15176-29-1Relevant articles and documents
Importance of 3′-hydroxyl group of the nucleosides for the reactivity of thymidine phosphorylase from Escherichia coli
Hatano, Akihiko,Harano, Aiko,Kirihara, Masayuki
, p. 232 - 233 (2006)
Thymidine phosphorylase in phosphate buffer catalyzed the conversion of thymidine to unnatural nucleosides. The 3′-OH, but not the 5′-OH of ribosyl moiety is necessary to be recognized as a substrate. Thus 3′-deoxythymidine could not convert to 5-fluorouracil-2′,3′- dideoxyribose. However, 5′-deoxythymidine was converted to 5-fluorouracil-2′,5′-dideoxyribose. Copyright
Letter: Synthesis of C-5 substituted pyrimidine nucleosides via organopalladium intermediates.
Bergstrom,Ruth
, p. 1587 - 1589 (1976)
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Continuous flow photochemistry for the rapid and selective synthesis of 2′-deoxy and 2′,3′-dideoxynucleosides
Shen, Bo,Jamison, Timothy F.
, p. 157 - 164 (2013/04/10)
A new photochemical flow reactor has been developed for the photo-induced electron-transfer deoxygenation reaction to produce 2′-deoxy and 2′,3′-dideoxynucleosides. The continuous flow format significantly improved both the efficiency and selectivity of the reaction, with the streamlined multi-step sequence directly furnishing the highly desired unprotected deoxynucleosides.
Nucleoside analogue phosphates for topical use
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, (2008/06/13)
Compositions for topical use in herpes virus infections comprising anti-herpes nucleoside analogue phosphate esters, such as acyclovir monophosphate, acyclovir diphosphate, and acyclovir triphosphate which show increased activity against native strains of herpes virus as well as against resistant strains, particularly thymidine kinase negative strains of virus. Also disclosed are methods for treatment of herpes infections with nucleoside phosphates. Anti-herpes nucleoside analogues phosphate esters include the phosphoramidates and phosphothiorates, as well as polyphosphates comprising C and S bridging atoms.