Growth Response of Non-Conventional Yeasts on Sugar-Rich Media: Part 1: High Production of Lipid by Lipomyces starkeyi and Citric Acid by Yarrowia lipolytica

Sugar-rich waste streams, generated in very high quantities worldwide, constitute an important source of environmental pollution. Their eco-friendly conversions into a plethora of added-value compounds through the use of microbial fermentations is currently a very "hot" scientific topic. T...

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Published in:Microorganisms (Basel) 2023-07, Vol.11 (7), p.1863
Main Authors: Diamantopoulou, Panagiota, Sarris, Dimitris, Tchakouteu, Sidoine Sadjeu, Xenopoulos, Evangelos, Papanikolaou, Seraphim
Format: Article
Language:English
Subjects:
Acids
Batch culture
Biodiesel fuels
Biofuels
Biomass
Bioreactors
Carbon
Cell culture
Citric acid
Comparative analysis
Dextrose
Dry cells
Experiments
Flasks
Food
Glucose
Growth
Lipids
Lipomyces starkeyi
Measurement
Metabolism
Metabolites
microbial lipids
microbial mass
Microorganisms
Nitrogen
Oleic acid
Physiological aspects
Substrates
Sugar
Synthesis
Waste management
Waste streams
Yarrowia lipolytica
Yeast
Yeast fungi
Yeasts
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Summary:Sugar-rich waste streams, generated in very high quantities worldwide, constitute an important source of environmental pollution. Their eco-friendly conversions into a plethora of added-value compounds through the use of microbial fermentations is currently a very "hot" scientific topic. The aim of this study, was to assess the potential of single cell oil (SCO), microbial mass and citric acid (CA) production by non-conventional yeast strains growing on expired ("waste") glucose. Six yeast strains ( . DSM 4444, NRRL YB-252, NRRL Y-27012, LFMB Y-20, ACA-DC 50109 and DSM 70296) were initially grown in shake flasks with expired glucose used as substrate under nitrogen limitation, in order to "boost" the cellular metabolism towards the synthesis of SCO and CA, and their growth response was quantitatively evaluated. Initial glucose concentration (Glc ) was adjusted at . 50 g/L. Besides , all other yeast strains produced noticeable SCO quantities [lipid in dry cell weight (DCW) ranging from 25.3% / to 55.1% / ]. Lipids of all yeasts contained significant quantities of oleic acid, being perfect candidates for the synthesis of 2nd generation biodiesel. The highest DCW production (=13.6 g/L) was obtained by DSM 70296, while both strains did not accumulate noticeable lipid quantities, but produced non-negligible CA amounts. The most promising CA-producing strain, namely ACA-DC 50109 was further studied in stirred-tank bioreactor systems, while the very promising DCW- and SCO-producing DSM 70296 was further studied in shake flasks. Both strains were grown on media presenting higher Glc concentrations and the same initial nitrogen quantity as previously. Indeed, grown at Glc = 85 g/L, produced DCW = 34.0 g/L, that contained lipid =34.1% / (thus SCO was =11.6 g/L). The strain ACA-DC 50109 in stirred tank bioreactor with Glc ≈ 105 g/L produced CA up to 46 g/L (yield of CA produced on glucose consumed; Y ≈ 0.45 g/g). Finally, in fed-batch bioreactor experiment, the significant CA quantity of 82.0 g/L (Y = 0.50 g/g) was recorded. Concluding, "waste" glucose proved to be a suitable substrate for a number of non-conventional yeast strains. ACA-DC 50109 produced significant quantities of CA while DSM 70296 was a very interesting DCW- and SCO-producing candidate. These strains can be used as potential cell factories amenable to convert glucose-based residues into the mentioned metabolic compounds, that present high importance for food, chemical and biofuel facilities.
ISSN:2076-2607
2076-2607
DOI:10.3390/microorganisms11071863