화학공학소재연구정보센터
Process Biochemistry, Vol.45, No.7, 1043-1051, 2010
Biosynthesis of ursolic acid derivatives by microbial metabolism of ursolic acid with Nocardia sp strains-Proposal of new biosynthetic pathways
Our studies of the microbial-metabolism of triterpenoid ursolic acid by various Nocardia sp. strains, have led to the proposal of two novel pathways to produce triterpenoid derivatives. Nocardia sp. NRRL 5646, Nocardia sp. 44822 and Nocardia sp. 44000 generated the following ursolic acid derivatives: ursolic acid methyl ester, ursonic acid, ursonic acid methyl ester, 3-oxoursa-1,12-dien-28-oic acid and 3-oxoursa-1,12-dien-28-oic acid methyl ester. Nocardia sp. 45077 synthesized ursonic acid and 3-oxoursa-1,12-dien-28-oic acid while Nocardia sp. 46002 produced only ursonic acid and Nocardia sp. 43069 showed no metabolism at all. The conversion of ursolic acid by Nocardia sp. NRRL 5646 was independent of the medium used for the fermentation. An increase in temperature from 28 degrees C to 36 degrees C doubled the reaction rate of the biotransformation. The analysis of ursane metabolites was done by HPLC, while their structures were established using HPLC-APCI(pos)-MS/MS and HPLC-NMR spectroscopy. The pseudo molecular ion peaks were determined by HPLC-APCI(pos)-MS and used to measure their molecular weight. The product ion spectra of the metabolites showed the characteristic fragments of Delta(12)-oleanes and Delta(12)-ursanes indicating that a substitution in ring A or B was responsible for the decrease in molecular weight. Based on these results, two new biosynthetic pathways are proposed. These new pathways can presumably be used as strategic routes for the biotechnological production of triterpenoid derivatives. It is assumed that a 3 beta-hydroxysteroid dehydrogenase and a 3-ketosteroid-Delta(1)-dehydrogenase are involved in the transformation of the steroid. (C) 2010 Elsevier Ltd. All rights reserved.