Biotransformations of Bile Acids with Bacteria from Cayambe Slaughterhouse (Ecuador): Synthesis of Bendigoles

Abstract: The biotransformations of cholic acid (1a), deoxycholic acid (1b), and hyodeoxycholic acid (1c) to bendigoles and other metabolites with bacteria isolated from the rural slaughterhouse of Cayambe (Pichincha Province, Ecuador) were reported. The more active strains were characterized, and belong to the genera Pseudomonas and Rhodococcus. Various biotransformation products were obtained depending on bacteria and substrates. Cholic acid (1a) afforded the 3-oxo and 3-oxo-4-ene derivatives 2a and 3a (45% and 45%, r… Show more

“…Their main physiological function is to emulsify bile lipids and dietary lipids. Bile acids may be easily recovered as side products from the food industry and thus represent a discard product, from cattle or pig slaughterhouses [32], that is used to produce bile acid substitutes for humans [33]; surface active molecules are also known to express antifungal activity, thus we thought that it could be an interesting approach to use modified bile acids as antifungal agents [34,35].…”

Biotransformation of Waste Bile Acids: A New Possible Sustainable Approach to Anti-Fungal Molecules for Crop Plant Bioprotection?

“…Their main physiological function is to emulsify bile lipids and dietary lipids. Bile acids may be easily recovered as side products from the food industry and thus represent a discard product, from cattle or pig slaughterhouses [32], that is used to produce bile acid substitutes for humans [33]; surface active molecules are also known to express antifungal activity, thus we thought that it could be an interesting approach to use modified bile acids as antifungal agents [34,35].…”

Biotransformation of Waste Bile Acids: A New Possible Sustainable Approach to Anti-Fungal Molecules for Crop Plant Bioprotection?

Biotransformation of Hyodeoxycholic and Deoxycholic Bile Acids