6323-18-8Relevant articles and documents
Synthesis of 4H-benzo[e]-1,2-selanazin-4-one derivatives: a new heterocyclic ring system
Messali, Mouslim,Christiaens, Léon E.,Alshahateet, Solhe F.,Kooli, Fethi
, p. 7448 - 7451 (2008/03/13)
The synthesis of novel 1,2-benzoselenazin-4-ones which are six-membered homologues of ebselen, is described in order to evaluate their glutathione peroxidase-like activity.
Cyclic enolates of Ni and Pd: Equilibrium between C- and O-bound tautomers and reactivity studies
Campora, Juan,Maya, Celia M.,Palma, Pilar,Carmona, Ernesto,Gutierrez, Enrique,Ruiz, Caridad,Graiff, Claudia,Tiripicchio, Antonio
, p. 6889 - 6904 (2007/10/03)
2-Acylaryl complexes of Ni and Pd containing chelating diphosphines react with KtBuO to give metallacyclic enolate complexes. While coordination through the carbon atom is preferred in the case of Pd, the nickel O-enolate compounds are formed as the corresponding O-tautomers. Slow equilibration between O- and C-enolate tautomers is observed for the nickel complex with an unsubstituted enolate function (M-O-C=CH2). Theoretical DFT calculations suggest that the barrier for the tautomer exchange has its origin in the rigidity of the metallacycle. Whilst the C-enolate tautomer is unreactive towards aldehydes, the corresponding O-enolate adds to MeCHO and PhCHO, giving rise to products that retain the enolate functionality. The carbonylation of these products cleanly leads to the formation of enol lactones in a highly selective manner.
Synthesis and activity of 2-methyl-3-aminopropiophenones as centrally acting muscle relaxants
Shiozawa,Narita,Izumi,Kurashige,Sakitama,Ishikawa
, p. 85 - 94 (2007/10/02)
Some novel 2-methyl-3-aminopropiophenones were synthesized and their centrally acting muscle relaxant activities were,evaluated for an inhibitory effect on the flexor reflex in rats. The structure-activity relationships are discussed. In this series 2-methyl-3-pyrrolidino-1-(4-trifluoromethylphenyl)-propan-1-one (28) showed significant centrally acting muscle relaxant activity. In addition, the activities of each enantiomer (28-(S) and (R)) were studied along with their acute toxicities. Compound 28-(R) was found to exhibit more potent activity and weaker acute toxicity than 28-(S). Accordingly, compound 28-(R) (NK433) is under development as a novel centrally acting muscle relaxant.