Extrahelical cytosine bases in DNA duplexes containing d[GCC]n·d[GCC]n repeats: detection by a mechlorethamine crosslinking reaction

The cytosine–cytosine (C–C) pair is one of the least stable DNA mismatch pairs. The bases of the C–C mismatch are only weakly hydrogen bonded, and previous work has shown that, in certain sequence contexts, they can become unstacked from the core helix, and adopt an ‘extrahelical’ location. Here, using DNA duplexes with d[GCC]_n·d[GCC]_n fragments containing C–C mismatches in a 1,4 bp relationship, we show that cytosine bases of different formal mismatch pairs can be crosslinked by mechlorethamine. For example, in the duplex d[CTCTCGCCGCCGCCGTATC]·d[GATACGCCGCCGCCGAGAG], where underlined cytosine bases are present as the formal C–C mismatch pairs C₇–C₃₂, C₁₀–C₂₉ and C₁₃–C₂₆, we show that two mechlorethamine crosslinks form between C₁₃ and C₂₉ and between C₁₀ and C₃₂, in addition to crosslinks at C₇–C₃₂, C₁₀–C₂₉ and C₁₃–C₂₆ (we have reported previously the crosslinking of formal C–C pairs by mechlorethamine). We interpret the formation of the C₁₃–C₂₉ and C₁₀–C₃₂ crosslinks as evidence of an extrahelical location of the crosslinkable cytosines. Such extrahelical cytosine bases have been observed previously for a single C–C mismatch pair (in the so-called E-motif conformation). In the E-motif, the extrahelical cytosines are folded back towards the 5′-end of the duplex, consistent with our crosslinking data, and also consistent with the absence of C₇–C₂₉ and C₁₀–C₂₆ crosslinks in the current work. Hence, our data provide evidence for an extended E-motif DNA (eE-DNA) conformation in short d[GCC]_n·d[GCC]_n repeat fragments, and raise the possibility that such structures might occur in much longer d[GCC]_n·d[GCC]_n repeat tracts.