De. Cane et al., EPICUBENOL SYNTHASE AND THE ENZYMATIC CYCLIZATION OF FARNESYL DIPHOSPHATE, Journal of the American Chemical Society, 115(18), 1993, pp. 8103-8106
Incubation of [1-H-3]farnesyl diphosphate (2) with a cell-free extract
obtained from Streptomyces sp. LL-B7 gave tritiated epicubenol (1), a
s confirmed by recrystallization of the derived triol 3 to constant ac
tivity. Cyclization of [13,13,13-H-2(3)]farnesyl diphosphate (2a) with
crude epicubenol synthase gave [13,13,13-H-2(3)]epicubenol (1a), as e
stablished by H-2 NMR analysis. The existence of a 1,3-hydride shift w
as demonstrated by conversion of [1,1-H-2(2)]-farnesyl farnesyl diphos
phate (2b) to epicubenol (1b) which was shown by H-2 NMR to be labeled
with deuterium at C-5 and C-11. These results can be explained by a p
roposed cyclization mechanism involving the intermediacy of nerolidyl
diphosphate (4).