Abstract
Thermodynamic data regarding the influence of P-chirality on stability of duplexes formed between phosphorothioate DNA oligonucleotides (of either stereo-defined all-R(P) or all-S(P) or random configuration at the P atoms) and complementary DNA or RNA strands are presented. Measured melting temperatures and calculated DeltaG(37)(o) values showed that duplexes formed by PS-DNA oligomers with DNA strands are less stable than their unmodified counterparts. However, relative stability of the duplexes ([all-R(P)]-PS-DNA/DNA vs [all-S(P)]-PS-DNA/DNA) depends on their sequential composition rather than on the absolute configuration of PS-oligos, contrary to the results of theoretical considerations and molecular modeling reported in the literature. On the other hand, for all six analyzed pairs of diastereomers, the [all-R(P)]-PS isomers form more stable duplexes with RNA templates, but the origin of stereodifferentiation depends on the sequence with more favorable entropy and enthalpy factors which correlated with dT-rich and dA/dG-rich PS-oligomers, respectively.
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