56895-92-2Relevant academic research and scientific papers
Discovery of novel, potent, and orally active spiro-urea human glucagon receptor antagonists
Shen, Dong-Ming,Zhang, Fengqi,Brady, Edward J.,Candelore, Mari Rios,Dallas-Yang, Qing,Ding, Victor D.-H.,Dragovic, Jasminka,Feeney, William P.,Jiang, Guoquiang,McCann, Peggy E.,Mock, Steve,Qureshi, Sajjad A.,Saperstein, Richard,Shen, Xiaolan,Tamvakopoulos, Constantin,Tong, Xinchun,Tota, Laurie M.,Wright, Michael J.,Yang, Xiaodong,Zheng, Song,Chapman, Kevin T.,Zhang, Bei B.,Tata, James R.,Parmee, Emma R.
, p. 4564 - 4569 (2005)
A novel class of spiro-ureas has been discovered as potent human glucagon receptor antagonists in both binding and functional assays. Preliminary studies have revealed that compound 15 is an orally active human glucagon receptor antagonist in a transgenic
α-Aminonitrile hydration in the presence of hydrogen peroxide in aqueous basic medium
Taillades, Jacques
, p. 89 - 100 (2007/10/03)
α-Aminonitriles are hydrated into α-aminoamides in the presence of hydrogen peroxide in sodic or ammoniacal basic medium. While the hydration mechanism is close to the mechanism described previously in the case of aromatic nitrites, we showed that, in weakly basic conditions, the amine function of α-aminonitrile is competitively oxidized via a peroxyimidic acid by an intramolecular process. In the case of 2-aminopropanenitrile, this reaction leads to pyruvamide oxime. Furthermore, the study of structurereactivity relationships in the hydration of aliphatic and aromatic monofunctional nitriles and α-aminonitriles showed that the reactivity of the substrates towards hydroperoxide onion, which mostly depends on inductive effects of the substituents, is sufficiently enhanced to allow hydration of tertiary α-aminonitriles with low steric hindrance and regioselective hydration of dissymmetric α-aminodinitriles. Eisevier,.
Auxiliary chiral ketones in the asymmetric synthesis of α-amino acids by Strecker reaction
Bousquet, C.,Tadros, Z.,Tonnel, J.,Mion, J.,Taillades, J.
, p. 513 - 520 (2007/10/02)
The asymmetric synthesis of α-aminoamides 1 R1CH(CONH2)NH2 1 = Ph-CH2, 1b: R1 = Pri, 1c: R1 = Ph> that leads to the corresponding α-amino acids is achieved by a classical Strecker reaction 1CHO, HCN, NH3> using an auxiliary chiral ketone (R2R'2CO) as a catalyst.In the presence of an aqueous solution of HCN and NH3, the (-)-5R-(methylethenyl)-3R-cyano-2R-methylcyclohexanone 2(-) leads to the 5R-(methylethenyl)-3R-cyano-2R-methyl-1R-cyano-cyclohexylamine 3 with 80percent stereoselectivity.Following condensation with R1CHO, this α-aminonitrile R2R'2C(CN)NH2 3 yields the corresponding iminonitrile which undergoes a second asymmetric addition of HCN yielding an asymmetric α-aminodinitrile 4 R2R'2C(CN)-NH-CHR1(CN) with stereoselectivity that varies betweeen 62percent (R1 = Ph) and 79percent (R1 = Ph-CH2).The α-aminodinitrile obtained as the major product undergoes regioselective hydration of the secondary aminonitrile moiety followed by the decomposition ("retro-Strecker") of the tertiary aminonitrile moiety yielding an optically active α-aminoamide (eg 78percent optical purity for 1a) and the auxiliary chiral ketone 2 and ketonic derivatives.Keywords - α-aminonitrile / α-amino acid / asymmetric synthesis
