Abstract

Abstract α-Alkoxyalkyl radicals with a leaving group L = Cl or OCOCH 3 in β-position are produced by H-abstraction from the corresponding saturated substrates by · OH, SO · 4 - or (CH 3 ) 3 CO · radicals. From ESR spectroscopic observations it is concluded that in aqueous solution at pH 5 -9 the following fast hydrolysis reactions take place: The rate constants of these reactions and for the hydrolysis of CH 3 O-ĊH-CH 2 Cl are k ≥ 10 6 s -1 , whereas the rate constant for CH3O-ĊH-CH 2 OCOCH 3 was determined to be ≈ 2 × 10 3 s -1 at room temperature. The radicals with L = Cl cannot be scavenged by O 2 which fact leads to a value of k ≥ 2 × 10 -7 s -1 . α-Alkoxyalkene radical cations are assumed as intermediates in the hydrolysis reactions. The radicals with L = OCOCH 3 and the radical CH 3 O--ĊH-CH 2 Cl are observable in acetone solution ESR spectroscopically. In aqueous solution at pH below 3 proton catalyzed reactions are observed by ESR spectroscopy: Radicals resulting from H-abstraction at the CH 3 O-groups of the substrates or at the 5-positions of the cyclic ethers are also observed. The ESR parameters and the pH-ranges of existence of the above radicals are given. Support of the reported reactions comes from quantitative analysis of stable products such as H + , Cl - or CH 3 OH after 60 Co-γ-irradiation of N 2 O saturated aqueous solutions of the substrates. The behaviour of the radicals is used as a model to describe a modified version of the degradation of DNA-4′ radicals in aqueous solution in the absence of oxygen.