Sequence dependent hole evolution in DNA.

The paper examines thedynamical behavior of a radical cation(G(+*)) generated in adouble stranded DNA for differentoligonucleotide sequences. The resonancehole tunneling through an oligonucleotidesequence is studied by the method ofnumerical integration of self-consistentquantum-mechanical equations. The holemotion is considered quantum mechanicallyand nucleotide base oscillations aretreated classically. The results obtaineddemonstrate a strong dependence of chargetransfer on the type of nucleotidesequence. The rates of the hole transferare calculated for different nucleotidesequences and compared with experimentaldata on the transfer from (G(+*))to a GGG unit.