35665-38-4Relevant articles and documents
2D green SPPS: Green solvents for on-resin removal of acid sensitive protecting groups and lactamization
Pawlas, Jan,Antonic, Biljana,Lundqvist, Marika,Svensson, Thomas,Finnman, Jens,Rasmussen, Jon H.
supporting information, p. 2594 - 2600 (2019/06/13)
Aiming at greener synthesis of complex peptides we report that conventional one-dimensional (1D) green solid-phase peptide synthesis (SPPS) is elevated to a two-dimensional (2D) concept in which side chains in peptide resins are functionalized by suitable green tactics. Specifically, we disclose on-resin deblocking using trifluoroacetic acid (TFA)/triisopropylsilane (TIS) in EtOAc/MeCN used in a synthesis of a melanocortin receptor agonist comprising (i) 1D green SPPS (ii) 2D green SPPS by an on-resin TFA/TIS in EtOAc/MeCN deprotection of Lys(Mtt) and Asp(O-2-PhiPr) followed by a lactamization using PyBOP/DIEA in NBP/EtOAc (iii) TFA cleavage followed by green precipitation using 4-methyltetrahydropyran (MTHP)/n-heptane. A further application for our green deprotection protocol was found in peptide fragment cleavages off CTC resins.
Site-selective chemical cleavage of peptide bonds
Elashal, Hader E.,Raj, Monika
, p. 6304 - 6307 (2016/05/24)
Site-selective cleavage of extremely unreactive peptide bonds is a very important chemical modification that provides invaluable information regarding protein sequence, and it acts as a modulator of protein structure and function for therapeutic applications. For controlled and selective cleavage, a daunting task, chemical reagents must selectively recognize or bind to one or more amino acid residues in the peptide chain and selectively cleave a peptide bond. Building on this principle, we have developed an approach that utilizes a chemical reagent to selectively modify the serine residue in a peptide chain and leads to the cleavage of a peptide backbone at the N-terminus of the serine residue. After cleavage, modified residues can be converted back to the original fragments. This method exhibits broad substrate scope and selectively cleaves various bioactive peptides with post-translational modifications (e.g. N-acetylation and -methylation) and mutations (d- and β-amino acids), which are a known cause of age related diseases.
Hydroxymethyl Salicylaldehyde Auxiliary for a Glycine-Dependent Amide-Forming Ligation
Fouché, Marianne,Masse, Florence,Roth, Hans-J?rg
supporting information, p. 4936 - 4939 (2015/11/03)
A new amide-forming ligation that requires a glycine or a primary amine at the linkage site is described herein. The distinguishing feature of this ligation is its reliance on an O-hydroxymethyl salicylaldehyde ester at the C-terminus which allows, via an N,O-acetal intermediate, the formation of a native peptide bond.