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Synthesis of d(GC) and d(CG) octamers containing alternating phosphorothioate linkages: effect of the phosphorothioate group on the B-Z transition

Overview of Cosstick R et al.

AuthorsCosstick R  Eckstein F  
Affiliationnan  
JournalBiochemistry
Year 1985

Abstract


The synthesis of four oligonucleotides containing alternating phosphorothioate groups, (Rp)-and (Sp)-d[G(p(S)CpG)3p(S)C] and (Rp)- and (Sp)-d[C(p(S)GpC)p(S)G], by the phosphite approach is described. Silica gel to which 2'(3')-O-acetyluridine and 5'-succinyl groups were bound served as support for oligomer synthesis. The syntheses were carried out by dimer addition with presynthesized diastereomerically pure dinucleoside phosphorothioates as building blocks. The products were characterized by 31P NMR, nuclease P1 digestion, and oxidation to the corresponding all-phosphate-containing oligomers. The ability of each oligomer to adopt the Z conformation under high-salt conditions was screened for by circular dichroism spectroscopy. Both (Rp)-d[G(p(S)CpG)3p(S)C] and (Sp)-d[C(p(S)GpC)3p(S)G] are capable of forming Z-type structures at high NaCl concentrations. In the case of (Rp)-d[G(p(S)CpG)3p(S)C] where a phosphorothioate of the Rp configuration occurs 5' to a deoxycytidine residue, the B----Z transition is potentiated in comparison to the unmodified oligomer. (Sp)-d[G(p(S)CpG)3p(S)C] and (Rp)-d[C(p(S)GpC)3p(S)G] retain the B conformation even at high NaCl concentration.