Transglycosylation in the Modification and Isotope Labeling of Pyrimidine Nucleosides

Cytidine deaminases catalyze the conversion of N(S,O)4-substituted pyrimidine nucleosides

Cytidine deaminases (CDAs) catalyze the hydrolytic deamination of cytidine and 2'-deoxycytidine to uridine and 2'-deoxyuridine. Here, we report that prokaryotic homo-tetrameric CDAs catalyze the nucleophilic substitution at the fourth position of N⁴-acyl-cytidines, N⁴-alkyl-cytidines, and N⁴-alkyloxycarbonyl-cytidines, and S⁴-alkylthio-uridines and O⁴-alkyl-uridines, converting them to uridine and corresponding amide, amine, carbamate, thiol, or alcohol as leaving groups. The x-ray structure of a metagenomic CDA_F14 and the molecular modeling of the CDAs used in this study show a relationship between the bulkiness of a leaving group and the volume of the binding pocket, which is partly determined by the flexible β3α3 loop of CDAs. We propose that CDAs that are active toward a wide range of substrates participate in salvage and/or catabolism of variously modified pyrimidine nucleosides. This identified promiscuity of CDAs expands the knowledge about the cellular turnover of cytidine derivatives, including the pharmacokinetics of pyrimidine-based prodrugs.

Microwave-assisted Synthesis of Fluorinated Heterocycles

Abstract:

The diverse biological applications of fluorinated heterocycles make them crucial chemical compounds. Several synthetic processes have been developed for their synthesis. Microwave-assisted synthesis has emerged as an important technique for generating fluorinated heterocycles in an eco-friendly and energy-efficient manner. It provides several benefits like less reaction time, high reaction yield, homogeneous heat distribution leading to lower side reaction, and better control of reaction temperature. Recently there has been significant progress in microwave use for heterocycle synthesis. This article discusses the applications of microwave irradiation in the synthesis of oxygen- and nitrogen-containing fluorinated heterocycles.

Nitro-Activated Nucleobase Exchange in the Synthesis of 2'-Fluoro-2'-Deoxyribonucleosides

Functionalized nucleosides bearing pyrimidine or purine bases can be prepared by activation of accessible pyrimidine nucleosides and subsequent transglycosylation. Nitration of lumicitabine, a 2'-fluoro-2'-deoxycytidine class antiviral agent, and its 2'-fluoro-2'-deoxyuridine precursor produce the same 5-nitro-2'-fluoro-2'-deoxyuridine. Under Vorbrüggen conditions, 5-nitrouracil serves as the leaving nucleobase and enables exchange with pyrimidine and purine nucleobases to anomeric 2'-fluoro-2'-deoxyribonucleosides in favor of β-anomers generally. The strategy is also applied in the isotopic labeling of 2'-fluoro-2'-deoxyuridines.

Chemical and chemoenzymatic stereoselective synthesis of β-nucleosides and their analogues

β-Nucleosides are fundamental building blocks of biological systems that are widely used as therapeutic agents for treating cancer and viral infections among others. In the last two years, nucleoside analogues...