Manganese water-soluble porphyrin senses DNA conformation.

We have determined the sites that are preferentially cleaved by Mn(T4MPyP) (where T4MPyP is the dianion of 5, 10, 15, 20, tetrakis (4-N-methylpyridine)porphyrin) on synthetic DNAs and on both intrinsically curved and average-shaped natural DNA sequences. On the basis of cleavage selectivity and of DNase I footprinting we show that the recognition specificity by this compound is based on steric properties: the preferred conformation is a DNA minor groove narrower than average and dimensionally defined. This conclusion is reached on the basis of: (i) the localization of the preferential cleavage sites at the 3' extremity of short A-tracts, known to undergo minor groove directional narrowing; (ii) the effects of temperature on cleavage specificity on curved sequences; (iii) the localization of cleavage sites in synthetic constructs whose crystal and solution structure was previously defined, and in programmed sequence variants thereoff; (iv) the effects of base substitutions on cleavage efficiency; (v) DNase I footprinting analysis. Several of these evidences argue against the possibility that Mn(T4MPyP)/DNA site selection occurs on the basis of electrostatic potential effects.Mn(T4MPyP) provides a tool for the analysis of DNA conformation whose selectivity is complementary to that of DNase I and hydroxyl radicals.