92437-84-8Relevant academic research and scientific papers
Docking, synthesis, and pharmacological evaluation of isoindoline derivatives as anticonvulsant agents
Davood, Asghar,Amini, Mohsen,Azimidoost, Leila,Rahmatpour, Somaieh,Nikbakht, Ali,Iman, Maryam,Shafaroodi, Hamed,Ansari, Abdollah
, p. 3177 - 3184 (2013/07/19)
Eleven analogs of N-arylisoindoline pharmacophore were synthesized and evaluated for their anticonvulsant activities. The in vivo screening data acquired indicate that all the analogs have the ability to protect against pentylenetetrazole-induced seizure. Compounds 2, 6, and 11 elevated clonic seizure thresholds at 30 min which were more active than reference drug phenytoin, and compounds 2, 7, and 11 showed marked anticonvulsant activity on tonic seizure. The most potent compounds were 2 and 11 which had comparative activity to the phenytoin. Using a model of the open pore of the Na channel, we have docked all compounds. Docking studies have revealed that these compounds interacted mainly with residues II-S6 of NaV1.2 by making hydrogen bonds and have additional hydrophobic interactions with other domains in the channel's inner pore.
Iron(II) bromide-catalyzed synthesis of benzimidazoles from aryl azides
Shen, Meihua,Driver, Tom G.
supporting information; experimental part, p. 3367 - 3370 (2009/05/27)
(Chemical Equation Presented) The identity of the ortho-substituent of an aryl azide influences its reactivity toward transition metals. Substitution of a vinyl group with an imine disables rhodium(II)-mediated C-H amination and triggers a Lewis acid mechanism catalyzed by iron(II) bromide to facilitate benzimidazole formation.
