Solvolytic rearrangement of the C/D ring system of the tetracyclic diterpenoid stemodinone (2) afforded the compounds 15(13-->12)abeo-13beta-hydroxystemaran-2-one (5) and 15(8-->9)abeo-8beta(H)-12beta-hydroxystachan-2-one (10). Terpene 5 possesses a novel diterpene skeleton. Oxidation of these compounds yielded their respective diketones. Bioconversion of 5 by Rhizopus oryzae yielded 15(13-->12)abeo-7beta,13beta-dihydroxystemaran-2-one (18) while microbial transformation of 10 provided 15(8-->9)abeo-8beta(H)-6alpha,12beta-dihydroxystachan-2-one (19), 15(8-->9)abeo-8beta(H)-7beta,12beta-dihydroxystachan-2-one (20) and 15(8-->9)abeo-8beta(H)-6alpha,12beta,14beta-trihydroxystachan-2-one (21). A rationale for the formation of the rearranged compounds is proposed.
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