99847-76-4Relevant articles and documents
Semicarbazone derivatives as urease inhibitors: Synthesis, biological evaluation, molecular docking studies and in-silico ADME evaluation
Qazi, Syeda Uroos,Rahman, Shafiq Ur,Awan, Asia Naz,al-Rashida, Mariya,Alharthy, Rima D.,Asari, Asnuzilawati,Hameed, Abdul,Iqbal, Jamshed
, p. 19 - 26 (2018/05/14)
A series of hydrazinecarboxamide derivatives were synthesized and examined against urease for their inhibitory activity. Among the series, the 1-(3-fluorobenzylidene)semicarbazide (4a) (IC50 = 0.52 ± 0.45 μM), 4u (IC50 = 1.23 ± 0.32 μM) and 4h (IC50 = 2.22 ± 0.32 μM) were found most potent. Furthermore, the molecular docking study was also performed to demonstrate the binding mode of the active hydrazinecarboxamide with the enzyme, urease. In order to estimate drug likeness of compounds, in silico ADME evaluation was carried out. All compounds exhibited favorable ADME profiles with good predicted oral bioavailability.
New approach towards the synthesis of selenosemicarbazones, useful compounds for Chagas' disease
Pizzo, Chiara,Faral-Tello, Paula,Yaluff, Gloria,Serna, Elva,Torres, Susana,Vera, Ninfa,Saiz, Cecilia,Robello, Carlos,Mahler, Graciela
, p. 107 - 113 (2016/01/15)
Herein, we describe a new approach towards the synthesis of selenosemicarbazones. The reaction involves an O-Se exchange of semicarbazones using Ishihara reagent. Eleven selenosemicarbazones were prepared using this methodology, with low to moderate yields. Among the prepared compounds the m-bromo phenyl methyl derivative 1b was selected to be evaluated in vivo, in a murine model of acute Chagas' disease. Compound 1b 10 mg/kg bw/day reduced 50% of parasitaemia profile compared with the control group, but was less effective than Benznidazole (50 mg/kg bw/day reduced 90%) and toxic. These studies are important to guide future Chagas drug design.
Synthesis of 3-substituted arylpyrazole-4-carboxylic acids
Lebedev,Lebedeva,Sheludyakov,Kovaleva,Ustinova,Kozhevnikov
, p. 782 - 789 (2007/10/03)
A method was suggested for preparing previously unknown 3-aryl-substituted pyrazole-4-carboxylic acids, involving Vilsmeier formylation of semicarbazones of 26 available mono- and disubstituted acetophenones and 2-acetylthiophene followed by oxidation of
