Protein Glycosylation through Sulfur Fluoride Exchange (SuFEx) Chemistry: The Key Role of a Fluorosulfate Thiolactoside

Marra, Alberto; Dong, Jiajia; Ma, Tiancheng; Giuntini, Stefano; Crescenzo, Elisa; Cerofolini, Linda; Martinucci, Marco; Luchinat, Claudio; Fragai, Marco; Nativi, Cristina; Dondoni, Alessandro

doi:10.1002/chem.201803912

Cited by 19 publications

(10 citation statements)

References 53 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This sulfuryl chemistry can be sluggish with electrophiles such as arylsulfonyl fluorides (Ar‐SO 2 ‐F) and arylfluorosulfate (ArO‐SO 2 ‐F), which are kinetically stable to hydrolysis and resistant to oxidation and reduction. This specific reactivity pattern has been successfully exploited in chemical biology and medicinal chemistry for protein labelling, [46–48] after reaction with the side chain of nucleophilic AAs. Although SuFEx may be performed on a potentially wide range of AA S , chemoselectivity can only be achieved by fine‐tuning the experimental procedure or in a context‐specific environment [49] …”

Section: Tyr‐conjugation Via Sulfur Fluoride Exchange Chemistry (Sufex)mentioning

confidence: 99%

Tyrosine Conjugation Methods for Protein Labelling

Álvarez-Dorta

Deniaud

Mével

et al. 2020

Chemistry A European J

View full text Add to dashboard Cite

Over the last two decades, the development of chemical biology and the need for more defined protein conjugates have fostered active research on new bioconjugation techniques. In particular, a wide range of biorthogonal labelling strategies have been reported to functionalise the phenol side chain of tyrosines (Tyr). Tyr occur at medium frequency and are partially buried at the protein surface, offering interesting opportunities for site-selective labelling of the most reactive residues. Tyr-targeting has proved effective for designing a wide range of important biomolecules including antibody-drug conjugates, fluorescent or radioactive protein probes, glycovaccines, protein aggregates, and PEG conjugates. Innovative methods have also been reported for site-specific labelling with ligand-directed anchors and for the specific affinity capture of proteins. This review will present and discuss these promising alternatives to the conventional labelling of the nucleophilic lysine and cysteine residues.

show abstract

Section: Tyr‐conjugation Via Sulfur Fluoride Exchange Chemistry (Sufex)mentioning

confidence: 99%

Tyrosine Conjugation Methods for Protein Labelling

Álvarez-Dorta

Deniaud

Mével

et al. 2020

Chemistry A European J

View full text Add to dashboard Cite

show abstract

“…Subsequent work on peptide and protein glycosylation was carried out quite recently in collaboration with Professor Nativi and Professor Fragai groups at Florence University. 33 This work was essentially based on the sulfur-fluoride exchange chemistry (SuFEx) highlighted by the Sharpless group 34 in 2014. This chemistry is based on the high reactivity of the fluorine atom of sulfonyl fluorides and fluorosulfates toward N, C, and O nucleophiles.…”

Section: Glycosylation Of Octreotide Ubiquitin (Ub) and L-asparaginmentioning

confidence: 99%

Selected Research Topics of the Dondoni Group over the Last Two Decades (2000–2020)

Dondoni

2020

Synlett

Self Cite

View full text Add to dashboard Cite

From a selection of research topics carried out in our laboratory during the last twenty years it becomes apparent that our main target was the discovery of new or improved synthetic methods together with new properties. Our efforts were made with the aim of being of some utility to other fields of research, with particular emphasis to glycobiology and heterocyle-based bioorganic chemistry. We performed new chemistry mainly in the field of carbohydrate manipulations taking as a primary rule the simplicity and efficiency manners. Toward this end, modern synthetic tools and approaches were employed such as heterocyle-based transformations, multicomponent reactions, organocatalysis, click azide–alkyne cycloadditions, reactions in ionic liquids, click photoinduced thiol-ene coupling, and click sulfur–fluoride exchange chemistry. With these potent methodologies in hand, the syntheses of carbohydrate containing amino acids up to proteins glycosylation were performed.1 Heterocyclic Glycoconjugates and Amino Acids2 Triazole-Linked Oligonucleotides: Application of Click CuAAC3 Non-Natural Glycosyl Amino Acids4 Non-Natural Oligosaccharides5 Calixarene-Based Glycoclusters6 Carbohydrate-Based Building Blocks7 Homoazasugars and Aza-C-disaccharides8 Synthesis of Glycodendrimers9 Peptide and Protein Glycoconjugates10 Conclusions

show abstract

“…We therefore planned to take advantage from the seven Lys ε-NH2 residues and from the N-terminus to link up to eight residues of fucoside 7 (Scheme 2) through amide-bond formation. 25 With respect to fucosyl derivative 7 features a longer aliphatic chain, to properly exhibit the sugar moiety on protein surface, 3 ending with a NHS activated carboxylic group. Compound 7 was synthesized in four steps from carboxylic acid 5 (see Scheme 1) by treatment in DMF with HBTU and NMM, and reaction with mono-Boc protected ethylendiamine 8, to form the NHBoc derivative 9 (93%).…”

Section: Synthesis Of Fucosyl Derivatives 7 and Ubiquitin Glycosylationmentioning

confidence: 99%

“…2 Although the function of scaffold proteins is still matter of investigation, stable and structurally determined proteins assumed a compelling interest as bio-compatible platforms to display clusters of glycosidic ligands. 3 Ubiquitin (Ub) is a fully characterized, widespread protein bearing seven lysine residues in its wild-type form (WT-Ub). Ubiquitination is a reversable modification in which the terminal glycine residue of Ub is attached to a substrate protein.…”

Section: Introductionmentioning

confidence: 99%

Fucosylated Ubiquitin and Orthogonally Glycosylated Mutant A28C: Conceptually New Ligands for Burkholderia Ambifaria Lectin (BambL)†

Nativi

Kuhaudomlarp²,

Cerofolini³

et al. 2020

Preprint

Self Cite

View full text Add to dashboard Cite

Ubiquitin as <i>scaffold</i> <i>protein</i> and aryl-α-O-fucoside as determinant to achieve conceptually new ligands with high affinity for <i>Burkholderia ambifaria </i>lectin are described.<div>Ub mutant A28C which displays a Cys residue in addition to the eight Lys residues was expressed. </div><div>The resulting <i>scaffold</i> was orthogonally glycosylated </div><div>to display one thio-rhamnose and up to eight residues of aryl-α-O-fucoside. </div><div>The glycosylated Ub-based scaffolds have unprecedented immune properties.<br></div>

show abstract

Protein Glycosylation through Sulfur Fluoride Exchange (SuFEx) Chemistry: The Key Role of a Fluorosulfate Thiolactoside

Cited by 19 publications

References 53 publications

Tyrosine Conjugation Methods for Protein Labelling

Tyrosine Conjugation Methods for Protein Labelling

Selected Research Topics of the Dondoni Group over the Last Two Decades (2000–2020)

Fucosylated Ubiquitin and Orthogonally Glycosylated Mutant A28C: Conceptually New Ligands for Burkholderia Ambifaria Lectin (BambL)†

Contact Info

Product

Resources

About