University of Isfahan Journal of Microbial Biology 3060-7647 8 32 2019 12 22 A statistical approach for the production of lipid, biomass, and phenolic from a newly isolated Pichia kudriavzevii strain from Caspian Sea fish A statistical approach for the production of lipid, biomass, and phenolic from a newly isolated Pichia kudriavzevii strain from Caspian Sea fish 153 163 24147 10.22108/bjm.2019.118893.1223 FA Mahshid Taremie 1Msc. of Food Science and Technology, Faculty Of Agricultural Engineering, Shahrood University Of Technology, Shahrood, Iran, Hamidreza Samadlouie Assistant Professor of Food Science and Technology, Faculty of Agriculture Engineering, Shahrood University Of Technology, Shahrood, Iran. Shahrokh Gharanjik Assistant Professor of Plant Biotechnology, Faculty of Agricultural Engineering, Shahrood University of Technology, Shahrood, Iran, Journal Article 2019 08 28 Introduction A wide variety of oleaginous yeast and their productions have been used as dietary supplements in food and feed productions. Fatty acid profiles and lipid of oleaginous yeast strains were highly influenced by physic-chemical conditions of medium Material and method Pichia kudriavzevii isolated from the gill of pike perch was capable enough to produce a high quantity of lipid and polyunsaturated fatty acids (PUFA).One factor at time was used to investigate the effect of various selected substrates on growth and lipid production by Pichia kudriavzevii in batch fermentation, subsequently the key substrates were optimized for lipid, biomass, and phenolic components production by using response surface methodology. Results The results of RSM indicated that maximum lipid (28 percentage of dry weight biomass) and phenolic component (2.25 mg gallic acid /g of dry biomass) were achieved in media that had 60 g/l glucose and 9 g/l protein resources. Dry weight biomass which had the highest content of lipid produced the most phenolic components with the highest antioxidant activity (50 % Inhibition).Pichia kudriavzevii’ lipid mainly consisted of palmitic acid (21.7%), oleicacid (33.2%) and linoleic acid (23.2 %), pointing that these fatty acids could be considered a reliable source of biodiesel production. Discussion and conclusion The maximum content of phenolic components and lipid production were obtained in the same medium. To minimize the lipid oxidation, yeast was stimulated for high phenolic components production which had the highest antioxidant activity to prevent the accumulated lipid from oxidation. Overall, temperature reduction by varying methods had a significant impact on fatty acids profile of Pichia kudriavzevii lipid so that it could be regarded not only as biodiesel but also PUFAs sources. Introduction A wide variety of oleaginous yeast and their productions have been used as dietary supplements in food and feed productions. Fatty acid profiles and lipid of oleaginous yeast strains were highly influenced by physic-chemical conditions of medium Material and method Pichia kudriavzevii isolated from the gill of pike perch was capable enough to produce a high quantity of lipid and polyunsaturated fatty acids (PUFA).One factor at time was used to investigate the effect of various selected substrates on growth and lipid production by Pichia kudriavzevii in batch fermentation, subsequently the key substrates were optimized for lipid, biomass, and phenolic components production by using response surface methodology. Results The results of RSM indicated that maximum lipid (28 percentage of dry weight biomass) and phenolic component (2.25 mg gallic acid /g of dry biomass) were achieved in media that had 60 g/l glucose and 9 g/l protein resources. Dry weight biomass which had the highest content of lipid produced the most phenolic components with the highest antioxidant activity (50 % Inhibition).Pichia kudriavzevii’ lipid mainly consisted of palmitic acid (21.7%), oleicacid (33.2%) and linoleic acid (23.2 %), pointing that these fatty acids could be considered a reliable source of biodiesel production. Discussion and conclusion The maximum content of phenolic components and lipid production were obtained in the same medium. To minimize the lipid oxidation, yeast was stimulated for high phenolic components production which had the highest antioxidant activity to prevent the accumulated lipid from oxidation. Overall, temperature reduction by varying methods had a significant impact on fatty acids profile of Pichia kudriavzevii lipid so that it could be regarded not only as biodiesel but also PUFAs sources.

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