Preparation of Glycosyl Phosphates

Figure 4. Preparation of glycosyl phosphates by the oxazoline procedure.

Application of H-phosphonate approach in the preparation of glycosyl 1-phosphates... 

In a similar way glycosyl diphenyl phosphates have been used in the stereoselective preparation of glycosyl azides on SN2-typc displacement of the phosphate group by sodium azide.27... 

Several chemical and enzymatic methods are available for the synthesis of glycosyl phosphates. The required nucleoside triphosphates (NTPs) are most conveniently prepared by enzymatic routes. In general, these methods involve the sequential use of two kinases to transform NMPs to NTPs, by the corresponding NDPs (Fig. 2, see a recent review [12] for more details). 

The typical and widely used procedure for the activation of the anomeric centre involves the initial preparation of acylated glycosyl halides, which are then subjected to SN2-like displacement by a phosphate anion in the presence of a silver-containing promoter and a base. 

Deoxy-a-D-ribosyl-l-phosphate 20, a key substrate in the preparation of 2 -deoxynucleosides, was stereoselectively prepared by crystallization-induced asymmetric transformation in the presence of an excess of ortho-phosphoric acid and tri( -butyl)amine under strictly anhydrous conditions (Scheme 2).7 Initial Sn2 displacement of Cl in ot-glycosyl chloride 16 by phosphoric acid resulted in a 1 1 a/p anomeric mixture of 17 and 18 due to the rapid anomerisation of the a-chloride in polar solvents. Under acidic conditions, in the presence of an excess of H3P04, an equilibration between the a and p anomers gradually changed in favour of the thermodynamically more stable a-counterpart. By selective crystallization of the mono tri( -butyl)ammonium salt of the a-phosphate from the mixture, the equilibrium could be shifted towards the desired a-D-ribosyl phosphate 18 (oc/p = 98.5 1.5), which was isolated as bis-cyclohexylammonium salt 19 and deprotected to furnish compound 20. 

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