ASIDOLISIS ENZIMATIK  MINYAK IKAN TUNA( THUNNUS THYNNUS) MENJADI PRODUK ASAM LEMAK KAYA OMEGA-3 DENGAN PEMANFAATAN LIPASE GETAH PEPAYA (carica papaya latex)

Wahyuningsih Wahyuningsih; Isti Pudjihastuti; Heny Kusumayanti

doi:10.14710/metana.v7i01.4031

DOI: https://doi.org/10.14710/metana.v7i01.4031

ASIDOLISIS ENZIMATIK MINYAK IKAN TUNA( THUNNUS THYNNUS) MENJADI PRODUK ASAM LEMAK KAYA OMEGA-3 DENGAN PEMANFAATAN LIPASE GETAH PEPAYA (carica papaya latex)

Wahyuningsih Wahyuningsih^{1, 2} , Isti Pudjihastuti^{3, 4}, Heny Kusumayanti^{5, 6}

¹1Laboratorium Proses Industri Kimia,PSD III Teknik Kimia,Fakultas Teknik, Universitas, Indonesia

²Diponegoro Jl Prof Sudharto SH,Tembalang Semarang, Indonesia

³2Laboratorium Bioteknologi,PSD III Teknik Kimia,Fakultas Teknik, Universitas, Indonesia

⁴ DiponegoroJl Prof Sudhatho SH,Tembalang,Semarang, Indonesia

⁵ Laboratorium Teknologi Pengolahan Pangan,PSD III Teknik Kimia,Fakultas Teknik, Indonesia

⁶ ,Universitas Diponegoro,Jl Prof Sudharto SH,Tembalang,Semarang, Indonesia

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BibTex Citation Data :

@article{METANA4031,
    author = {Wahyuningsih Wahyuningsih and Isti Pudjihastuti and Heny Kusumayanti},
    title = {ASIDOLISIS ENZIMATIK  MINYAK IKAN TUNA( THUNNUS THYNNUS) MENJADI PRODUK ASAM LEMAK KAYA OMEGA-3 DENGAN PEMANFAATAN LIPASE GETAH PEPAYA (carica papaya latex)},
    journal = {METANA},
  volume = {7},
    number = {01},
    year = {2012},
    keywords = {},
    abstract = {   ABSTRACT      Incorporation of omega-3 polyunsaturated acids (n-3 PUFA) into Tuna   (Thunnus thynnus)   fish oil was investigated by using acidolysis enzimatis Process.     The product   of this modification is expected to be used as an ingredient nutrifition food products, especially in milk and baby food as well as pregnant and lactating       The purpose   of this study was to optimiz  ing   the   use  d   of   lipased papaya latex (Carica papaya latex) in the product to incorporat  ion      fatty   acids rich in omega-3.  B  ioreactor   a  c  idol  y  sis   enzematik   development and     Optimization of   process the productivity of fatty acids rich in omega-3.   R  eaction   Acidolysis      was conducted between        tuna (thunnus thynnus) fish   oil     by   microbial lipase (5% of the weight of the substrate mixture) or vegetable lipased (Carica papaya latex) (6-10% by weight subtra  ct     mixture  ) as bio  c  atalist.  Ac  ido  ly  sis   mixture     the   bioreactor at 40    o      C for   (2-6 hours) and the stirring speed of 200 rpm, pH (4.5 to 6.5). to eliminate free fatty acids from the product a  ci  dol  y  sis   performed neutralization with NaOH     The results   are expected to show that the lipase papaya latex (Carica papaya latex) can be used as bio  c  atal  y  st   incorporate  d      omega  -3 fatty acids in   tunaIthunnus thunnyl) fish   oil   . In this study sought conditions for optimum incorporation rate, ie the use of papaya latex lipase concentration of 8%, the ratio of concentrations of omega-3 fatty acid and palm oil (1:1), pH = 5.5, Optimal time of 4 hours and the temperature (  40 o C  ) . The results were analyzed incorporation of omega-3 (EPA and DHA) with GC.EPA generated: 3.57% and DHA = 3.91%      Key word   :Acidolysis,Tuna fish oil    },
   issn = {2549-9130},  doi = {10.14710/metana.v7i01.4031},
    url = {https://ejournal.undip.ac.id/index.php/metana/article/view/4031}
}

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Abstract

ABSTRACT

Incorporation of omega-3 polyunsaturated acids (n-3 PUFA) into Tuna (Thunnus thynnus) fish oil was investigated by using acidolysis enzimatis Process. The product of this modification is expected to be used as an ingredient nutrifition food products, especially in milk and baby food as well as pregnant and lactating

The purpose of this study was to optimizing the used of lipased papaya latex (Carica papaya latex) in the product to incorporation fatty acids rich in omega-3.Bioreactor acidolysis enzematik development and Optimization of process the productivity of fatty acids rich in omega-3. Reaction Acidolysis was conducted between tuna (thunnus thynnus) fish oil by microbial lipase (5% of the weight of the substrate mixture) or vegetable lipased (Carica papaya latex) (6-10% by weight subtract mixture) as biocatalist.Acidolysis mixture the bioreactor at 40 ^o C for (2-6 hours) and the stirring speed of 200 rpm, pH (4.5 to 6.5). to eliminate free fatty acids from the product acidolysis performed neutralization with NaOH

The results are expected to show that the lipase papaya latex (Carica papaya latex) can be used as biocatalyst incorporated omega-3 fatty acids in tunaIthunnus thunnyl) fish oil . In this study sought conditions for optimum incorporation rate, ie the use of papaya latex lipase concentration of 8%, the ratio of concentrations of omega-3 fatty acid and palm oil (1:1), pH = 5.5, Optimal time of 4 hours and the temperature (40^oC) . The results were analyzed incorporation of omega-3 (EPA and DHA) with GC.EPA generated: 3.57% and DHA = 3.91%

Key word:Acidolysis,Tuna fish oil

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In Vol 7, No 01 (2011): Juli 2011