19506-89-9Relevant articles and documents
Synthesis of novel bioactive phthalimido-4-methyl pentanoateorganotin(IV) esters with spectroscopic investigation
Ashfaq, Muhammad
, p. 1803 - 1808 (2006)
The synthesis of monomer, dimer, tricyclohexyl- and triphenyl-tin(IV) complexes with phthalimido-4-methyl pentanoic acid (PMPA) are described and characterized by FT IR, CHN analyzer, 1H, 13C 119Sn NMR and 119mSn M?ssbauer spectroscopic techniques. In vitro ED50, anti-tumor (phytotoxic), anti-yeast, blood pressure and heart rate effect, and bactericidal, fungicidal as well as analgesic bioassays of complexes are also be carried out. The ligand (PMPA) shows excellent analgesic activity while the dimer exhibit strong biocidal and excellent anti-tumor behavior besides of tri-organotin(IV) complexes.
Synthesis of new amides based on N-Phthaloyl-α-Amino Acids
Tukhtaev,Yusupov,Vinogradova
, p. 3049 - 3058 (2021/05/28)
N-phthaloyl derivatives of aliphatic α-amino acids were synthesized using phthalanhydride under standard conditions. The optimization reaction carried out by the thermal method to obtain the amides of these N-phthaloyl amino acids resulted in transimitted rather than amidation. The target amides of N-phthaloyl-α-amino acids were obtained by acylation of the amine with the corresponding acid chloroanhydrides in dichloromethane. These results were compared with the results of a similar acylation in a non-polar solvent (benzene). The dependence of the direction of the reaction on the duration of the acylation and the amount of amine used was established. The conditions for the formation of the corresponding N-phthaloyl-α-amino acid amides and asymmetric phthalic acid diamides were found. It is noteworthy that the formation of diamides is directly proportional to the equivalent amount of amine and the duration of the reaction, which makes it possible to purposefully control the synthesis in one reactor.
Bioinspired Deamination of α-Amino Acid Derivatives Catalyzed by a Palladium/Nickel Complex
Deng, Gongtao,Chen, Jie,Sun, Wangbin,Bian, Kehan,Jiang, Yaojia,Loh, Teck-Peng
supporting information, p. 3900 - 3905 (2018/09/12)
An efficient bioinspired deamination method of both natural and unnatural amino acid derivatives has been developed. This method provides easy access to a wide variety of useful α, β-unsaturated carbonyl compounds. The reaction is realized with two transition metal catalysts (palladium and Nickel) in-easy handling procedure. A possible reaction pathway is also proposed and the control experiments support the involvement of the palladium-catalyzed inert sp3 C?H activation as one of the key steps. (Figure presented.).