Improvement of Sporobolomyces ruberrimus carotenoids production by the use of raw glycerol

•Sporobolomyces ruberrimus H110 produced carotenoids from glycerol with high yield.•Carotenoids were identified as torularhodin, torulene, β-carotene and γ-carotene.•Raw glycerol presented higher yield and productivity when compared to pure glycerol.•Addition of fatty acids to pure glycerol was bene...

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Veröffentlicht in:	Bioresource technology 2016-01, Vol.200, p.374-379
Hauptverfasser:	Cardoso, L.A.C., Jäckel, S., Karp, S.G., Framboisier, X., Chevalot, I., Marc, I.
Format:	Artikel
Sprache:	eng
Schlagworte:	Basidiomycota - metabolism beta Carotene - biosynthesis Biofuels Bioreactors Carotenoids Carotenoids - biosynthesis Chromatography, Gas Chromatography, High Pressure Liquid Fatty acids Fatty Acids - analysis Fatty Acids - chemistry Fermentation Glycerol - chemistry Linoleic Acids - chemistry Mass Spectrometry Oleic Acids - chemistry Palmitic Acids - chemistry Raw glycerol Sporobolomyces ruberrimus Stearic Acids - chemistry Torularhodin
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description	•Sporobolomyces ruberrimus H110 produced carotenoids from glycerol with high yield.•Carotenoids were identified as torularhodin, torulene, β-carotene and γ-carotene.•Raw glycerol presented higher yield and productivity when compared to pure glycerol.•Addition of fatty acids to pure glycerol was beneficial for yield and productivity.•The presence of some fatty acids improved the proportion of torularhodin. The red yeast Sporobolomyces ruberrimus H110 was able to use glycerol as a carbon source. The highest concentration (0.51gL−1) and productivity (0.0064gL−1h−1) of carotenoids were achieved when raw glycerol from biodiesel production, containing around 1gL−1 of fatty acids, was used as the carbon source, which represented increases of 27% and 1.5×, respectively, in relation to pure glycerol. Mass spectrometry analysis led to the identification of four carotenoids in the fermented samples, torularhodin, torulene, β-carotene and γ-carotene. The use of raw glycerol also enhanced the proportion of torularhodin (69% against 59% in pure glycerol). The addition of individual fatty acids (palmitic, stearic, oleic and linoleic acids) to pure glycerol resulted in increases between 15% and 25% in maximum concentration and between 1.6× and 2.0× in productivity of carotenoids. The presence of palmitic and oleic acids increased the torularhodin proportion to 66%.
doi_str_mv	10.1016/j.biortech.2015.09.108
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The red yeast Sporobolomyces ruberrimus H110 was able to use glycerol as a carbon source. The highest concentration (0.51gL−1) and productivity (0.0064gL−1h−1) of carotenoids were achieved when raw glycerol from biodiesel production, containing around 1gL−1 of fatty acids, was used as the carbon source, which represented increases of 27% and 1.5×, respectively, in relation to pure glycerol. Mass spectrometry analysis led to the identification of four carotenoids in the fermented samples, torularhodin, torulene, β-carotene and γ-carotene. The use of raw glycerol also enhanced the proportion of torularhodin (69% against 59% in pure glycerol). The addition of individual fatty acids (palmitic, stearic, oleic and linoleic acids) to pure glycerol resulted in increases between 15% and 25% in maximum concentration and between 1.6× and 2.0× in productivity of carotenoids. 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The red yeast Sporobolomyces ruberrimus H110 was able to use glycerol as a carbon source. The highest concentration (0.51gL−1) and productivity (0.0064gL−1h−1) of carotenoids were achieved when raw glycerol from biodiesel production, containing around 1gL−1 of fatty acids, was used as the carbon source, which represented increases of 27% and 1.5×, respectively, in relation to pure glycerol. Mass spectrometry analysis led to the identification of four carotenoids in the fermented samples, torularhodin, torulene, β-carotene and γ-carotene. The use of raw glycerol also enhanced the proportion of torularhodin (69% against 59% in pure glycerol). The addition of individual fatty acids (palmitic, stearic, oleic and linoleic acids) to pure glycerol resulted in increases between 15% and 25% in maximum concentration and between 1.6× and 2.0× in productivity of carotenoids. The presence of palmitic and oleic acids increased the torularhodin proportion to 66%.</description><subject>Basidiomycota - metabolism</subject><subject>beta Carotene - biosynthesis</subject><subject>Biofuels</subject><subject>Bioreactors</subject><subject>Carotenoids</subject><subject>Carotenoids - biosynthesis</subject><subject>Chromatography, Gas</subject><subject>Chromatography, High Pressure Liquid</subject><subject>Fatty acids</subject><subject>Fatty Acids - analysis</subject><subject>Fatty Acids - chemistry</subject><subject>Fermentation</subject><subject>Glycerol - chemistry</subject><subject>Linoleic Acids - chemistry</subject><subject>Mass Spectrometry</subject><subject>Oleic Acids - chemistry</subject><subject>Palmitic Acids - chemistry</subject><subject>Raw glycerol</subject><subject>Sporobolomyces ruberrimus</subject><subject>Stearic Acids - chemistry</subject><subject>Torularhodin</subject><issn>0960-8524</issn><issn>1873-2976</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2016</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkEtv2zAQhImgReym_QsGj7nI5UOiqFsLo3kABnpoe-mFoJarmoYkuqTkwP8-NJzkmtMCg_l2d4aQFWdrzrj6ul-3PsQJYbcWjFdr1mRdX5El17UsRFOrD2TJGsUKXYlyQT6ltGeMSV6La7IQquJCK74kfx-HQwxHHHCcaOjor0OIoQ19GE6Aica5xRj9MCcKNoYJx-BdohlxM0w-jLQ90WmHdE54xqN9ov_6jMbQfyYfO9sn_PIyb8ifux-_Nw_F9uf94-b7tgCp9FS4TtWSVaxxWHKFXAomuNVQggZwNXJtoRJcSW1l5wQIVguuW8tKBbayIG_I7WVv_ur_jGkyg0-AfW9HDHMyvJa61LJRZbaqixViSCliZw45nI0nw5k592r25rVXc-7VsCbrOoOrlxtzO6B7w16LzIZvFwPmpEeP0STwOAI6HxEm44J_78Yz1viOhA</recordid><startdate>201601</startdate><enddate>201601</enddate><creator>Cardoso, L.A.C.</creator><creator>Jäckel, S.</creator><creator>Karp, S.G.</creator><creator>Framboisier, X.</creator><creator>Chevalot, I.</creator><creator>Marc, I.</creator><general>Elsevier Ltd</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>201601</creationdate><title>Improvement of Sporobolomyces ruberrimus carotenoids production by the use of raw glycerol</title><author>Cardoso, L.A.C. ; 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subjects	Basidiomycota - metabolism beta Carotene - biosynthesis Biofuels Bioreactors Carotenoids Carotenoids - biosynthesis Chromatography, Gas Chromatography, High Pressure Liquid Fatty acids Fatty Acids - analysis Fatty Acids - chemistry Fermentation Glycerol - chemistry Linoleic Acids - chemistry Mass Spectrometry Oleic Acids - chemistry Palmitic Acids - chemistry Raw glycerol Sporobolomyces ruberrimus Stearic Acids - chemistry Torularhodin
title	Improvement of Sporobolomyces ruberrimus carotenoids production by the use of raw glycerol
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