Diester and Triester Methods

In the diester method a deoxynucleoside-5 -monophosphate is condensed with the 3 -OH group of a deoxynucleotide to produce a 3, 5 -phosphodiester. This is illustrated by a general method for dinucleotide synthesis developed by H.G. Khorana (K.L. Agarwal, 1976). One N- 

A major problem in the development of phosphotriester syntheses has been the lack of appropriate condensing agents. DCC cannot be used, because it will not activate phosphodi- 

The ideal phosphorylating reagents for phosphodiester syntheses should meet the following criteria  

In the 1,3,2-dioxaphosphole method a bis(2-butene-2,3-diyl) pyrophosphate is used as the condensing agent. It allows two successive esterifications of one phosphate group to be performed without additional activation. First a 5 -O-protected nucleoside is added in methylene chloride in the second reaction an unprotected nucleoside can be used, since only the 3 OH group is able to attack the cyclic enediol 3 -nucleosidyl phosphotriester. Protected dinucleoside triesters are obtained in 80% yield. Removals of protective groups, methoxytrityl by means of trifluoroacetic acid in methylene chloride and 1-methylacetonyl by aqueous triethyl-amine, also give about 80% yield (F. Ramirez, 1975, 1977). 

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