PEMANFAATAN BAHAN TUMBUHAN SEBAGAI BIOKATALISATOR DALAM PRODUKSI MINYAK SAWIT KAYA ASAM LEMAK OMEGA-3 1) [Using of Plant Biocatalisator for Omega-3 PUFA -Rich Palm Oil Production]

Jenny Elisabeth, D. Siahaan, D. R. H. Simajuntak

Abstract

Incorporaton  of omega-3 polyunsaturated fatty acids (n-3 PUFA) into red palm oil was investigated by using acidolysis process. Rice bran and Carica papaya latex (CPL) were used as biocatalyst. Acidolysis between red palm  oil and n-3 PUFA concentrate in free  fatty acid form was conducted without solvent, with weight ratio of n-3 PUFA concentrate to palm oil being 1:1. The n-3 PUFA concentrate was prepared from tuna oil by crystallization method. The study has demonstrated  that rice bran lipase showed higher activity to incorporate n-3 PUFA into red palm oil than CPL. The extent of EPA (eicosapentaenoic acid, C20:5) and DHA (docosahexaeboic acid, C22:6) incorporation were 3.4% and 12.7% with the rice bran lipase, and 1.7% and 3.2%  with the CPL. Furthermore, rice bran from several varities of paddy (Mamberamo, IR-64, Merah Munte , and Cirata) produced equal  incorporation of EPA and DHA into red palm oil. Rice bran from germinated seed of paddy  did not increase the n-3 PUFA incorporation into red palm oil. It means that rice bran in its natural form could be used and act as immobilized lipase. It is easier to remove the rice bran from reaction mixture and reuse the bran for 14 times without decreasing its enzyme activity.

 

Authors

Jenny Elisabeth
jenny@yahoo.com (Primary Contact)
D. Siahaan
D. R. H. Simajuntak
ElisabethJ., SiahaanD., & SimajuntakD. R. H. (2012). PEMANFAATAN BAHAN TUMBUHAN SEBAGAI BIOKATALISATOR DALAM PRODUKSI MINYAK SAWIT KAYA ASAM LEMAK OMEGA-3 1) [Using of Plant Biocatalisator for Omega-3 PUFA -Rich Palm Oil Production]. Jurnal Teknologi Dan Industri Pangan, 13(2), 144. Retrieved from https://medpet.journal.ipb.ac.id/index.php/jtip/article/view/4342
Copyright and license info is not available

Article Details