Thiamyxins: Structure and Biosynthesis of Myxobacterial RNA‐Virus Inhibitors

During our search for novel myxobacterial natural products, we discovered the thiamyxins: thiazole‐ and thiazoline‐rich non‐ribosomal peptide‐polyketide hybrids with potent antiviral activity. We isolated four congeners of this unprecedented natural product family with the non‐cyclized thiamyxin D fused to a glycerol unit at the C‐terminus. Alongside their structure elucidation, we present a concise biosynthesis model based on biosynthetic gene cluster analysis and isotopically labelled precursor feeding. We report incorporation of a 2‐(hydroxymethyl)‐4‐methylpent‐3‐enoic acid moiety by a GCN5‐related N‐acetyltransferase‐like decarboxylase domain featuring polyketide synthase. The thiamyxins show potent inhibition of RNA viruses in cell culture models of corona, zika and dengue virus infection. Their potency up to a half maximal inhibitory concentration of 560 nM combined with milder cytotoxic effects on human cell lines indicate the potential for further development of the thiamyxins.