Conformational preferences in diglycosyl disulfides: NMR and molecular modeling studies Original Research Article

The conformations of several β1→β1′ diglycosyl disulfides were investigated by NMR and computational methods. Experimental data, such as NOEs, proton–proton and proton–carbon-13 coupling constants, measured for solutions in DMSO, are in good agreement with values obtained by MD simulations in explicit DMSO. The disulfide torsion angles (C1–S–S–C1′) preferentially sample values close to either +90° or −90° (+g or −g) and appear as the main metric that determines the conformational behavior of these glycomimetics. There is more conformational freedom around the C1–S and C1′–S′ bonds (Φ and Ω torsions, respectively) and population cluster analysis allowed to identify up to four allowed conformational regions for each of the +g or −g forms. Population analysis of the hydroxylic group rotamers, based on proton–proton and proton–carbon-13 couplings as well as on calculated hydrogen bonding statistics, did not reveal any significant intramolecular hydrogen bonds in DMSO solution.