Abstract
The spores of Fusarium solani reduced the C(2)-carbonyl group, 1-dehydrogenated ring "A" and cleaved the side chain of 16alpha, 17alpha-oxidopregn-4-ene-3, 20-dione (16alpha, 17alpha-oxidoprogesterone)(I) to give the following products: 20alpha-hydroxy-16alpha, 17alpha-oxidopregn-4-en-3-one(II); 20alpha-hydroxy-16alpha, 17alpha-oxidopregna-1, 4-dien-3-one(III); 16alpha-hydroxy-17a-oxa-androsta-1, 4-diene-3, 17-dione (16alpha-hydroxy-1-dehydrotestololactone)(IV); and 16alpha, 17beta-dihydroxy-androsta-1, 4-dien-3-one (16alpha-hydroxy-1-dehydrotestosterone)(V). When II was used as a substrate, it was metabolized into III, IV, and V at a slower rate than I. Furthermore, 16alpha-hydroxy-androst-4-ene-3, 17-dione (16alpha-hydroxyandrostenedione)(X) was transformed into IV and V. Pregn-4-ene-3, 20-dione (progesterone)(XII) was transformed into androsta-1, 4-diene-3, 17-dione (androstadienedione)(VIII) and 17a-oxa-androsta-1, 4-diene-3, 17-dione (1-dehydrotestololactone)(IX), while 17alpha-hydroxy-pregn-4-ene-3, 20-dione (17alpha-hydroxyprogesterone)(VI) was converted into its 1-dehydro analogue (VII) without accumulation of any 20-dihydro compounds. Substrate specificity in the 20-reductase system of F. solani, Cylindrocarpon radicicola, Septomyxa affinis, Bacillus lentus, and three strains of B. sphaericus are demonstrated. The 20-reductase is active only on steroids having the 16alpha, 17alpha-oxido, and Delta(4)-3-keto functions. Evidence of competition between side-chain degrading enzymes and the 20-reductase for the steroid molecule and evidence of side-chain degradation followed by epoxide cleavage (and not the reverse) are presented. A mechanism for the epoxide opening by nongerminating spores of F. solani is postulated.
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