Add to ORKGA methodology was developed for efficient, chemoselective transformation of methionine residues into stable, functional homocysteine derivatives. Methionine residues can undergo highly chemoselective alkylation reactions at low pH to yield stable sulfonium ions, which could then be selectively demethylated to give stable alkyl homocysteine residues. This mild, two-step process is chemoselective, efficient, tolerates many functional groups, and provides a means for creation of new functional biopolymers, site-specific peptide tagging, and synthesis of biomimetic and structural analogs of peptides
Asp‐ecially useful : A synthetic β‐mercapto aspartate residue facilitates the rapid ligation to a ra...
Recent developments in the modification of methionine and other thioether-containing residues in pep...
An efficient and fast procedure in execution for synthesizing S‐linked glycopeptides is reported. It...
A methodology was developed for efficient, chemoselective transformation of methionine residues into...
Polypeptide materials enjoy a wide breadth of realized and potential applications in the fields of b...
We report the development of a new “click”-type reaction for polypeptide modification based on the c...
Methodology was developed for efficient alkylation of methionine residues using epoxides as a genera...
Nature has a remarkable ability to carry out site-selective post-translational modification of prote...
A chemoselective, convenient, and mild synthetic strategy to modify peptides on a cysteine sulfhydry...
International audienceSelective modifications at methionyl residues in proteins have attracted parti...
The development of novel bioconjugation strategies for the functionalisation of polypeptides and pro...
An efficient method has been developed for the chemoselective cysteine modification of unprotected p...
Thiol groups are suitable handles for site-selectively modifying, immobilizing or cyclizing individu...
The ligand-directed (LD) chemistry provides powerful tools for site-specific modification of protein...
Bio-orthogonal catalytic modification of ribosomally synthesized and post-translationally modified p...
Asp‐ecially useful : A synthetic β‐mercapto aspartate residue facilitates the rapid ligation to a ra...
Recent developments in the modification of methionine and other thioether-containing residues in pep...
An efficient and fast procedure in execution for synthesizing S‐linked glycopeptides is reported. It...
A methodology was developed for efficient, chemoselective transformation of methionine residues into...
Polypeptide materials enjoy a wide breadth of realized and potential applications in the fields of b...
We report the development of a new “click”-type reaction for polypeptide modification based on the c...
Methodology was developed for efficient alkylation of methionine residues using epoxides as a genera...
Nature has a remarkable ability to carry out site-selective post-translational modification of prote...
A chemoselective, convenient, and mild synthetic strategy to modify peptides on a cysteine sulfhydry...
International audienceSelective modifications at methionyl residues in proteins have attracted parti...
The development of novel bioconjugation strategies for the functionalisation of polypeptides and pro...
An efficient method has been developed for the chemoselective cysteine modification of unprotected p...
Thiol groups are suitable handles for site-selectively modifying, immobilizing or cyclizing individu...
The ligand-directed (LD) chemistry provides powerful tools for site-specific modification of protein...
Bio-orthogonal catalytic modification of ribosomally synthesized and post-translationally modified p...
Asp‐ecially useful : A synthetic β‐mercapto aspartate residue facilitates the rapid ligation to a ra...
Recent developments in the modification of methionine and other thioether-containing residues in pep...
An efficient and fast procedure in execution for synthesizing S‐linked glycopeptides is reported. It...