Selective N-Terminal Cysteine Protein Modification with Cyclopropenones

Istrate, Alena; Navo, Claudio D.; Sousa, Bárbara; Marques, Marta C.; Deery, Michael J.; Bond, Andrew D.; Corzana, Francisco; Jiménez‐Osés, Gonzalo; Bernardes, Gonçalo J. L.

doi:10.26434/chemrxiv.12866873.v1

Cited by 2 publications

(2 citation statements)

References 31 publications

(37 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…After that, Bernardes and co-workers discovered a selective reaction between biocompatible and stable monosubstituted cyclopropenones 62 (CPOs) and the 1,2-aminothiol of N-terminal cysteine to afford a heterocyclic 1,4-thiazepa-5-none linker under mild conditions in 2020 (Figure 7f) [137,138]. Notably, cyclopropenones showed diverse structural advantages including the aromatic character rendering their stability, ring strain, and high dipole moment, allowing the occurrence of cycloaddition and ring-opening reactions, and α,β-unsaturated ketones acting as electrophiles in 1,2-and 1,4-nucleophilic addition reactions.…”

Section: • Cysteinementioning

confidence: 99%

Development and Recent Advances in Lysine and N-Terminal Bioconjugation for Peptides and Proteins

Tantipanjaporn

Wong

2023

Molecules

View full text Add to dashboard Cite

The demand for creation of protein diversity and regulation of protein function through native protein modification and post-translational modification has ignited the development of selective chemical modification methods for peptides and proteins. Chemical bioconjugation offers selective functionalization providing bioconjugates with desired properties and functions for diverse applications in chemical biology, medicine, and biomaterials. The amino group existing at the lysine residue and N-terminus of peptides and proteins has been extensively studied in bioconjugation because of its good nucleophilicity and high surface exposure. Herein, we review the development of chemical methods for modification of the amino groups on lysine residue and N-terminus featuring excellent selectivity, mild reaction conditions, short reaction time, high conversion, biocompatibility, and preservation of protein integrity. This review is organized based on the chemoselectivity and site-selectivity of the chemical bioconjugation reagents to the amino acid residues aiming to provide guidance for the selection of appropriate bioconjugation methods.

show abstract

Section: • Cysteinementioning

confidence: 99%

Development and Recent Advances in Lysine and N-Terminal Bioconjugation for Peptides and Proteins

Tantipanjaporn

Wong

2023

Molecules

View full text Add to dashboard Cite

show abstract

“…In addition, the reaction between 2-cyanobenzothiazole (CBT) and Cys, which is the last step of the synthesis of d -luciferin, has been developed into a useful ligation strategy for protein labeling and functional macrocycle construction. ,, Recently, N -hydroxysuccinimide activated acrylamide has been designed and synthesized for both the functionalization of N-terminal Cys and the cyclization of in-chain or C-terminal Cys and nearby lysine (Lys) residues . Monosubstituted cyclopropenone (CPO) has also been exploited for selective N-terminal Cys modification with a reaction rate (3.0 M –1 s –1 ) comparable to that for the CBT-cysteine reaction (9.19 M –1 s –1 ). , In addition, the reaction of 2-((alkylthio)(aryl)methylene) malononitrile (TAMM) and 1,2-aminothiol have been developed recently as a novel bioorthogonal reaction (4.2 M –1 s –1 ) for site-specific protein modifications and peptide cyclization . Particularly, this reaction has also been exploited for the construction of cyclic peptide libraries displayed on the phage surface .…”

Section: Introductionmentioning

confidence: 99%

Fast and Selective Reaction of 2-Benzylacrylaldehyde with 1,2-Aminothiol for Stable N-Terminal Cysteine Modification and Peptide Cyclization

Liu

Fan

et al. 2021

Bioconjugate Chem.

View full text Add to dashboard Cite

N-terminal cysteine (Cys)-specific reactions have been exploited for protein and peptide modifications. However, existing reactions for N-terminal Cys suffer from low reaction rate, unavoidable side reactions, or poor stability for reagents or products. Herein we report a fast, efficient, and selective conjugation between 2-benzylacrylaldehyde (BAA) and 1,2aminothiol, which involves multistep reactions including aldimine condensation, Michael addition, and reduction of imine by NaBH 3 CN. This conjugation proceeds with a rate constant of ∼2700 M −1 s −1 under neutral condition at room temperature to produce a pair of seven-membered ring diastereoisomers, which are stable under neutral and acidic conditions. This method enables the selective modifications of the N-terminal Cys residue without interference from the internal Cys and lysine residues, providing a useful alternative to existing approaches for site-specific peptide or protein modifications and synthesis of cyclic peptides.

show abstract

Selective N-Terminal Cysteine Protein Modification with Cyclopropenones

Cited by 2 publications

References 31 publications

Development and Recent Advances in Lysine and N-Terminal Bioconjugation for Peptides and Proteins

Development and Recent Advances in Lysine and N-Terminal Bioconjugation for Peptides and Proteins

Fast and Selective Reaction of 2-Benzylacrylaldehyde with 1,2-Aminothiol for Stable N-Terminal Cysteine Modification and Peptide Cyclization

Contact Info

Product

Resources

About