Al. Margolin et al., AMP-DEAMINASE AS A NOVEL PRACTICAL CATALYST IN THE SYNTHESIS OF 6-OXOPURINE RIBOSIDES AND THEIR ANALOGS, Journal of organic chemistry, 59(24), 1994, pp. 7214-7218
Adenylic acid deaminase from Aspergillus niger (AMP deaminase; AMPDA;
EC 3.5.4.6) has been introduced as a novel practical catalyst in the s
ynthesis of 6-oxopurine riboside and their analogs. This enzyme has a
very broad substrate specificity and has been used on a preparative sc
ale for deamination of several derivatives of adenosine including phos
phorylated, cyclic, carbocyclic as well as acyclic analogs. In additio
n, AMPDA catalyzes dechlorination and demethoxylation of the purine ri
bosides. Overall substrate specificity of AMPDA is much broader than t
hat of adenosine deaminase which can also be used for the synthesis of
6-oxopurine ribosides. Although the stereoselectivity of AMPDA is mod
est, this enzyme has successfully been used in the synthesis of a nove
l antiviral agent, carbovir phosphonate (14), after the carbocyclic co
mponent was resolved via lipase-catalyzed hydrolysis or acylation.