What affects the effect of 2'-alkoxy modifications? 1. Stabilization effect of 2'-methoxy substitutions in uniformly modified DNA oligonucleotides.

The thermostability of hybrid duplexes with uniformly 2'-methoxy modified DNA strands (D'R and RD'), their unmodified DNA:RNA counterparts (DR and RD), and corresponded RNA:RNA (RR) duplexes for six sequences with different GC and deoxypyrimidine (dPy) content was measured. The linear correlation between the total stabilization effect of 2'-methoxy modifications (Delta DeltaG(o)37(D'R-DR)) and the relative stability of corresponding unmodified hybrids compared to the RR counterparts (Delta DeltaG(o)37(RR-DR)) suggests that the initial conformational and the thermodynamic state of the "parent" unmodified hybrid governs the effect of 2'-methoxy (and may be other 2'-alkoxy) modifications whose mechanism of action includes an S --> N conformational shift resulting in an RNA-like A-form duplex. We also found a correlation between the "hydrophobic" part of the total effect (Delta DeltaG(o)37(D'R-RR)) and the dA fraction in the modified DNA strand, suggesting that the "hydrophobic" effect of the 2'-methoxy groups results mainly from intraresidue steric effects increasing rigidity of the modified sugar rings. The correlations observed enabled us to predict the stability of hybrids with 2'-methoxy modified DNA strands for any sequence except for sequences with (dU)10 and (dA)10 strings.