清除羟基自由基的能力.     

流动注射光度法测定水中羟基自由基含量

1引言水中羟基自由基(.OH)含量是评价水处理高级氧化工艺处理效率的重要指标。由于.OH的反应活性大、寿命短、存在浓度低,其检测具有一定的难度。文献报道检测.OH的主要方法为采用捕获剂将自由基固化之后进行检测。目前检测羟基自由基的主要方法有自旋捕捉-电子自旋共振波谱(ES     

一种表征羟基自由基的新型荧光探针

表征羟基自由基 (· OH)的方法主要有电子自旋共振法[1] 和芳环羟基化法[2 ,3] 两大类 .电子自旋共振法灵敏度不高 ,且仪器设备昂贵 ,不适于常规分析 .芳环羟基化法操作较简单 ,灵敏度高 ,但芳环羟基化的产物往往不止一种 ,使得定量测定变得复杂 .其它方法如高效液相色谱法[4 ] ,化学发光法[5] 等也有报道 .顺磁性氮氧化合物能有效地清除自由基 [6 ,7] ,同时也是一种芳烃单重激发态的有效猝灭剂 [8,9] .当顺磁性氮氧化合物与荧光分子共价结合 ,所形成的荧光分子 -氮氧自由基复合物 (即自旋标记荧光分子 )仍保留对自由基反应的活性 ,但由于…     

草酸酯类化合物在自由基脱羟基化反应中的研究进展

羟基作为醇类化合物的基本结构单元,广泛存在于药物、天然产物、农药以及精细化学品中.烷基自由基则是自由基化学领域最基础性的合成砌块.因此,将醇转化为烷基自由基,具有基础性的研究价值.通常醇类化合物可以通过Barton-McCombie反应,实现自由基形式的脱羟基化反应,得到烷基自由基.然而传统脱羟基化反应存在诸多缺陷.因此发展一种简洁高效的脱羟基化方法具有重要的现实意义.随着近年来有机化学的发展,自由基脱羟基化反应取得突破性进展.本综述节选其中一部分,着重介绍了草酸酯类化合物在自由基脱羟基化反应中的研究进展和设计原理,对比不同活化策略的反应机理,系统性地总结了邻苯二甲酰亚胺类型草酸酯、草酸单酯和草酸酯类化合物在自由基脱羟基化反应中的共性和个性,展望了自由基脱羟基化反应的未来和趋势.     

二氧化钛光催化体系中的羟基自由基的测定

通过ESR光谱测定表明TiO2悬浮液在紫外光照射下产生羟基自由基氧化物种.羟基自由基氧化酸性桃红(sulforhodamine B,SRB)使其褪色,在565 nm处用分光光度法测定其吸光度值的变化,可间接测定羟基自由基的生成量.确定了体系的最佳实验条件pH为2.5;SRB浓度为2.0×10-5mol/L;TiO2浓度为0.1 g/L;光照时间为12 min.采用抗坏血酸为羟基自由基清除剂,测定了其自由基清除率,表明拟定该体系可作为筛选抗氧化剂的方法之一.     

含羟基取代基的Schiff碱捕获自由基性能

研究了8个含羟基取代基的Schiff碱捕获自由基——ABTS .和DPPH——的性能。结果发现,Schiff碱捕获自由基的性能首先与分子中所含有的羟基的个数有关,随着羟基数目的增多,Schiff碱捕获自由基的能力增强。大的共轭体系以及羟基处于N原子邻位可增强该Schiff碱捕获ABTS .的性能;但对于捕获DPPH来说,只有同时将大的共轭体系与处于N原子邻位的羟基结合在同一分子中,才能表现出较强的捕获DPPH的性能。由此可见,DPPH对于检测Schiff碱中羟基捕获自由基的性能是一种更为专一的试剂。     

羟基自由基在沸石分子筛合成中的作用

沸石分子筛由于具有独特的形选催化作用及可调的酸性, 已成为化学工业中最重要的固体催化材料. 沸石分子筛的合成主要基于碱性条件下的水热晶化, OH^?被认为起到催化硅铝物种的解聚及聚合作用. 近年来, 研究者发现了羟基自由基加速分子筛的水热晶化机制. 通过利用紫外光照射或芬顿反应等物理或化学方法向分子筛合成体系引入羟基自由基, 可以实现沸石分子筛的加速晶化及高硅沸石分子筛的合成. 理论计算结果表明, 羟基自由基可以促进Si—O—Si 键的断裂和重新生成, 从而显著加快分子筛成核并促进硅原子进入骨架. 本综述介绍了羟基自由基在沸石分子筛晶化方面的最新研究进展, 探讨了羟基自由基的主要作用和优势, 并对沸石分子筛合成的羟基自由基路线发展前景进行了展望.     

2’-脱氧腺苷-5’-磷酸与羟基自由基反应所形成的自由基

运用可靠的B3LYP/DZP++方法研究了2'-脱氧腺苷-5'-单磷酸(dAMP)与羟基自由基(HO·)的反应中所产生的20余种自由基. 结果表明, 反应的初始产物包括HO·加成到dAMP碱基C8、C4位上所形成的羟基加合物自由基, 以及dAMP碱基环上氨基的脱氢自由基. 而且,反应最初形成的C4位羟基加合物自由基具有脱水产生dAMP碱基环上氨基脱氢自由基的热力学趋势, 脱水形成的两种氨基脱氢自由基都是强氧化剂.尽管HO·加成到dAMP碱基C2位上所形成的加成产物比C4位的加成产物更稳定, 但dAMP与HO·的氧原子间较强的静电排斥作用却使得HO·难以靠近C2原子, 导致C2位的羟基加成产物难以形成. 上述结论不但与有关实验结果一致, 而且还对一些实验现象作出了合理的解释.     

Effects of polyoxometalate and fluoride on adsorption and photocatalytic degradation of organic dye X3B on TiO2: the difference in the production of reactive species

It has been reported that addition of polyoxometalates (POM) or fluoride anions into the TiO(2) dispersions can significantly enhance the photocatalytic degradation (PCD) of weakly adsorptive organic pollutants in water such as chlorophenol. In this work, however, contradictory effects of POM and fluoride were observed on the PCD of highly adsorptive substrate X3B, an anionic organic dye, under similar conditions. The total rate of X3B PCD, determined by total loss of X3B both in solution and on the catalyst surface, was increased in the presence of fluoride, but the rate was decreased in the presence of POM. In both cases, the dark adsorption of X3B on TiO(2) was greatly decreased, ascribed to competitive adsorption of POM or fluoride that reduces the positive charges on the catalyst surface. The spectral analysis and the kinetic study using tert-butyl alcohol as hydroxyl radical scavenger revealed that the PCD of X3B on naked TiO(2) was predominately initiated by direct hole transfer, whereas addition of POM or fluoride into the TiO(2) dispersions enhanced the degradation of X3B via hydroxyl radical pathway. It is proposed that the surface occupation of POM on TiO(2) accelerates the production of surface-bound hydroxyl radicals, due to enhanced charge separation, whereas the fluoride replacement of surface hydroxyl groups of TiO(2) increases the production of free hydroxyl radicals in solution, due to enhanced hole availability for water oxidation. Assume that the relative reactivity among various active follows the order of free hydroxyl radicals > subsurface holes > surface-bound hydroxyl radicals, the proposal could account for the observed effects of POM and fluoride on the PCD of both weakly and highly adsorptive organic substrates over TiO(2) such as chlorophenol and X3B.     

Detection and characterization of hydroxyl radical adducts by mass spectrometry

The study of the influence of free radicals in the biological process depends primarily on the capacity to detect these reactive species. In this work we have studied the application of mass spectrometry to the identification of hydroxyl radical species. The detection and identification by collisional activation mass-analyzed ion kinetic energy spectrometry (CA-MIKES) of a spin adduct of DMPO with the hydroxyl radical [(DMPO + O) + H]+ (m/z 130) has demonstrated that mass spectrometry can be a powerful tool in the detection and identification of spin adducts of DMPO with hydroxyl radical species. We were also able to detect the capture of secondary free radicals using ethanol by detecting and identifying the corresponding adduct [(DMPO + ethanol) + H]+. Other spin adducts have also been detected and identified. We consider that the use of mass spectrometry is a relevant technique for the detection of free hydroxyl radicals, especially in complex mixtures, since mass spectrometry is able to discriminate these adducts in such situations. Moreover, using this approach, it was possible to identify new spin adducts.     

鸡足山耳蕨总黄酮的提取及抗氧化性研究

研究鸡足山耳蕨中总黄酮的提取及其抗氧化性.采用70％乙醇提取鸡足山耳蕨中总黄酮,用NaNO2Al(NO3)3-NaOH分光光度法测定黄酮含量,将提取液采用Fenton体系、普鲁士蓝法进行体外抗氧化活性研究,用硫代巴比妥酸(TBA)分光光度法研究其对羟自由基·OH引发DNA氧化损伤的抑制作用.结果表明样品中总黄酮含量为4.98％,回收率99.78％( RSD=1.06％,n=5).总黄酮浓度为90μg/mL时,对·OH的清除率可达36.2％;浓度为87.5μg/mL时,对羟自由基引发DNA损伤的抑制率可达93.0％.说明鸡足山蕨中总黄酮对羟自由基有较好的清除能力,对DNA氧化损伤有显著抑制作用.     

SPECTROSCOPIC STUDIES OF CUTANEOUS PHOTOSENSITIZING AGENTS—X. A SPIN-TRAPPING AND DIRECT ELECTRON SPIN RESONANCE STUDY OF THE PHOTOCHEMICAL PATHWAYS OF DAUNOMYCIN AND ADRIAMYCIN

Abstract— Irradiation of daunomycin (or adriamycin) and the spin trap 5,5-dimethyl-l-pyrroline-1-oxide (DMPO) at 490 nm in the presence or in the absence of air generated the hydroxyl radical adduct (DMPO-OH). The observed DMPO-OH signal was not affected by the addition of hydroxyl radical scavengers (ethanol, formate), suggesting that direct trapping of the hydroxyl radical was not involved. The DMPO-OH signal was insensitive to superoxide dismutase and catalase, which ruled out the possibility of superoxide or H₂O₂ involvement. These findings demonstrate that daunomycin (or adriamycin) does not generate hydroxyl radicals or superoxide radical anions when subjected to 490-nm excitation. However, when daunomycin (or adriamycin) was irradiated at 310 nm DMPO adducts derived from two carbon-centered radicals, superoxide and the hydroxyl radical were detected. The superoxide adduct of DMPO was abolished by the addition of SOD, providing unequivocal evidence for the generation of the superoxide anion radical. The daunomycin semiquinone radical, observed upon 310-nm irradiation of daunomycin in the absence of DMPO, appears to be the precursor of the superoxide radical anion. One of the carbon-centered radicals trapped by DMPO exhibited a unique set of hyperfine parameters and was identified as an acyl radical. This suggests that the known photochemical deacylation of daunomycin occurs via a homolytic cleavage mechanism. The free radicals generated photolytically from adriamycin and daunomycin may be involved in the etiology of the skin ulceration and inflammation caused by these drugs. A knowledge of the dependence of these photogenerated radicals on the wavelength of excitation may be important in the development of adriamycin and daunomycin for photodynamic therapy.     

Computational observation of enhanced solvation of the hydroxyl radical with increased NaCl concentration

Classical molecular dynamics simulations with many-body potentials were carried out to quantitatively determine the effect of NaCl salt concentration on the aqueous solvation and surface concentration of hydroxyl radicals. The potential of mean force technique was used to track the incremental free energy of the hydroxyl radical from the vapor, crossing the air-water interface into the aqueous bulk. Results showed increased NaCl salt concentration significantly enhanced hydroxyl radical solvation, which should significantly increase its accommodation on water droplets. This has been experimentally observed for ozone aqueous accommodation with increased NaI concentration, but, to our knowledge, no experimental study has probed this for hydroxyl radicals. The origin for this effect was found to be very favorable hydroxyl radical-chloride ion interactions, being stronger than those for water-chloride.     

Radical identification by liquid chromatography/thermospray mass spectrometry

Radical adducts of 5,5-dimethyl-1-pyrroline N-oxide (DMPO) with hydroxyl, methanol-derived, and ethanol-derived radicals were detected by a combination of liquid chromatography with either electron paramagnetic resonance or thermospray mass spectrometry (LC/EPR or LC/TSP-MS) in the Fenton system (with methanol or ethanol). One radical adduct was observed in the reaction of DMPO with the hydroxyl radical or the methanol-derived radical, while two adducts were detected in the reaction of DMPO with ethanol-derived radicals. The LC/TSP-MS spectra showed quasi-molecular ions [M + H]+ at m/z 146 and m/z 160 for the methanol-derived and ethanol-derived radical adducts, respectively, and an apparent molecular ion M+ at m/z 130 for the hydroxyl radical adduct. Use of methyl-D3 alcohol (CD3OH) and ethyl-D5 alcohol (CD3CD2OH) indicated that carbon-centered radicals are formed. Experiments with partially deuterated ethanol (CD3CH2OH and CH3CD2OH) indicated that the two adducts observed in the reaction of DMPO with ethanol-derived radicals correspond to the two diastereomeric adducts of DMPO with the alpha-hydroxyethyl free radical.     

Theoretical Studies on the Reactions of 1,1,2,2,3,3,4‐Heptafluorocyclopentane with Hydroxyl and Hydrogen Free Radicals

1,1,2,2,3,3,4‐Heptafluorocyclopentane (F7A) has considerable potential to be a new halon replacement due to its environmental friendliness and low‐toxicity. However, the reaction processes of F7A with hydroxyl and hydrogen free radicals, which are of great importance for investigating its fire suppression mechanisms, are still unclear. In this paper, ab inito and density functional theory are used to deduce the possible reaction pathways for the reactions of F7A with hydroxyl and hydrogen free radicals at the CCSD/cc‐pVDZ//B3LYP/6‐311++G (d,p) level of theory. Two distinct reaction pathways including ten elementary reaction channels for F7A with hydroxyl free radical, and five distinct reaction pathways including twenty elementary reaction channels for F7A with hydrogen free radical are investigated. The geometries, vibrational frequencies and reaction energy barriers are also determined. Based on the calculated results, the possible reaction mechanisms are proposed and discussed. The most feasible reaction channel for F7A with hydroxyl free radical is that leads to CH(OH)CH₂(CF₂)₃+·F, and the most feasible reaction channel for F7A with hydrogen free radical is that leads to (CF₂)₃CH₂CH·+HF. The study is helpful to further study its fire suppression mechanisms and promote it to be a new generation of halon replacement.     

In situ DNA oxidative damage by electrochemically generated hydroxyl free radicals on a boron-doped diamond electrode

In situ DNA oxidative damage by electrochemically generated hydroxyl free radicals has been directly demonstrated on a boron-doped diamond electrode. The DNA-electrochemical biosensor incorporates immobilized double-stranded DNA (dsDNA) as molecular recognition element on the electrode surface, and measures in situ specific binding processes with dsDNA, as it is a complementary tool for the study of bimolecular interaction mechanisms of compounds binding to DNA and enabling the screening and evaluation of the effect caused to DNA by radicals and health hazardous compounds. Oxidants, particularly reactive oxygen species (ROS), play an important role in dsDNA oxidative damage which is strongly related to mutagenesis, carcinogenesis, autoimmune inflammatory, and neurodegenerative diseases. The hydroxyl radical is considered the main contributing ROS to endogenous oxidation of cellular dsDNA causing double-stranded and single-stranded breaks, free bases, and 8-oxoguanine occurrence. The dsDNA-electrochemical biosensor was used to study the interaction between dsDNA immobilized on a boron-doped diamond electrode surface and in situ electrochemically generate hydroxyl radicals. Non-denaturing agarose gel-electrophoresis of the dsDNA films on the electrode surface after interaction with the electrochemically generated hydroxyl radicals clearly showed the occurrence of in situ dsDNA oxidative damage. The importance of the dsDNA-electrochemical biosensor in the evaluation of the dsDNA-hydroxyl radical interactions is clearly demonstrated.     

肉桂酸类抗氧化剂结构—活性关系研究

利用邻菲罗啉化学发光法研究了中草药有效成分氯原酸、连翘酯甙等肉桂酸类抗氧化剂对HO·的清除作用。量子化学计算[3-21G、B3LYP/6-31G(d)]对实验结果给予了合理的解释。 计算结果显示抗氧化剂形成半醌式自由基前后的能量之差(ΔE)能较好地衡量其活性的高低;抗氧化剂半醌式自由基与邻位取代基形成分子内氢键或通过共振形成邻苯醌可使内能降低,半醌式自由基更稳定;脱氢酚羟基的对位含有给电子取代基团时,可使半醌式自由基易形成并提高其稳定性。