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Synthesis of 4'-Thionucleoside Analogues Bearing a C2' Stereogenic All-Carbon Quaternary Center.

Carla EymardAmarender ManchojuAbir AlmazloumStarr DostieMichel PrévostMona NemerYvan Guindon
Published in: Molecules (Basel, Switzerland) (2024)
The design of novel 4'-thionucleoside analogues bearing a C2' stereogenic all-carbon quaternary center is described. The synthesis involves a highly diastereoselective Mukaiyama aldol reaction, and a diastereoselective radical-based vinyl group transfer to generate the all-carbon stereogenic C2' center, along with different approaches to control the selectivity of the N -glycosidic bond. Intramolecular S N 2-like cyclization of a mixture of acyclic thioaminals provided analogues with a pyrimidine nucleobase. A kinetic bias favoring cyclization of the 1',2'- anti thioaminal furnished the desired β-D-4'-thionucleoside analogue in a 7:1 ratio. DFT calculations suggest that this kinetic resolution originates from additional steric clash in the S N 2-like transition state for 1',4'- trans isomers, causing a significant decrease in their reaction rate relative to 1',4'- cis counterparts. N -glycosylation of cyclic glycosyl donors with a purine nucleobase enabled the formation of novel 2-chloroadenine 4'-thionucleoside analogues. These proprietary molecules and other derivatives are currently being evaluated both in vitro and in vivo to establish their biological profiles.
Keyphrases
  • molecular docking
  • structure activity relationship
  • molecular dynamics simulations
  • density functional theory
  • electron transfer
  • single molecule