Interruption of the fragile X syndrome expanded sequence d(CGG)(n) by interspersed d(AGG) trinucleotides diminishes the formation and stability of d(CGG)(n) tetrahelical structures

Fragile X syndrome is caused by expansion of a d(CGG) trinucleotide repeat sequence in the 5′ untranslated region of the first exon of the FMR1 gene. Repeat expansion is thought to be instigated by formation of d(CGG)_n secondary structures. Stable FMR1 d(CGG)_n runs in normal individuals consist of 6–52 d(CGG) repeats that are interrupted every 9–11 triplets by a single d(AGG) trinucleotide. By contrast, individuals having fragile X syndrome premutation or full mutation present >54–200 or >200–2000 monotonous d(CGG) repeats, respectively. Here we show that the presence of interspersed d(AGG) triplets diminished in vitro formation of bimolecular tetrahelical structures of d(CGG)₁₈ oligomers. Tetraplex structures formed by d(CGG)_n oligomers containing d(AGG) interspersions had lower thermal stability. In addition, tetraplex structures of d(CGG)₁₈ oligomers interspersed by d(AGG) triplets were unwound by human Werner syndrome DNA helicase at rates and to an extent that exceeded the unwinding of tetraplex form consisting of monotonous d(CGG)₁₈. Diminished formation and stability of tetraplex structures of d(AGG)-containing FMR1 d(CGG)_2–50 tracts might restrict their expansion in normal individuals.