AI Article Synopsis
- The ammosamides (AMMs) are a group of natural compounds known for their diverse bioactivities, and a new related family called ammosesters (AMEs) has been discovered in the Streptomyces uncialis genome.
- AMEs have a distinct chemical structure featuring a C-4a methyl ester, which sets them apart from AMMs that have a C-4a amide, and they show some cytotoxic effects against various human cancer cells.
- The study highlights how the biosynthesis of these compounds diverges from a common precursor through specialized enzymes, suggesting new approaches to create diverse natural products based on these findings.
Article Abstract
The ammosamides (AMMs) are a family of pyrroloquinoline alkaloids that exhibits a wide variety of bioactivities. A biosynthetic gene cluster (BGC) that is highly homologous in both gene content and genetic organization to the amm BGC was identified by mining the Streptomyces uncialis DCA2648 genome, leading to the discovery of a sub-family of new AMM congeners, named ammosesters (AMEs). The AMEs feature a C-4a methyl ester, differing from the C-4a amide functional group characteristic to AMMs, and exhibit modest cytotoxicity against a broad spectrum of human cancer cell lines, expanding the structure-activity relationship for the pyrroloquinoline family of natural products. Comparative analysis of the ame and amm BGCs supports the use of a scaffold peptide as an emerging paradigm for the biosynthesis of the pyrroloquinoline family of natural products. AME and AMM biosynthesis diverges from a common intermediate by evolving the pathway-specific Ame24 O-methyltransferase and Amm20 amide synthetase, respectively. These findings will surely inspire future efforts to mimic Nature's combinatorial biosynthetic strategies for natural product structural diversity.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8210675 | PMC |
| http://dx.doi.org/10.1093/jimb/kuab027 | DOI Listing |
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