1. Palm oil wastes as feedstock for lipase production by Yarrowia lipolytica and biocatalyst application/reuse
- Author
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Denise M. G. Freire, Camila P. L. Souza, Alexandre G. Torres, Jully Lacerda Fraga, Priscilla Filomena Fonseca Amaral, Erika C.G. Aguieiras, Adejanildo da S. Pereira, and Laís O de Silva
- Subjects
Residue (complex analysis) ,biology ,Chemistry ,Yarrowia ,Environmental Science (miscellaneous) ,Raw material ,biology.organism_classification ,Agricultural and Biological Sciences (miscellaneous) ,Yeast ,law.invention ,Hydrolysis ,law ,biology.protein ,Food science ,Lipase ,Palm ,Distillation ,Biotechnology - Abstract
Palm oil production chain generates a greasy residue in the refining stage, the Palm Oil Deodorizer Distillate (PODD), mainly composed of free fatty acids. Palm oil is also used industrially to fry foods, generating a residual frying oil (RFO). In this paper, we aimed to produce lipase from palm agro-industrial wastes using an unconventional yeast. RFO_palm, from a known source, consisted of 0.11% MAG + FFA, 1.5% DAG, and 97.5 TAG, while RFO_commercial, from a commercial restaurant, contained 6.7% of DAG and 93.3% of TAG. All palm oil wastes were useful for extracellular lipase production, especially RFO_commercial that provided the highest activity (4.9 U/mL) and productivity (465 U/L.h) in 75 h of processing time. In 48 h of process, PODD presented 2.3 U/mL of lipase activity and 48.5 U/L.h of productivity. RFO_commercial also showed the highest values for lipase associated to cell debris (843 U/g). This naturally immobilized biocatalyst was tested on hydrolysis reactions to produce Lipolyzed Milk Fat and was quite efficient, with a hydrolysis yield of 13.1% and 3-cycle reuse. Therefore, oily palm residues seem a promising alternative to produce lipases by the non-pathogenic yeast Y. lipolytica and show great potential for industrial applications.
- Published
- 2021