The crystal and molecular structures of the nootropic agents RU-47001 ((+/-) 1-(4-nitrobenzenesulphonyl)-2-oxo-5-ethoxypyrrolidine) and RU-47064 ((+/-) 1-(4-nitrobenzenesulphonyl)-2-oxo-5-isopropyloxypyrrolidine) have been determined by X-ray analysis and their solution conformation has been investigated using H-1 NMR spectroscopy. The conformations of these molecules together with those of their analogues RU-35929 ((+/-) 1-benzenesulphonyl-2-oxo-5-ethoxypyrrolidine), RU-47010 ((+/-) 1-(3-pyridinylsulphonyl)-2-oxo-5-ethoxypyrrolidine) and RU-35965 ((+/-) 1-benzenesulphonyl-2-oxo-5-isopropyloxypyrrolidine) have been deduced from semi-quantitative PM3 type theoretical calculations. The main feature of all compounds consists of a common envelope conformation with C(4) at the flap of the pyrrolidinone ring in the solid, that in solution changes into the analogous, but opposite, possible puckered conformational isomer. The 5-alkoxy groups were found rather flexible in solution. Theoretical preferred conformations about N-S and S-C bonds were in acceptable agreement with those of the solid state. The calculated torsional energetics suggested that 1-5 do not undergo conformational interconversion.
MOLECULAR-STRUCTURES AND CONFORMATIONS OF 1-BENZENESULFONYL-2-OXO-5-ALKOXYPYRROLIDINES WITH ANTIAMNESIC ACTIVITY - X-RAY, H-1-NMR AND QUANTUM-MECHANICAL (PM3) STUDIES
AMATO, Maria Emanuela;GRASSI, Antonio;
1991-01-01
Abstract
The crystal and molecular structures of the nootropic agents RU-47001 ((+/-) 1-(4-nitrobenzenesulphonyl)-2-oxo-5-ethoxypyrrolidine) and RU-47064 ((+/-) 1-(4-nitrobenzenesulphonyl)-2-oxo-5-isopropyloxypyrrolidine) have been determined by X-ray analysis and their solution conformation has been investigated using H-1 NMR spectroscopy. The conformations of these molecules together with those of their analogues RU-35929 ((+/-) 1-benzenesulphonyl-2-oxo-5-ethoxypyrrolidine), RU-47010 ((+/-) 1-(3-pyridinylsulphonyl)-2-oxo-5-ethoxypyrrolidine) and RU-35965 ((+/-) 1-benzenesulphonyl-2-oxo-5-isopropyloxypyrrolidine) have been deduced from semi-quantitative PM3 type theoretical calculations. The main feature of all compounds consists of a common envelope conformation with C(4) at the flap of the pyrrolidinone ring in the solid, that in solution changes into the analogous, but opposite, possible puckered conformational isomer. The 5-alkoxy groups were found rather flexible in solution. Theoretical preferred conformations about N-S and S-C bonds were in acceptable agreement with those of the solid state. The calculated torsional energetics suggested that 1-5 do not undergo conformational interconversion.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.