Up to 40,000 tons per year of glycerin will be produced from biodiesel by 2020.
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This study evaluated 11 glycerin samples for Pichia pastoris growth.
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For the first time glycerin from soybean oil was utilized for Pichia pastoris growth.
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Crude glycerin samples prepared with sodium hydroxide resulted in 1.5 higher OD.
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All together results highlight an important application for glycerin from soybean oil.
Abstract
Crude glycerol, also known as glycerin, is the main byproduct of the biodiesel industry. It has been estimated that up to 40,000 tons of glycerin will be produced each year by 2020. This study evaluated the value-added use of crude glycerol derived from soybean biodiesel preparation as a carbon source for heterologous protein production using the yeast Pichia pastoris. Eleven glycerin samples were obtained by methanolysis of soybean oil using different acids or bases as catalysts. Cell growth experiments showed that crude glycerol containing either potassium or sodium hydroxide resulted in 1.5–2 times higher final cell densities when compared to glycerol P.A. Finally, crude glycerol containing sodium hydroxide was successfully utilized for constitutive heterologous α-amylase production in P. pastoris. This study demonstrated that crude glycerol without any purification steps may be directly used as carbon source for protein production in P. pastoris.