Mishra B, Sharma A, Naumov S, Priyadarsini K I
Radiation and Photochemistry Division, Bhabha Atomic Research Centre, Trombay, Mumbai-400085, India.
J Phys Chem B. 2009 May 28;113(21):7709-15. doi: 10.1021/jp900322z.
Pulse radiolysis studies on hydroxyl (OH) radical reactions of selenomethionine (SeM), a selenium analogue of methionine, were carried out, and the resultant transient radical cations and their subsequent reactions have been reported. At pH<3, the >Se-OH radical adducts produced on reaction of SeM with OH radical were converted to selenium centered radical cations (Se+M), which react with another molecule of SeM to form dimer radical cation M(Se therefore Se)M+. At pH 7, the >Se*-OH radical adducts were converted to a monomer radical of the type (Se therefore N)M+ that acquires intramolecular stability through interaction with the lone pair of the N atom and this radical is denoted as SeM*+. SeM*+ decayed by first order kinetics, and the reduction potential of the couple SeM*+/SeM was determined to be 1.21+/-0.05 V vs NHE at pH 7. SeM*+ oxidized ABTS2- and TMPD with rate constants of (2.5+/-0.1)x10(8) and (6.1+/-0.2)x10(8) M(-1) s(-1), respectively, and reacted with hydroxide ion with a rate constant of (3.8+/-0.9)x10(5) M(-1) s(-1). SeM*+ reacts with molecular oxygen, and the rate constant for this reaction was determined to be (4.3+/-0.2)x10(8) M(-1) s(-1); similar reaction with methionine could not be observed experimentally. Like methionine radical cations, SeM*+ undergoes decarboxylation, although with lesser yield, to produce reducing 3-methyl-selenopropyl amino radicals (referred as alpha-amino radicals). The formation of these radicals was confirmed both by the estimation of the liberated CO2 and by one-electron reduction of MV2+, thionine, and PNAP. These results have been supported by quantum chemical calculations. Implications of these results in the biological role of SeM have also been briefly discussed.
对蛋氨酸的硒类似物硒代蛋氨酸(SeM)与羟基(OH)自由基反应进行了脉冲辐解研究,并报道了生成的瞬态自由基阳离子及其后续反应。在pH<3时,SeM与*OH自由基反应生成的>Se-OH自由基加合物转化为以硒为中心的自由基阳离子(Se*+M),其与另一分子的SeM反应形成二聚体自由基阳离子M(Se因此Se)M+。在pH 7时,>Se*-OH自由基加合物转化为(Se因此N)M+类型的单体自由基,该自由基通过与N原子的孤对相互作用获得分子内稳定性,此自由基记为SeM*+。SeM*+按一级动力学衰变,在pH 7时,SeM*+/SeM电对的还原电位测定为相对于标准氢电极(NHE)为1.21±0.05 V。SeM*+氧化ABTS2-和TMPD的速率常数分别为(2.5±0.1)×10(8)和(6.1±0.2)×10(8) M(-1) s(-1),与氢氧根离子反应的速率常数为(3.8±0.9)×10(5) M(-1) s(-1)。SeM*+与分子氧反应,该反应的速率常数测定为(4.3±0.2)×10(8) M(-1) s(-1);实验中未观察到蛋氨酸有类似反应。与蛋氨酸自由基阳离子一样,SeM*+也会发生脱羧反应,尽管产率较低,生成还原性的3-甲基-硒代丙基氨基自由基(称为α-氨基自由基)。通过对释放的CO2的估算以及对MV2+、硫堇和PNAP的单电子还原,证实了这些自由基的形成。这些结果得到了量子化学计算的支持。还简要讨论了这些结果对SeM生物学作用的影响。
