Theoretical investigation of vinylogous anomeric effect on 4-halo-4-H-pyran and 4-halo-4-H-thiopyran molecules

Insight into the Course of the Ferrier Rearrangement Used to Obtain Untypical Diosgenyl Saponins

The Ferrier rearrangement was utilized to obtain 2,3-unsaturated diosgenyl glycosides. This reaction proceeded with high stereoselectivity, yielding mostly saponins with an α configuration (hexoses) or predominantly with a β configuration (pentoses). The diversity of the glycals used and the glycosides obtained enabled a deep discussion of the Ferrier rearrangement mechanism. The mechanism was supported by DFT calculations concerning the intermediate ions. It was concluded that the vinylogous anomeric effect may influence the reactivity of the glycals. Two possible Ferrier rearrangement intermediates, dioxolenium and allyloxycarbenium ions, were hypothesized to exist in thermodynamic equilibrium that shifted toward the former. The allyloxycarbenium ion participates in the final rearrangement step and determines the reaction regioselectivity. Furthermore, the conformational stability of the 2,3-unsaturated pyranose ring determines the stereoselectivity of the reaction. Factors influencing this stability, as well as the NMR data enabling recognition of the 0H5 and 5H0 conformations, were identified. Chemoselective hydrogenation of 2,3-unsaturated diosgenyl glycosides provided a series of 2,3-dideoxy analogues. The anticancer, hemolytic, and antibacterial activities of the synthesized saponins are presented alongside a discussion of the structure-activity relationships.

Hyperconjugative Interactions of the Carbon-Halogen Bond that Influence the Geometry of Cyclic α-Haloacetals

The analysis of the structures of low-energy conformers of different α-haloacetals reveals changes in bond lengths and geometries that correspond to stabilizing orbital interactions that contribute to the ground-state structures of these systems. Several factors, including the electron-donating and electron-accepting abilities of the substituents on the ring, affect the degree of the electronic interactions in these carbohydrate-like systems. The presence of an α-halogen atom that can participate in hyperconjugation has been shown to contribute to the structural characteristics of the low-energy conformer. The experimental evidence is supported by natural bond order (NBO) analysis to identify the types of interactions and to assess their relative importance.

Synthesis of cobalt tetra-2,3-pyridiniumporphyrazinato with sulfonic acid tags as an efficient catalyst and its application for the synthesis of bicyclic ortho-aminocarbonitriles, cyclohexa-1,3-dienamines and 2-amino-3-cyanopyridines

Cobalt tetra-2,3-pyridiniumporphyrazinato with sulfonic acid tag [Co(TPPASO3H)]Cl was produced and catalyzed the synthesis of ortho-aminocarbonitriles, cyclohexa-1,3-dienamines and 2-amino-3-cyanopyridines. The synthesis of 2-amino-3-cyanopyridines by using [Co(TPPASO3H)]Cl proceeded via a cooperative vinylogous anomeric based oxidation mechanism. [Co(TPPASO3H)]Cl can be recycled and reused six times with a marginal decreasing of its catalytic activity.