Microbial transformation of 18beta-glycyrrhetinic acid by Cunninghamella elegans and Fusarium lini, and lipoxygenase inhibitory activity of transformed products.

The microbial transformation of 18beta-glycyrrhetinic acid (1) by Cunninghamella elegans afforded a metabolite, 3beta,7beta-dihydroxy-11-oxo-olean-12-en-30-oic acid (2), while fermentation of 1 with Fusarium lini afforded a metabolite, 3,11-dioxo-olean-12-en-30-oic acid (3). Compound 3 exhibited a potent lipoxygenase (LOX) inhibitory activity. The structures of these metabolites were elucidated on the basis of spectroscopic techniques.

Efficient screening and breeding of Bacillus thuringiensis subsp. kurstaki for high toxicity against Spodoptera exigua and Heliothis armigera.

Spodoptera exigua is one of the most renowned agricultural pest insects and relatively insensitive to Bacillus thuringiensis subsp. kurstaki strains which are widely used commercial products to control lepidopterans such as Heliothis armigera. In the current study, we have developed a new and efficient approach to screen and breed a B.

Structure elucidation and antibacterial activity of new fungal metabolites of sclareol.

The transformation of the antibacterial diterpene sclareol (1) by two different fungal strains was investigated (Scheme). In the presence of Rhizopus stolonifer, (3beta)-3-hydroxysclareol (2), 18-hydroxysclareol (3), (6alpha)-6,18-dihydroxysclareol (4), and (11S)-11,18-dihydroxysclareol (5) were formed. Fermentation of 1 with Fusarium lini afforded (1beta)-1-hydroxysclareol (6) and (12S)-12-hydroxysclareol (7).

Microbial transformation of mestranol by Cunninghamella elegans.

The microbial transformation of an oral contraceptive, mestranol (1) by Cunninghamella elegans yielded two hydroxylated metabolites, 6beta-hydroxymestranol (2) and 6beta,12beta-dihydroxymestranol (3). Metabolite 3 was found to be a new compound. These metabolites were structurally characterized on the basis of spectroscopic techniques.

Microbial transformation of prednisone.

The microbial transformation of prednisone (17alpha,21-dihydroxy-pregna-1,4-diene-3,11,20-trione) (1) by Cunninghamella elegans afforded two metabolites, 17alpha,21-dihydroxy-5alpha-pregn-1-ene-3,11,20-trione (2) and 17alpha,20S,21-trihydroxy-5alpha-pregn-1-ene-3,11-dione (3), while the fermentation of 1 with Fusarium lini, Rhizopus stolonifer and Curvularia lunata afforded a metabolite 1,4-pregnadiene-17alpha,20S,21-triol-3,11-dione (4). Compound 3 was found to be a new metabolite. Their structures were elucidated on the basis of spectroscopic techniques.