Research Article
Utilization of Wheat Bran Acid Hydrolysate by Rhodotorula mucilaginosa Y-MG1 for Microbial Lipid Production as Feedstock for Biodiesel Synthesis
Table 3
Lipid production from lignocellulosic biomass using oleaginous yeasts.
| Strains | Lignocellulosic residues | Nitrogen source | Culture mode | Xa (g/L) | Lb (g/L) | Yc (%) | Reference |
| C. tropicalis | Palm empty fruit bunch | (NH4)2SO4 | Batch bioreactor | 6.40 | 1.60 | 25.00 | [53] | T. cutaneum CX1 | Corn stover hydrolysate | (NH4)2SO4 | Batch bioreactor | 10.20 | 3.10 | 30.40 | [54] | L. starkeyi | Acid bagasse hydrolysate | (NH4)2SO4 | Flask | 9.30 | 2.50 | 26.90 | [17] | Batch bioreactor | 9.60 | 2.51 | 26.10 | R. glutinis CGMCC 2.703 | Corncobs hydrolysate | (NH4)2SO4 | Continuous | 11.5 | 3.14 | 27.30 | [8] | Batch bioreactor | 15.27 | 5.50 | 36.40 | R. glutinis | Wheat straw hydrolysate | Yeast extract | Flask | 13.80 | 3.50 | 25.00 | [18] | R. mucilaginosa | Wheat straw hydrolysate | (NH4)2SO4 | Flask | 15.88 | 6.64 | 41.81 | [19] | R. mucilaginosa Y-MG1 | Corn stalk hydrolysate acid wheat bran hydrolysate | ā | Fed-batch bioreactor | 15.55 | 5.74 | 36.91 | This work | 11.6 | 4.50 | 38.79 |
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aBiomass; blipid yields; clipid content.
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