Synthesis and Properties of Oligonucleotides Having a Phosphorus Chiral Center by Incorporation of Conformationally Rigid 5‘-Cyclouridylic Acid Derivatives

Abstract

This paper describes the design and synthesis of a conformationally rigid dimer building block Umpc3Um as a chiral center at the phosphate group with the S/N junction where c3 refers to a propylene bridge linked between the uracil 5-position and 5'-phosphate group of pUm. The extensive H1 NMR analysis of Umpc3Um suggests that the 5'-upstream Um has predominantly a C2'-endo conformation and the pc3Um moiety exists almost exclusively in a C3'-endo conformation. The absolute configuration of the diastereomers Umpc3Um(fast) (8a) and Umpc3Um(slow) (8b) was determined by CD spectroscopy as well as computer simulations. The oligonucleotides U4[Umpc3Um(fast)]U4 (13a) and U4[Umpc3Um(slow)]U4 (13b) incorporating 8a and 8b were synthesized by use of the phosphoramidite building blocks 11a and 11b, respectively. The Tm experiments of the duplexes formed between these modified oligomers and the complementary oligomers imply that the modified oligomer 13a having Umpc3Um(fast) has the Sp configuration at the chiral phosphoryl group.