Arylthioamides as H2S donors: l-cysteine-activated releasing properties and vascular effects in vitro and in vivo
…, I Pugliesi, E Barresi, G Nesi, S Rapposelli…
Index: Martelli, Alma; Testai, Lara; Citi, Valentina; Marino, Alice; Pugliesi, Isabella; Barresi, Elisabetta; Nesi, Giulia; Rapposelli, Simona; Taliani, Sabrina; Da Settimo, Federico; Breschi, Maria C.; Calderone, Vincenzo ACS Medicinal Chemistry Letters, 2013 , vol. 4, # 10 p. 904 - 908
Full Text: HTML
Citation Number: 25
Abstract
A small library of arylthioamides 1–12 was easily synthesized, and their H2S-releasing properties were evaluated both in the absence or in the presence of an organic thiol such as l-cysteine. A number of arylthioamides (1–3 and 7) showed a slow and l-cysteine-dependent H2S-releasing mechanism, similar to that exhibited by the reference slow H2S-releasing agents, such as diallyl disulfide (DADS) and the phosphinodithioate derivative GYY 4137. ...
Related Articles:
[Khosropour; Noei; Mirjafari Journal of the Iranian Chemical Society, 2010 , vol. 7, # 3 p. 752 - 758]
[Noei, Jalil; Khosropour, Ahmad R. Tetrahedron Letters, 2008 , vol. 49, # 49 p. 6969 - 6971]
Metal-Free, One-Pot Oxidative Conversion of Aldehydes to Primary Thioamides in Aqueous Media
[Synthetic Communications, , vol. 44, # 3 p. 408 - 416]
Metal-Free, One-Pot Oxidative Conversion of Aldehydes to Primary Thioamides in Aqueous Media
[Synthetic Communications, , vol. 44, # 3 p. 408 - 416]