A highly selective whole cell biocatalysis method for the production of two major bioactive conjugated linoleic acid isomers
Abstract
Conjugated linoleic acid (CLA) is well known potential anticarcinogenic, antiatherogenic and a number of
other therapeutic qualities bearing substance. In the present study we have isolated Lactobacillus
plantarum from local dairy buffalo milk and used as a whole cell biocatalyst, for selective CLA isomer
production from linoleic acid (LA). Quantitative analysis revealed that the cis-9, trans-11 CLA comprised
of 51% (w/w), while trans-10, cis-12 CLA accounted for 49% (w/w) of total CLA produced by L. plantarum.
The product formation and quantitation was monitored by the spectrophotometric method and the
individual isomers separation was done with GC–FID. After optimization of biotransformation conditions
such as pH, LA concentration, effect of preincubation, fermentation time; the highest CLA production
(19.07% conversion) was achieved at 120 h in the presence of 1.62 mg ml−1 of LA. The results revealed
that the bacterium is an efficient biocatalyst for the production of two major bioactive CLA isomers using
LA as a substrate.