AI Article Synopsis
- Bacterial lasso peptides are formed by cleaving a precursor at the leader-core junction, followed by cyclization by a macrolactam synthetase, which creates a unique structure with a threaded tail.
- The newly characterized lasso peptide pseudomycoidin, encoded by DSM 12442, can be synthesized without the usual leader protease, making its production simpler and more efficient.
- Pseudomycoidin also undergoes unique modifications, including phosphorylation and glycosylation, which may help stabilize its lasso structure.
Article Abstract
Bacterial lasso peptides are made from linear ribosomally synthesized precursors by specific cleavage at the leader-core junction site of the precursor by a dedicated protease recognizing the leader, followed by cyclisation of the newly formed N-terminus of the core part with a side chain of the internal aspartic or glutamic residue catalyzed by a macrolactam synthetase. The resulting structure has a tail that is threaded and fixed inside the cycle formed. Here, we characterize a new lasso peptide, pseudomycoidin, encoded by DSM 12442. The most surprising and unique feature of pseudomycoidin is that it can be produced from the ribosomally synthesized core part by a macrolactam synthetase, in the absence of the leader protease. The minimalism of the pseudomycoidin synthesis system makes it a powerful model to generate pseudomycoidin-based lasso-peptide libraries and to study the poorly understood process of lasso formation. We detected two additional pseudomycoidin modifications: phosphorylation of a terminal residue that was previously observed in another lasso peptide, followed by glycosylation, which was not observed heretofore. We speculate that these bulky C-terminal modifications may help maintain the threaded lasso topology of the compound synthesized by the macrolactam synthetase.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6993621 | PMC |
| http://dx.doi.org/10.1039/c9sc02370d | DOI Listing |
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