Rye and Oat Agricultural Wastes as Substrate Candidates for Biomass Production of the Non-Conventional Yeast Yarrowia lipolytica

Drzymała, Katarzyna; Mirończuk, Aleksandra M.; Pietrzak, Witold; Dobrowolski, Adam

doi:10.3390/su12187704

Cited by 32 publications

(28 citation statements)

References 44 publications

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“…In the examined biomass, the total lipid content, the other factor affecting quality of biomass, reached 20.8% in the dry biomass weight ( Table 4 ), and was comparable to or even higher than the results presented for Y. lipolytica by other researchers, where the lipid content was in the range 6.5–20.3% [ 40 , 41 , 42 , 49 ]. It is worth noting that in the present study, the yeast was cultivated in conditions of high nitrogen availability, whereas lipid accumulation is favored when nitrogen is limited in the culture medium.…”

Section: Discussionsupporting

confidence: 83%

“…In the biomass, the limiting amino acids were methionine and cysteine, the pool of which reached 1.6 g/100 g of protein, corresponding to a chemical score of 28.1 and 94.1 calculated with respect to the FAO/WHO standards for whole egg and adult men’s requirements, respectively. The low sulfuric content of the Y. lipolytica yeast was also noted in previous reports [ 40 , 41 , 42 ]. For animal feed, the recommended level of sulfur amino acids is 3.5 g/100 g of protein [ 47 ].…”

Section: Discussionsupporting

confidence: 82%

“…The protein content of the biomass increased up to 29.9% with increased nitrogen availability in the culture where the C:N:P ratio reached 87:5:1 ( Table 2 ). In processes optimized for biomass production, and thus without limiting factors and with comparatively high nitrogen availability, the protein content in the dry matter of Y. lipolytica has ranged from over 30% up to 54% [ 40 , 41 , 42 , 43 ]. The literature reports that high carbon excess stimulated different processes performed with Y. lipolytica , e.g., erythritol [ 38 , 39 ], lipid [ 37 ] and citric acid [ 36 ] production, where a C:N ratio of about 87:1, 100:1 and 367:1 was applied, respectively.…”

Section: Discussionmentioning

confidence: 99%

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Application of a New Engineered Strain of Yarrowia lipolytica for Effective Production of Calcium Ketoglutarate Dietary Supplements

Tomaszewska-Hetman

Rywińska

Lazar

et al. 2021

IJMS

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The present study aimed to develop a technology for the production of dietary supplements based on yeast biomass and α-ketoglutaric acid (KGA), produced by a new transformant of Yarrowia lipolytica with improved KGA biosynthesis ability, as well to verify the usefulness of the obtained products for food and feed purposes. Transformants of Y. lipolytica were constructed to overexpress genes encoding glycerol kinase, methylcitrate synthase and mitochondrial organic acid transporter. The strains were compared in terms of growth ability in glycerol- and oil-based media as well as their suitability for KGA biosynthesis in mixed glycerol–oil medium. The impact of different C:N:P ratios on KGA production by selected strain was also evaluated. Application of the strain that overexpressed all three genes in the culture with a C:N:P ratio of 87:5:1 allowed us to obtain 53.1 g/L of KGA with productivity of 0.35 g/Lh and yield of 0.53 g/g. Finally, the possibility of obtaining three different products with desired nutritional and health-beneficial characteristics was demonstrated: (1) calcium α-ketoglutarate (CaKGA) with purity of 89.9% obtained by precipitation of KGA with CaCO3, (2) yeast biomass with very good nutritional properties, (3) fixed biomass-CaKGA preparation containing 87.2 μg/g of kynurenic acid, which increases the health-promoting value of the product.

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Section: Discussionsupporting

confidence: 83%

Section: Discussionsupporting

confidence: 82%

Section: Discussionmentioning

confidence: 99%

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Application of a New Engineered Strain of Yarrowia lipolytica for Effective Production of Calcium Ketoglutarate Dietary Supplements

Tomaszewska-Hetman

Rywińska

Lazar

et al. 2021

IJMS

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“…Others found a maximum biomass of 7.4 g L − 1 (reached after 144 h) for Y. lipolytica grown on wheat straw hydrolysate [51]. Conversely, when grown for 120 h on rye straw hydrolysate, it was 3.35 g L −1 [63]. Concluding, our results suggest that wheat straw pretreated by the strategy developed in our study could be efficiently bio-converted into valuable platform chemicals or biofuels.…”

Section: Discussionmentioning

confidence: 53%

Optimization of steam explosion parameters for improved biotechnological use of wheat straw

Sulzenbacher

Atzmüller

Hawe

et al. 2021

Biomass Conv. Bioref.

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Using lignocellulosic raw materials as substrate for biotechnological applications has been a focus of research during the last two decades. They contain sugars, which can be used in industrial fermentation processes, in from of polysaccharides (cellulose, hemicellulose). Wheat straw, one representative of lignocellulosic materials, is sustainably and abundantly available, especially in Europe and North America. However, wheat straw, just like any other lignocellulosic material, needs to be pretreated in one way or the other in order to generate sufficient quantities of monosaccharides. One widely used pretreatment for lignocellulosic material is steam explosion combined with enzymatic hydrolysis. In this study, the effects of steam exploding wheat straw in combination with water are presented. By impregnation with water, saccharide yields from subsequent enzymatic hydrolysis increased from 18.8 to 22.6 g L−1 for glucose and 13.8 to 16.4 g L−1 for xylose, respectively. Moreover, the basic steam explosion parameters residence time and temperature were optimized in ranges from 5 to 20 min and 180–200 °C. This further optimization increased the maximum saccharide yield to 41.2 g L−1 for glucose (200 °C, 15 min) and 18.9 g L−1 for xylose (190 °C, 10 min). Finally, the growth of the intensively investigated biotechnological production host Yarrowia lipolytica on hydrolysates derived from different steam explosion parameters was evaluated. Y. lipolytica grew well in media containing up to 90% wheat straw hydrolysate as sole carbon source, demonstrating the potential as substrate for biotechnological processes.

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“…Hence, such the yeast is also called nutritional yeast. Noteworthy, Y. lipolytica can accumulate lipids intracellularly up to ≥40% of its cell dry weight or produce 30–50% protein of dried biomass ( Bellou et al, 2016 , Beopoulos et al, 2011 , Dourou et al, 2018 , Drzymała et al, 2020 , Jach et al, 2017 , Juszczyk et al, 2013 , Lopes et al, 2018 , Lopes et al, 2019 , Papanikolaou et al, 2001 , Papanikolaou et al, 2003 , Rywińska et al, 2013 ). Similar to animal cells, Y. lipolytica is also capable of vitamin B12 assimilation into its cells from biofuel waste acting as a substrate ( Jach et al 2020b ).…”

Section: Introductionmentioning

confidence: 99%

Production of enriched in B vitamins biomass of Yarrowia lipolytica grown in biofuel waste

Jach

Sajnaga

Janeczko

et al. 2021

Saudi Journal of Biological Sciences

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Yarrowia lipolytica as an oleaginous yeast is capable of growing in various non-conventional hydrophobic substrate types, especially industrial wastes. In this study, the content of thiamine (vitamin B1), riboflavin (vitamin B2), pyridoxine (vitamin B6), biotin (vitamin B7) and folic acid (vitamin B9) in the wet biomass of Y. lipolytica strains cultivated in biofuel waste (SK medium), compared to the standard laboratory YPD medium, was assessed. Additionally, the biomass of Y. lipolytica A-101 grown in biofuel waste (SK medium) was dried and examined for B vitamins concentration according to the recommended microbial methods by AOAC Official Methods. The mean values of these vitamins per 100 g of dry weight of Y. lipolytica grown in biofuel waste (SK medium) were as follows: thiamine 1.3 mg/100 g, riboflavin 5.3 mg/100 g, pyridoxine 4.9 mg/100 g, biotin 20.0 µg/100 g, and folic acid 249 µg/100 g. We have demonstrated that the dried biomass is a good source of B vitamins which can be used as nutraceuticals to supplement human diet, especially for people at risk of B vitamin deficiencies in developed countries. Moreover, the biodegradation of biofuel waste by Y. lipolytica is desired for environmental protection.

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Rye and Oat Agricultural Wastes as Substrate Candidates for Biomass Production of the Non-Conventional Yeast Yarrowia lipolytica

Cited by 32 publications

References 44 publications

Application of a New Engineered Strain of Yarrowia lipolytica for Effective Production of Calcium Ketoglutarate Dietary Supplements

Application of a New Engineered Strain of Yarrowia lipolytica for Effective Production of Calcium Ketoglutarate Dietary Supplements

Optimization of steam explosion parameters for improved biotechnological use of wheat straw

Production of enriched in B vitamins biomass of Yarrowia lipolytica grown in biofuel waste

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