Cryptic and Stereospecific Hydroxylation, Oxidation, and Reduction in Platensimycin and Platencin Biosynthesis

Platensimycin (PTM) and platencin (PTN) are highly functionalized bacterial diterpenoids of ent-kauranol and ent-atiserene biosynthetic origin. C7 oxidation in the B-ring plays a key biosynthetic role in generating structural complexityknown for ent-kaurane and ent-atisane derived diterpenoids. While all three oxidation patterns, α-hydroxyl, β-hydroxyl, and ketone, at C7 are seen in both the ent-kaurane and ent-atisane derived diterpenoids, their biosynthetic origins remain largely unknown. We previously established that PTM and PTN are produced by a single biosynthetic machinery, featuring cryptic C7 oxidations at the B-rings that transform the ent-kauranol and ent-atiserene derived precursors into the characteristic PTM and PTN scaffolds. Here, we report a three-enzyme cascade affording C7 α-hydroxylation in PTM and PTN biosynthesis. Combining in vitro and in vivo studies, we show that PtmO3 and PtmO6 are two functionally redundant α-ketoglutarate-dependent dioxygenasesthat generate a cryptic C7 β-hyd...