Conversion of oil waste to valuable fatty acids using Oleaginous yeast

Abstract

Oil waste poses a highly dangerous threat to the environment, mainly because it is considered a high energy demanding degradation process. Oleaginous yeast utilizing oil waste to produce microbial fatty acids is considered an innovative method for oil waste elimination. In the present study, fifteen yeast isolates were screened for their lipid content, three of which were chosen for their high lipid content as compared to the standard strain Phaffia rhodozyma NRRL-Y-10921. The three selected isolates were further screened for their fatty acid profile. Yeast isolate (NC-I), identified as Yarrowia lipolytica, was chosen because it exceeded the lipid production of the standard strain by 21%, it also produced the highest C 14:0 (myristic acid), C 18:1 (oleic acid) and C18:2 (linoleic acid), compared to the other two isolates. Growth on different oil wastes resulted in an increase in total lipid content which reached its maximum when oil waste of frying vegetables was added to the media (57.89%). A variation in the fatty acid profile was detected when different types of oil waste were used before and after fermentation. The addition of different glucose concentrations to the vegetable oil waste media resulted in the appearance of C 22:0 (behenic acid) which was not present when the basal medium was used. Scanning Electron Microscopy indicated morphologic changes when the yeast was grown in high glucose concentration as compared to those grown in oil waste media. The activity of malate dehydrogenase (MDH) enzyme exhibited a correlative relationship with the lipid content under various glucose concentrations. The obtained results indicate that vegetable oil waste is suitable for microbial fatty acid production and that the fatty acid profile could be maneuvered through the manipulation of the fermentation media.