A novel competition dialysis method was used to study the structural selectivity of the nucleic acid binding of NB-506, a promising indolocarbazole anticancer agent. A pronounced preference for NB-506 binding to the DNA triplex poly [dA]:(poly[dT]) 2 was observed among potential binding to 12 different nucleic acid structures and sequences. Structures included in the assay ranged from single-stranded DNA, through a variety of right-handed DNA duplexes, to multistranded triplex and tetraplex forms. RNA and left-handed Z DNA were also included in the assay. The preferential binding to triplex was confirmed by UV melting experiments. The novel and unexpected structural selectivity shown by NB-506 may arise from a complementary shape between its extended aromatic ring system and the planar triplex stack.