化学
质子化
激进的
磷酸盐
反应速率常数
放射分析
水溶液
烷基化
氢原子萃取
药物化学
部分
光化学
立体化学
有机化学
动力学
催化作用
离子
量子力学
物理
作者
Günter Behrens,G. Koltzenburg,A. Ritter,D. Schulte‐Frohlinde
标识
DOI:10.1080/09553007814550051
摘要
SummaryThe e.s.r. spectra of 1-yl, 2-yl and 3′-yl methoxyethyl phosphate radicals derived from CH3OCH2CH2-OPO3H2 by hydrogen abstraction have been measured in aqueous solutions and the hyperfine constants determined. The coupling constants vary strongly with protonation or alkylation of the phosphate group.The 2-yl radicals eliminate phosphate. The rate-constants for the elimination (ke) have been estimated by e.s.r. measurements and by product studies as a function of pH using 60Co γ-radiolysis. The ke values vary from ∼0·3 s−1 for the CH3OĊHCH2OPO—3 radical and ∼103 s−1 for CH3OĊHCH2OPO3H−, to ∼3 × 106 s−1 for CH3OĊHCH2OPO3H2. Alkylation of the phosphate group increases the elimination rate-constant to a similar extent as protonation. The results support a recent mechanism which described the OH-radical-induced single-strand breaks of DNA in aqueous solution starting from the C-4′ radical of the sugar moiety. It is further concluded the C-4′ radical of DNA eliminates the 3′-phosphate group faster than the 5′-phosphate group.
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