1 |
Shi B , Valle-Rodriguez JO, S iewers V , Nielsen J. 2011. Prospects for microbial biodiesel production. Biotechnol. J. 6: 277-285.
DOI
ScienceOn
|
2 |
Taccari M, Canonico L, Comitini F, Mannazzu I, Ciani M. 2012. Screening of yeasts for growth on crude glycerol and optimization of biomass production. Bioresour. Technol. 110: 488-495.
DOI
|
3 |
Thompson JC, He B. 2006. Characterization of crude glycerol from biodiesel production from multiple feedstocks. Appl. Eng. Agric. 23: 261-265.
|
4 |
Wang Q, Guo FJ, Rong YJ, Chi ZM. 2012. Lipid production from hydrolysate of cassava starch by Rhodosporidium toruloides 21167 for biodiesel making. Renew. Energy 46: 164-168.
DOI
|
5 |
Kimura K, Yamaoka M, Kamisaka Y. 2004. Rapid estimation of lipids in oleaginous fungi and yeast using Nile red fluorescence. J. Microbiol. Methods 56: 331-338.
DOI
ScienceOn
|
6 |
Makri A, Fakas S, Aggelis G. 2010. Metabolic activities of biotechnological interest in Yarrowia lipolytica grown on glycerol in repeated batch cultures. Bioresour. Technol. 101: 2351-2358.
DOI
|
7 |
Meesters PA, Huijberts GNM, Eggink G. 1996. High cell density cultivation of the lipid accumulating yeast Cryptococcus curvatus using glycerol as a carbon source. Appl. Microbiol. Biotechnol. 45: 575-579.
DOI
ScienceOn
|
8 |
Meng X, Yang J, Xu X, Zhang L, Nie Q, Xian M. 2009. Biodiesel production from oleaginous microorganisms. Renew. Energy 34: 1-5.
DOI
ScienceOn
|
9 |
Metcalfe LD, Schimitz AA, Pelka JR. 1966. Rapid preparation of fatty acids esters from lipid for gas chromatography. Anal. Chem. 38: 514.
DOI
|
10 |
Nwabueze TU. 2010. Basic steps in adapting response surface methodology as mathematical modelling for bioprocess optimisation in the food systems. Int. J. Food Sci. Technol. 45: 1768-1776.
DOI
|
11 |
Papanikolau S, Muniglia L, Chevalot I, Aggelis G, Marc I. 2002. Yarrowia lipolytica as a potential producer of citric acid from raw glycerol. J. Appl. Microbiol. 92: 737-744.
DOI
ScienceOn
|
12 |
Papanilolau S, Aggelis G. 2009. Biotechnological valorization of biodiesel derived glycerol waste through production of single cell oil and citric acid by Yarrowia lipolytica. Lipid Technol. 21: 83-87.
DOI
|
13 |
Rupcic J, Blagovic B, Maric V. 1996. Cell lipids of the Candida lipolytica yeast grown on methanol. J. Chromatogr. A 755: 75-80.
DOI
|
14 |
Rywinska A, Juszczyk P, Wojtatowicz M, Robak M, Lazar Z, Tomaszewska L, Rymowicz W. 2013. Glycerol as a promising substrate for Yarrowia lipolytica biotechnological applications. Biomass Bioenergy 48: 148-166.
DOI
ScienceOn
|
15 |
Andre A, Chatzifragkou A, Diamantopoulou P, Sarris D, Philippoussis A, Galiotou-Panayotou M, et al. 2009. Biotechnological conversions of bio-diesel-derived crude glycerol by Yarrowia lipolytica strains. Eng. Life Sci. 9: 468-478.
DOI
|
16 |
Chi Z, Pyle D, Wen Z, Frear C, Chen S. 2007. A laboratory study of producing docosahexaenolic acid from biodieselwaste glycerol by microalgal fermentation. Process Biochem. 42: 1537-1545.
DOI
ScienceOn
|
17 |
Angumeenal AR, Venkappayya D. 2013. An overview of citric acid production. Food Sci. Technol. 50: 367-370.
DOI
|
18 |
Beopoulos A, Cescut J, Haddouche R, Uribelarrea JL, Molina-Jouve C, Nicaud JM. 2009. Yarrowia lipolytica as a model for bio-oil production. Prog. Lipid Res. 48: 375-387.
DOI
ScienceOn
|
19 |
Chatzitragkou A, Makri A, Belka A, Bellou S, Mavrou M, Mastorididou M, et al. 2011. Biotechnological conversions of derived biodiesel by yeast and fungal species. Energy 36: 1097-1108.
DOI
ScienceOn
|
20 |
El Bialy H, Gomaa OM, Azab KS. 2011. Conversion of oil waste to valuable fatty acids using oleaginous yeast. World J. Microbiol. Biotechnol. 27: 2791-2798.
DOI
|
21 |
Fakas S, Papanikolau S, Galiotou-Panayotou M, Komaitis M, Aggelis G. 2006. Lipids of Cunninghamella echinulata with emphasis to -linolenic acid distribution among lipid classes. Microb. Biotechnol. 73: 676-683.
DOI
ScienceOn
|
22 |
Imandi SB, Bandaru VVR, Somalanka SR, Bandaru SR, Garapati HR. 2008. Application of statistical experimental designs for the optimization of medium constituents for the production of citric acid from pineapple waste. Bioresour. Technol. 99: 4445-4450.
DOI
ScienceOn
|
23 |
Karatay SE, Donmez G. 2010. Improving the lipid accumulation properties of the yeast cells for biodiesel production using molasses. Bioresour. Technol. 101: 7988-7990.
DOI
|
24 |
Duarte SH, De Andrade CCP, Ghiselli G, Maugeri F. 2013. Exploration of Brazilian biodiversity and selection of a new oleaginous yeast strain cultivated in raw glycerol. Bioresour. Technol. 138: 377-381.
DOI
|