Natural flavor biosynthesis by lipase in fermented milk using in situ produced ethanol.

ABSTRACT: Many flavoring agents on the market are extracted from natural sources or synthesized chemically. Due to the disadvantages of both methods, biotechnology is becoming a promising alternative. In this study, short chain ethyl esters with fruity notes were biosynthesized in UHT whole milk via coupling ethanolic fermentation with lipase (Palatase®) transesterification. Kluyveromyces marxianus, Lactobacillus fermentum and Lb. paracasei were used for fermentation. Milk fat was esterified with in situ produced ethanol by adding lipase at 0, 8 and 24 h of fermentation. Viable cell counts and pH were monitored during 48 h fermentation period. Flavor active ethyl esters, ethanol and free fatty acids were analyzed using headspace SPME-GC. Free fatty acid levels were lower in K. marxianus samples than lactobacilli. K. marxianus produced higher amounts of ethanol and esters than lactic acid bacteria. Viable cell counts decreased after lipase application at 0 and 8 h, possibly due to fatty acid production. Addition of lipase at 24 h resulted in improved cell counts as well as ethanol and ester production in the case of K. marxianus. This study demonstrated that fermenting milk with alcohol producing cultures in conjunction with lipase application can be an alternative to artificial flavorings in fermented milks. © Association of Food Scientists & Technologists (India) 2020.