| Title | Bioconversion of commercial and crude glycerol to single-cell oils by the Antarctic yeast Rhodotorula glutinis R4 as a biodiesel feedstock |
|---|---|
| ID_Doc | 14294 |
| Authors | Angelicola, MV; Fernández, PM; Aybar, MJ; Van Nieuwenhove, CP; Figueroa, LIC; Viñarta, SC |
| Title | Bioconversion of commercial and crude glycerol to single-cell oils by the Antarctic yeast Rhodotorula glutinis R4 as a biodiesel feedstock |
| Year | 2023 |
| Published | |
| Abstract | Ability of the oleaginous yeast Rhodotorula glutinis R4 to produce single-cell oils (SCO) using different concentrations (25-100 g L-1) of commercial and crude glycerol as substrate was evaluated. R. glutinis R4 reached 44-57% and 41-52% (w/w) of lipid accumulation when grown with 25-100 g L-1 of crude and commercial glycerol, respectively. R4 grown with 35 and 50 g L-1 of crude glycerol reached a lipid accumulation of 44-45% (w/w) at 120 h corresponding to 6 g L-1 of lipid concentration, with a yield Y-L/S similar to 0.45 g g(-1), lipid productivity (Q(L)) of 0.05 g L(-1)h(-1), and a glycerol consumption of 31 and 37.2 g L-1, respectively. Regarding the volumetric productivities at the different concentrations, the Q(L) (0.05 g L-1 h(-1)) and Q(X) (0.11 g L-1 h(-1)), did not differ statistically from the control (glucose). Lipid accumulation was higher at 216 h of culture using 100 g L-1 of glycerol (51 and 57% for commercial and crude, respectively), but a significant decrease of Q(L) (from 0.05 to 0.03 g L-1 h(-1)) and Q(x) (0.11 to 0.09 g L-1 h(-1)) was observed. A negative effect on yield, Q(x) and Q(L) was observed at glycerol concentrations above 50 g L-1. R4 SCO showed a fatty acid profiles rich in oleic acid and suitable for biodiesel production, and were efficiently transformed into biodiesel with yields above 90% by acid transesterification. Biodiesels derived from R4 using crude glycerol are fully complies with international biodiesel standards. This allows advance in a process of circular economy for biodiesel industry. |
Similar Articles
| ID | Score | Article |
|---|---|---|
22267
|
Maza, DD; Barros, JM; Guillamón, JM; Aybar, MJ; Viñarta, SC Valorization of Sugarcane Vinasse and Crude Glycerol for Single-Cell Oils Production by Rhodotorula glutinis R4: A Preliminary Approach to the Integration of Biofuels Industries for Sustainable Biodiesel Feedstock(2024)Fermentation-Basel, 10.0, 4 | |
| 10986
|
Carota, E; Petruccioli, M; D'Annibale, A; Crognale, S Mixed glycerol and orange peel-based substrate for fed-batch microbial biodiesel production(2020)Heliyon, 6, 9 | |
| 25857
|
Elsayed, M; Eraky, M; Osman, AI; Wang, J; Farghali, M; Rashwan, AK; Yacoub, IH; Hanelt, D; Abomohra, A Sustainable valorization of waste glycerol into bioethanol and biodiesel through biocircular approaches: a review(2024)Environmental Chemistry Letters, 22, 2 | |
| 26060
|
Bencresciuto, GF; Mandala, C; Migliori, CA; Giansante, L; Di Giacinto, L; Bardi, L Microbial Biotechnologies to Produce Biodiesel and Biolubricants from Dairy Effluents(2024)Fermentation-Basel, 10, 6 | |
| 14667
|
Filippousi, R; Tsouko, E; Mordini, K; Ladakis, D; Koutinas, AA; Aggelis, G; Papanikolaou, S Sustainable arabitol production by a newly isolated Debaryomyces prosopidis strain cultivated on biodiesel-derived glycerol(2022)Carbon Resources Conversion, 5, 1 | |
| 26105
|
Sierra, W; Menéndez, P; Giordano, SR Metabolic engineered E. coli for the production of (R)-1,2-propanediol from biodiesel derived glycerol(2022)Biofuels-Uk, 13, 8 | |
| 29584
|
Chintagunta, AD; Zuccaro, G; Kumar, M; Kumar, SPJ; Garlapati, VK; Postemsky, PD; Kumar, NSS; Chandel, AK; Simal-Gandara, J Biodiesel Production From Lignocellulosic Biomass Using Oleaginous Microbes: Prospects for Integrated Biofuel Production(2021) | |
| 27943
|
Parate, R; Borgave, M; Dharne, M; Rode, C Bioglycerol (C3) upgrading to 2,3-butanediol (C4) by cell-free extracts of Enterobacter aerogenes NCIM 2695(2021)Journal Of Chemical Technology And Biotechnology, 96.0, 5 | |
| 15478
|
Nemcova, A; Szotkowski, M; Samek, O; Caganova, L; Sipiczki, M; Marova, I Use of Waste Substrates for the Lipid Production by Yeasts of the Genus Metschnikowia-Screening Study(2021)Microorganisms, 9, 11 | |
| 7298
|
Singh, S; Chaturvedi, S; Syed, N; Rastogi, D; Kumar, P; Sharma, PK; Kumar, D; Sahoo, D; Srivastava, N; Nannaware, AD; Khare, SK; Rout, PK Production of fatty acids from distilled aromatic waste biomass using oleaginous yeast(2024) |