AI Article Synopsis
- Direct peptide and protein activation is difficult due to the stabilizing amide group, and while enzymes work well, small-molecule catalysts for this purpose are limited.
- Researchers designed an artificial cyclodehydratase featuring a molybdenum(VI) center with a tripod ligand to modify peptides and natural products by adding heterocycles like azolines efficiently and with minimal waste.
- This new catalytic system allows for selective modification of amide groups, even in the presence of similar chemical positions, potentially filling a significant gap in sustainable functionalization methods.
Article Abstract
Direct peptide and protein activation is a challenging transformation because of the stabilizing effect of the amide group. While enzymes can be considered as prototypical systems that have evolved to achieve high selectivity and specificity, small-molecule catalysts that functionalize the amide group may accommodate a much larger selection of substrates but currently remain scarce. Here, by combining the desired features from both catalytic regimes we designed an artificial cyclodehydratase, a catalytic system for the site-selective modification of peptides and natural products by engrafting heterocycles into their scaffolds. The catalytic system features a molybdenum(VI) center that was decorated with a sterically congested tripod ligand. The optimized catalyst can introduce azolines into small molecules, natural products, and oligopeptides with high efficiency and minimal waste. We further demonstrate the utility of the new protocol in the direct functionalization of a single amide group in the presence of up to seven other chemically similar positions and in the direct conversion of these groups into amines and thioamides. This new mechanistic paradigm may address an unmet need for a general method for the selective and sustainable functionalization of peptides and natural products.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10153596 | PMC |
| http://dx.doi.org/10.1021/acscatal.2c01938 | DOI Listing |
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