Single-stranded guanine-rich RNA sequences have a propensity to fold into compact G-quadruplexes (RG4s). The conformational transitions of these molecules provide an important way to regulate their biological functions. Here, we examined the stability and conformation of an RG4-forming sequence identified near the end of human telomerase RNA. We found that a proximal single-stranded (ss) RNA significantly impairs RG4 stability at physiological K concentrations, resulting in a reduced RG4 rupture force of ∼ 24.4 pN and easier accessibility of the G-rich sequence. The destabilizing effect requires a minimum of six nucleotides of ssRNA and is effective at either end of RG4. Remarkably, this RG4-forming sequence, under the influence of such a proximal ssRNA, exhibits interconversions between at least three less stable RG4 conformers that might represent potential intermediates along its folding/unfolding pathway. This work provides insights into the stability and folding dynamics of RG4 that are essential for understanding its biological functions.
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