Reverse-direction (5′→3′) synthesis of oligonucleotides containing a 3′-S-phosphorothiolate linkage and 3′-terminal 3′-thionucleosides

Abstract

The synthesis of oligodeoxynucleotides containing 3'-thionucleosides has been explored using a reverse-direction (5'-->3') approach, based on nucleoside monomers which contain a trityl- or dimethoxytrityl-protected 3'-thiol and a 5'-O-phosphoramidite. These monomers are relatively simple to prepare as trityl-based protecting groups were introduced selectively at a 3'-thiol in preference to a 5'-hydroxyl group. As an alternative approach, trityl group migration could be induced from the 5'-oxygen to the 3'-thiol function. 5'-->3' Synthesis of oligonucleotides gave relatively poor yields for the internal incorporation of 3'-thionucleosides [to give a 3'-S-phosphorothiolate (3'-SP) linkage] and multiple 3'-SP modifications could not be introduced by this method. However, the reverse direction approach provided an efficient route to oligonucleotides terminating with a 3'-thionucleoside. The direct synthesis of these thio-terminating oligomers has not previously been reported and the methods described are applicable to 2'-deoxy-3'-thionucleosides derived from thymine, cytosine and adenine.