PRODUKSI MICROBIAL LIPID DARI RHODOTORULA GLUTINIS DENGAN VARIASI KONSENTRASI SUBSTRAT SUKROSA
Rhodotorula glutinis is a yeast with the ability to produce lipids up to 60,7% (w/w) of its dry biomass. The lipid accumulation by Rhodotorula glutinis can be stimulated under growth conditions with limited nitrogen concentration. In this study, Rhodotorula glutinis was cultivated in a nitrogen-l...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/75762 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Rhodotorula glutinis is a yeast with the ability to produce lipids up to 60,7% (w/w)
of its dry biomass. The lipid accumulation by Rhodotorula glutinis can be
stimulated under growth conditions with limited nitrogen concentration. In this
study, Rhodotorula glutinis was cultivated in a nitrogen-limiting medium with
varying excess carbon sources, specifically sucrose, at different initial
concentrations. The purpose was to determine the effect of increasing the initial
concentration of sucrose on the lipid yield from Rhodotorula glutinis. Three
different concentrations of sucrose were used: 10 g/L, 20 g/L, and 40 g/L. The
cultivation method used was batch culture, with an initial temperature of 30°C and
an initial pH of 6,0. The biomass was harvested after 120 hours of cultivation. The
highest lipid productivity was obtained with an initial sucrose concentration of 40
g/L, which was 0,118 ± 0,008 g/L/day. Meanwhile, the lipid productivities for
sucrose concentrations of 20 g/L and 10 g/L were 0,060 and 0,028 ± 0,003 g/L/day,
respectively. Based on the research results, it was found that increasing the initial
sucrose concentration had a significant impact on enhancing the lipid yield from
Rhodotorula glutinis, with a significance value of p < 0,01. Furthermore,
increasing the sucrose concentration up to 40 g/L remained advantageous in
improving both biomass and lipid yield, as indicated by the yield of biomass to
substrate (YX/S) and the yield of lipid to substrate (YP/S), which were 0,218 g/g
and 0,019 g/g, respectively.
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