Late-stage cascade of oxidation reactions during the biosynthesis of oxalicine B in .

Oxalicine B () is an -pyrone meroterpenoid with a unique bispirocyclic ring system derived from . The biosynthetic pathway of 15-deoxyoxalicine B () was preliminarily reported in , however, the genetic base and biochemical characterization of tailoring reactions for oxalicine B () has remained enigmatic. In this study, we characterized three oxygenases from the metabolic pathway of oxalicine B (), including a cytochrome P450 hydroxylase OxaL, a hydroxylating Fe(II)/-KG-dependent dioxygenase OxaK, and a multifunctional cytochrome P450 OxaB. Intriguingly, OxaK can catalyze various multicyclic intermediates or shunt products of oxalicines with impressive substrate promiscuity. OxaB was further proven biochemical assays to have the ability to convert 15-hydroxdecaturin A () to with a spiro-lactone core skeleton through oxidative rearrangement. We also solved the mystery of OxaL that controls C-15 hydroxylation. Chemical investigation of the wild-type strain and deletants enabled us to identify 10 metabolites including three new compounds, and the isolated compounds displayed potent anti-influenza A virus bioactivities exhibiting IC values in the range of 4.0-19.9 μmol/L. Our studies have allowed us to propose a late-stage biosynthetic pathway for oxalicine B () and create downstream derivatizations of oxalicines by employing enzymatic strategies.