| Title : Chemical synthesis of a 28 kDa full-length PET degrading enzyme ICCG by the removable backbone modification strategy - Gao_2023_Bioorg.Chem_143_107047 |
| Author(s) : Gao YP , Sun PF , Guo WC , Zhou YK , Zheng JS , Tang S |
| Ref : Bioorg Chem , 143 :107047 , 2023 |
|
Abstract :
Chemical protein synthesis offers a powerful way to access otherwise-difficult-to-obtain proteins such as mirror-image proteins. Although a large number of proteins have been chemically synthesized to date, the acquisition to proteins containing hydrophobic peptide fragments has proven challenging. Here, we describe an approach that combines the removable backbone modification strategy and the peptide hydrazide-based native chemical ligation for the chemical synthesis of a 28 kDa full-length PET degrading enzyme IGGC (a higher depolymerization efficiency of variant leaf-branch compost cutinase (LCC)) containing hydrophobic peptide segments. The synthetic ICCG exhibits the enzymatic activity and will be useful in establishing the corresponding mirror-image version of ICCG. |
| PubMedSearch : Gao_2023_Bioorg.Chem_143_107047 |
| PubMedID: 38154387 |
| Gene_locus related to this paper: 9bact-g9by57 |
| Gene_locus | 9bact-g9by57 |
Gao YP, Sun PF, Guo WC, Zhou YK, Zheng JS, Tang S (2023)
Chemical synthesis of a 28 kDa full-length PET degrading enzyme ICCG by the removable backbone modification strategy
Bioorg Chem
143 :107047
Gao YP, Sun PF, Guo WC, Zhou YK, Zheng JS, Tang S (2023)
Bioorg Chem
143 :107047