Stability of intrastrand hairpin structures formed by the CAG/CTG class of DNA triplet repeats associated with neurological diseases

Expansions of trinucleotide repeats in DNA, a novel source of mutations associated with human disease, may arise by DNA replication slippage initiated by hairpin folding of primer or template strands containing such repeats, To evaluate the stability of single-strand folding by repeating triplets of DNA bases, thermal melting profiles of (CAG)(10), (CTG)(10), (GAC)(10) and (GTC)(10) strands are determined at law and physiological salt concentrations, and measurements of melting temperature and enthalpy change are made in each case, Comparisons are made to strands with three times as many repeats, (CAG)(30) and (CTG(30). Evidence is presented for stable intrastrand folding by the CAG/CTG class of triplet repeats, Relative to the GAC/GTC class not associated with disease, the order of folding stability is found to be CTG > GAC approximate to CAG > GTC for 10 repeats, Surprisingly, the folds formed by 30 repeats of CTG or CAG have no higher melting temperature and are only 40% more stable in free energy than those formed by 10 repeats, This finding suggests that triplet expansions with higher repeat number may result from the formation of more folded structures with similar stability rather than fewer but longer folds of greater stability.