Phosphodiester and N-glycosidic bond cleavage in DNA induced by 4-15 eV electrons

摘要

Thin molecular films of the short single strand of DNA,GCAT,were bombarded under vacuum by electrons with energies between 4 and 15 eV.Ex vacuo analysis by high-pressure liquid chromatography of the samples exposed to the electron beam revealed the formation of a multitude of products.Among these,12 fragments of GCAT were identified by comparison with reference compounds and their yields were measured as a function of electron energy.For all energies,scission of the backbone gave nonmodified fragments containing a terminal phosphate,with negligible amounts of fragments without the phosphate group.This indicates that phosphodiester bond cleavage by 4-15 eV electrons involves cleavage of the C-O bond rather than the P-O bond.The yield functions exhibit maxima at 6 and 10-12 eV,which are interpreted as due to the formation of transient anions leading to fragmentation.Below 15 eV,these resonances dominate bond dissociation processes.All four nonmodified bases are released from the tetramer,by cleavage of the N-glycosidic bond,which occurs principally via the formation of core-excited resonances located around 6 and 10 eV.The formation of the other nonmodified products leading to cleavage of the phosphodiester bond is suggested to occur principally via two different mechanisms: (1) the formation of a core-excited resonance on the phosphate unit followed by dissociation of the transient anion and (2) dissociation of the CO bond of the phosphate group formed by resonance electron transfer from the bases.In each case,phosphodiester bond cleavage leads chiefly to the formation of stable phosphate anions and sugar radicals with minimal amounts of alkoxyl anions and phosphoryl radicals.