富勒醇清除OH自由基的ESR研究

富勒醇清除·ＯＨ自由基的ＥＳＲ研究祝严师，孙大勇，刘桂珍，刘子阳，詹瑞云，刘淑莹（中国科学院长春应用化学研究所应用谱学开放实验室，长春，１３００２２）关键词Ｃ_（６０），富勒醇，ＯＨ自由基，自旋捕捉，ＥＳＲ生物体内的许多现象均涉及到自由基反应，现已发?..     

Distinguishing the 5,5-dimethyl-1-pyrroline N-oxide (DMPO)-OH radical quenching effect from the hydroxyl radical scavenging effect in the ESR spin-trapping method

The spin-trapping method has been widely accepted to measure the hydroxyl radical scavenging activity in electron spin resonance (ESR) spectroscopy, however, the disappearance of the trapped signal of the 5,5-dimethyl-1-pyrroline N-oxide (DMPO)-OH radical may lead to an erroneous conclusion, as the decreased signal must result from the rapid quenching of the DMPO-OH formed. The DMPO-OH quenching activity of a compound can be measured by tracing the signal decay resulting from its addition after the cessation of DMPO-OH formation. It was found that Fe(II) ions could quench the DMPO-OH radical quite rapidly, and phosphate ions could enhance the DMPO-OH radical quenching activity of the Fe(II) ions.     

高等植物叶绿体中光诱导生成NO的ESR证据

NO分子在生物细胞体系中是一个十分重要的信使分子,它具有调节细胞凋亡、松弛平滑肌、抑制血小板聚集与黏附、抑制病原体和肿瘤生长等多种生理功能^[1,2],因而备受生物学家的关注.众所周知,动物细胞中NO主要来源于一氧化氮合酶(NOS)的表达^[3];然而,直到最近才有研究证明植物细胞中存在参与调节植物生长和激素信号转导的NOS基因^[4].一般认为植物细胞中NO主要来源于硝酸盐还原酶(NR)^[5].我们曾在高等植物光系统中研究发现了与电子传递相关的活性氧生成机制^[6～8],但其间是否也会通过光诱导电子传递产生NO尚不清楚.Kozlov等^[9]曾报道在小鼠线粒体内存在与亚硝酸盐还原酶功能类似的还原型烟酰胺腺嘌呤二核苷酸(NADH)诱导电子传递生成NO的反应,本文采用电子自旋共振(ESR)方法验证了高等植物叶绿体内光诱导电子传递可产生NO的设想.     

A reaction kinetics model of water sonolysis in the presence of a spin-trap

The time development of the concentration of a spin-trapped OH radical was studied by electron spin resonance at various sound intensities and various 5,5-dimethyl-1-pyrroline N-oxide (DMPO) concentrations in water sonolysis. The lifetime of the spin-trapped OH radical was also studied, and factors governing sonolysis are discussed. We found that the production of spin-trapped OH radical increases with increasing ultrasound intensity. The lifetime of a spin-trapped OH radical decreases linearly with increase in sonication time. This result suggests that an unknown scavenger is produced by ultrasound. Based on the above results, we suggested a model of the reaction kinetics and estimated the production rate of OH radical from this model.