<p>Hopping along DNA</p>

gb-spotlight-20000713-02 GBJ Research news <p>Hopping along DNA</p> Wells William wells@biotext.com Genome Biology 1465-6906 2000 1 spotlight-20000713-02 10.1186/gb-spotlight-20000713-02 13 07 2000 2000 BioMed Central Ltd

The rate at which electrons and holes move along DNA is sufficient to prevent strand-cleavage reactions, but too slow to make DNA a useful molecular wire.

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Oxidative damage yields isolated electrons and their corresponding 'holes' that can migrate along DNA. In the 6 July Nature Lewis et al. determine rate constants of ~5x107 s-1 and 5x106 s-1, respectively, for forward and return hole transport from a single guanine base to a double guanine base across a single adenine (Nature 2000, 406:51-53). These rates mean that electrons do not linger long enough to participate in strand-cleavage reactions. But the electrons move too slowly to avoid charge recombination, so DNA cannot act as a useful molecular wire.

Distance-dependent electron transfer in DNA hairpins. 9235887 http://www.nature.com/nature/ Nature