Silylated Tag-Assisted Peptide Synthesis: Continuous One-Pot Elongation for the Production of Difficult Peptides under Environmentally Friendly Conditions

Addition of the silylated tag (STag) enables peptides to be highly soluble in CPME, allowing them to be used at high concentrations in a coupling reaction to enhance reactivity and achieve effective synthesis of sterically hindered peptides. We described the development of a continuous one-pot STag-...

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Published in:Molecules (Basel, Switzerland) Switzerland), 2021-06, Vol.26 (12), p.3497
Main Authors: Yano, Shinya, Mori, Toshihiro, Kubota, Hideki
Format: Article
Language:English
Subjects:
Amino acids
chemical tag
Elongation
green chemistry
one-pot
Peptide synthesis
Peptides
Solvents
Viscosity
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cited_by cdi_FETCH-LOGICAL-c470t-2bd82b64b195b8e26d5c92fefca6e2a119dfb1896672bff3ddaba2946d05ad603
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description Addition of the silylated tag (STag) enables peptides to be highly soluble in CPME, allowing them to be used at high concentrations in a coupling reaction to enhance reactivity and achieve effective synthesis of sterically hindered peptides. We described the development of a continuous one-pot STag-assisted peptide synthesis platform as a method that provides near-stoichiometric, speedy, environmentally friendly, and scalable peptide synthesis.
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subjects Amino acids
chemical tag
Elongation
green chemistry
one-pot
Peptide synthesis
Peptides
Solvents
Viscosity
title Silylated Tag-Assisted Peptide Synthesis: Continuous One-Pot Elongation for the Production of Difficult Peptides under Environmentally Friendly Conditions
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