| Title : Genome Mining and Assembly-Line Biosynthesis of the UCS1025A Pyrrolizidinone Family of Fungal Alkaloids - Li_2018_J.Am.Chem.Soc_140_2067 |
| Author(s) : Li L , Tang MC , Tang S , Gao S , Soliman S , Hang L , Xu W , Ye T , Watanabe K , Tang Y |
| Ref : Journal of the American Chemical Society , 140 :2067 , 2018 |
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Abstract :
UCS1025A is a fungal polyketide/alkaloid that displays strong inhibition of telomerase. The structures of UCS1025A and related natural products are featured by a tricyclic furopyrrolizidine connected to a trans-decalin fragment. We mined the genome of a thermophilic fungus and activated the ucs gene cluster to produce UCS1025A at a high titer. Genetic and biochemical analysis revealed a PKS-NRPS assembly line that activates 2S,3S-methylproline derived from l-isoleucine, followed by Knoevenagel condensation to construct the pyrrolizidine moiety. Oxidation of the 3S-methyl group to a carboxylate leads to an oxa-Michael cyclization and furnishes the furopyrrolizidine. Our work reveals a new strategy used by nature to construct heterocyclic alkaloid-like ring systems using assembly line logic. |
| PubMedSearch : Li_2018_J.Am.Chem.Soc_140_2067 |
| PubMedID: 29373009 |
| Gene_locus related to this paper: acrsp-ucsc |
| Gene_locus | acrsp-ucsc |
Li L, Tang MC, Tang S, Gao S, Soliman S, Hang L, Xu W, Ye T, Watanabe K, Tang Y (2018)
Genome Mining and Assembly-Line Biosynthesis of the UCS1025A Pyrrolizidinone Family of Fungal Alkaloids
Journal of the American Chemical Society
140 :2067
Li L, Tang MC, Tang S, Gao S, Soliman S, Hang L, Xu W, Ye T, Watanabe K, Tang Y (2018)
Journal of the American Chemical Society
140 :2067