Abstract
The stability of the human telomere G-quadruplex (G4) is directly linked to cancer disease. The human telomere is mostly associated with the flanking nucleobases, which can affect the stability of G4. Hence, in this study, the effect of the flanking nucleobases in the context of their chemical nature, number, and position on the structure and stability of G4 has been investigated in varying concentrations of KCl mimicking the normal and cancer KCl microenvironments. The addition of flanking nucleobases does not alter the G4 topology. However, the presence of merely a single flanking nucleobase destabilizes the telomeric G4. This destabilizing effect is more prominent for thymine than adenine flanking nucleobase, probably due to the formation of the intermolecular G4 topology by thymine. Interestingly, the change in the stability of the telomeric G4 in the presence of thymine flanking nucleobase is sensitive to the concentration of KCl relevant to the normal and cancerous microenvironments, in contrast to adenine. Flanking nucleobases have a greater impact at the 5' end compared to the 3' end, particularly noticeable in KCl concentrations resembling the normal microenvironment rather than the cancerous one. These findings indicate that the effect of the flanking nucleobases on telomeric G4 is different in the KCl salt relevant to normal and cancerous microenvironments. This study may be helpful in attaining molecular-level insight into the role of G4 in telomeric length regulation under normal and cancerous KCl salt conditions.
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