2022
DOI: 10.1021/acs.accounts.2c00436
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Redox-Controlled Chemical Protein Synthesis: Sundry Shades of Latency

Abstract: Conspectus The last two decades have witnessed the rise in power of chemical protein synthesis to the point where it now constitutes an established corpus of synthetic methods efficiently complementing biological approaches. One factor explaining this spectacular evolution is the emergence of a new class of chemoselective reactions enabling the formation of native peptide bonds between two unprotected peptidic segments, also known as native ligation reactions. In recent years, their application h… Show more

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Cited by 8 publications
(3 citation statements)
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“…Designing one-pot NCL/iron-catalyzed desulfurization methods is an important goal to achieve for enabling a reduction of pot economy during chemical protein synthesis, and thus a significant gain in time and yield. [28] During the first attempts to perform an NCL/desulfurization process in one-pot, the addition of TCEP to the ligation mixture triggered the conversion of Cys residue into Ala as expected but at a rate significantly less than those measured for the desulfurization experiments performed on purified peptides. The only difference in reaction mixture composition between the one-pot NCL/desulfurization process and the desulfurization of a purified peptide is the additional presence in the former conditions of a thiol that is released from the thioester component, i.e.…”
Section: One-pot Ncl/iron-catalyzed Desulfurizationmentioning
confidence: 80%
See 1 more Smart Citation
“…Designing one-pot NCL/iron-catalyzed desulfurization methods is an important goal to achieve for enabling a reduction of pot economy during chemical protein synthesis, and thus a significant gain in time and yield. [28] During the first attempts to perform an NCL/desulfurization process in one-pot, the addition of TCEP to the ligation mixture triggered the conversion of Cys residue into Ala as expected but at a rate significantly less than those measured for the desulfurization experiments performed on purified peptides. The only difference in reaction mixture composition between the one-pot NCL/desulfurization process and the desulfurization of a purified peptide is the additional presence in the former conditions of a thiol that is released from the thioester component, i.e.…”
Section: One-pot Ncl/iron-catalyzed Desulfurizationmentioning
confidence: 80%
“…Designing one‐pot NCL/iron‐catalyzed desulfurization methods is an important goal to achieve for enabling a reduction of pot economy during chemical protein synthesis, and thus a significant gain in time and yield [28] . During the first attempts to perform an NCL/desulfurization process in one‐pot, the addition of TCEP to the ligation mixture triggered the conversion of Cys residue into Ala as expected but at a rate significantly less than those measured for the desulfurization experiments performed on purified peptides.…”
Section: Resultsmentioning
confidence: 99%
“…The developed conditions demonstrated satisfactory effectiveness and sufficient selectivity to be applied at the level of the synthetic protein domain (Figure a). In order to ensure that the Mob protection would survive the whole assembly sequence, we engaged model thioester precursor 7a and the protected oxo SEA-containing peptide 5c in an NCL reaction. , Polypeptide 9a was isolated in 75% yield. It is worth noting that using a 3-mercaptopropionic acid-derived peptide thioester instead of SEA peptide 7a resulted in the exact same outcome, showing that different peptide acyl donors can be used for the NCL step (Supporting Information).…”
mentioning
confidence: 99%