Themed collection Methodology development for protein modifications

A go-to compilation of recent strategies to access C-terminally modified peptides contextualized by a discussion of the major synthetic challenges that have historically hampered progress in this area.

The field of protein bioconjugation draws attention from stakeholders in chemistry, biology, and medicine. This review provides an overview of the present status, challenges, and opportunities for organic chemists.

A heterobifunctional 2-formylphenylboronic acid (2-FPBA)–maleimide crosslinker is explored for the conjugation and interplay between hydrazines, thiols and cysteine peptides.

Clickable photoreactive gold nanoparticles have been developed to facilitate one-step preparation of photoaffinity probes for bioactive small molecules and their application to target protein analysis.

A 3-nitrodibenzofuran cure provides blue-shifted reactivity in vinylogous photocleavage processes.

We have developed a highly efficient disulfide rebridging strategy for the modification of antibodies with substituted divinyltriazine linkers.

Site-directed addition of a single thiols handle to proteins by means of temporary disulphide rebridging of solvent exposed disulphides is obtained with a new labelling reagent.

Supramolecular protection of N-terminal aromatic amino acids through complexation with cucurbit[7]uril can enable site-selective protein modification of unfavored motifs.

A genetically incorporated ThrK unnatural amino acid can undergo rapid periodate oxidation to reveal a reactive internal α-oxo aldehyde.

The tyrosine click reaction of peptides/proteins with the tyrosine modification reagent, N-methyl luminol, was catalysed by a laccase in the presence of molecular oxygen (O₂) at 37 °C.

A sequential oxidative coupling and oxime or hydrazone ligation method allows construction of bifunctional N-terminal bioconjugates.

Hybrid peptides whose N-terminal residues are activated in the form of α-methylisoserine cyclic sulfamidates exhibit rich reactivity as electrophiles, allowing site- and stereoselective modifications at different backbone and side chain positions.

The synthesis and use of oxetane modified dipeptide building blocks in solution and solid-phase peptide synthesis (SPPS) is reported.

A general method that facilitates the modular dual functionalisation of a range of peptides and proteins is reported.

The target product 6′-fluoro-nosiheptide (6′-F-NOS), along with 6′-fluoro-nosiheptide intermediate (NOS 6′-F-NOSint), was obtained by mutational biosynthesis via 6′-fluoro-MIA feeding into mutant NosL.

Design and synthesis of arylboronic acid 2, the first example of a permanently open “frustrated” benzoxaborole, is described along with an exploration of its application in the complexation of amines and amino acids, and protein modification.

Site-selective incorporation of a reactive tetrazine tag into therapeutically relevant peptides and proteins via disulfide rebridging allows fast preparation of stable bioconjugates “on-demand”.