Marjan Enshaeieh; Azadeh Abdoli; Iraj Nahvi; Mahboobeh Madani
Abstract
Microbial lipids have a great similarity to the lipids obtained from plants and animals. Triacylglycerol is the storage lipid in most of eukaryotic cells; this characteristic attracts a lot of attention for using these lipid sources in biodiesel production. Accumulation of neutral lipid composed of triacylglycerol ...
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Microbial lipids have a great similarity to the lipids obtained from plants and animals. Triacylglycerol is the storage lipid in most of eukaryotic cells; this characteristic attracts a lot of attention for using these lipid sources in biodiesel production. Accumulation of neutral lipid composed of triacylglycerol and sterylster is an induced response to environmental stresses in many living organisms. In this situation lipid accumulates as intracellular lipid bodies in yeast cells. Production of microbial oil has more cost than plant’s oil. In this case, reducing the cost of this process must be done by optimization of culture conditions to reach higher production yield. In this study the effect of physical parameters on lipid production of two oleaginous yeasts: Yarrowia lipolytica M7 and Candida sp. was investigated. The mentioned parameters were pH range of 4-7; centrifugation rates of 100, 150, 200 rpm; temperature of 15, 25, 35 and 45ºC and times of incubation of 24, 48, 72 and 96 h. Temperature and time of incubation had a significant effect on lipid production by these strains and optimization of them resulted in increased production of lipid from 25% to 34% in Yarrowia lipolytica M7.
Marjan Enshaeieh; Azadeh Abdoli; Iraj Nahvi; Mahboobeh Madani
Abstract
Micro-organisms such as bacteria, yeasts, molds and algae that accumulate lipid more than 20% of their biomass are called oleaginous. Microbial lipid has a lot of similarity to the oil obtained from plants and animals. Microbial lipids are renewable sources that can use for different purposes such as ...
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Micro-organisms such as bacteria, yeasts, molds and algae that accumulate lipid more than 20% of their biomass are called oleaginous. Microbial lipid has a lot of similarity to the oil obtained from plants and animals. Microbial lipids are renewable sources that can use for different purposes such as biodiesel production. Production of oil from yeasts has more advantages than plant’s oil. According to this, isolation of oleaginous yeast with high ability of lipid production is very valuable. In this investigation 176 yeasts were isolated. Between them 68 lipid producing yeasts were found that they were isolated from 34 soil samples. The strains were screened by an enrichment technique in glycerol and then Sudan black staining. After extraction of lipid by Bligh & Dyer method, best strain was selected which has lipid quantity, dry biomass and lipid productivity of 10.97g/l, 18.84g/l and 58.2% in optimized condition. Extracted lipid was analyzed by thin layer chromatography and FTIR spectroscopy.