38155-10-1Relevant academic research and scientific papers
Postsynthetic Modification of Phenylalanine Containing Peptides by C-H Functionalization
Terrey, Myles J.,Perry, Carole C.,Cross, Warren B.
, p. 104 - 108 (2019/01/11)
New methods for peptide modification are in high demand in drug discovery, chemical biology, and materials chemistry; methods that modify natural peptides are particularly attractive. A Pd-catalyzed, C-H functionalization protocol for the olefination of phenylalanine residues in peptides is reported, which is compatible with common amino acid protecting groups, and the scope of the styrene reaction partner is broad. Bidentate coordination of the peptide to the catalyst appears crucial for the success of the reaction.
Alternative and chemoselective deprotection of the α-amino and carboxy functions of N-Fmoc-amino acid and N-Fmoc-dipeptide methyl esters by modulation of the molar ratio in the AlCl3/N,N-dimethylaniline reagent system
Di Gioia, Maria Luisa,Leggio, Antonella,Le Pera, Adolfo,Liguori, Angelo,Perri, Francesca,Siciliano, Carlo
, p. 4437 - 4441 (2007/10/03)
The amino and carboxy functions in N-Fmoc-α-amino acid and N-Fmoc-peptide methyl esters can be alternatively and chemoselectively deprotected by treatment with the reagent system AlCl3/N,N- dimethylaniline (DMA). The chemoselectivity of the process is controlled by modulating the relative molar ratio of the Lewis acid and DMA. Wiley-VCH Verlag GmbH & Co. KGaA, 69451 Weinheim, Germany, 2004.
Peptide Synthesis by Means of Immobilized Enzymes. I. Immobilized α-Chimotripsin
Koennecke, Andreas,Bullerjahn, Ralf,Jakubke, Hans-Dieter
, p. 469 - 482 (2007/10/02)
α-Chymotrypsin covalently bound to silica, enzacryl AA, and enzacryl AH catalyzes peptide bond formation between N-protected dipeptide methyl esters and H-Leu-NH2 with results similar to those with the free enzyme.The influence of water-miscible and water
