Add to ORKGThe oleaginous yeast Lipomyces starkeyi is interesting for industrial-scale production of biodiesel. Here it is reported that this yeast is able to digest unsaccharified, soluble potato starch. In these experiments, the cultivation time of Lipomyces starkeyi was reduced to half of the previously reported values. The effect of C:N molar ratio was studied on growth and lipid content of L. starkeyi in media containing glucose or potato starch as C-source. At a C:N molar ratio of 61.2 in glucose medium, the lipid content was measured at 30 % of the dry matter. It was established that the cellular lipid content increased with increasing C:N molar ratio, but the cell yield decreased. In a pH-controlled 1-litre agitated and aerated bioreactor, bat...
Background: Microbial lipid production using renewable feedstock shows great promise for the biodies...
Biodiesel is an excellent renewable energy carrier currently being produced from vegetable oil. Howe...
peer reviewedBACKGROUND: Microbial lipid production using renewable feedstock shows great promise fo...
The oleaginous yeast Lipomyces starkeyi is interesting for industrial-scale production of biodiesel....
The oleaginous yeast Lipomyces starkeyi is interesting for industrial-scale production of biodiesel....
Biodiesel produced from plant oil, animal fats and microorganisms is a promising alternative to repl...
The depletion of fossil-based resources is due to the high demand of petroleum based fuels. Plant oi...
This study explored a strategy to convert agricultural residues into microbial lipid, which could be...
Biodiesel is a mixture of long-chain fatty acid methyl esters. It was made from vegetable oil and fa...
Producing microbial oils via oleaginous yeast fermentation has drawn broad attention in the biodiese...
Some microorganisms can accumulate lipid to more than 20 wt% of their biomass when carbohydrates or ...
<p>Fuels from renewable energy are gaining space in a landscape where the unbridled use of fossil fu...
In the search for new transport fuels from renewable resources, biodiesel from microbial lipids come...
The accumulation lipid from oleaginous microorganisms is recognized as a second generation fuel. Bio...
With ever-increasing culture of yeasts for the production of biofuels and other metabolites, spent y...
Background: Microbial lipid production using renewable feedstock shows great promise for the biodies...
Biodiesel is an excellent renewable energy carrier currently being produced from vegetable oil. Howe...
peer reviewedBACKGROUND: Microbial lipid production using renewable feedstock shows great promise fo...
The oleaginous yeast Lipomyces starkeyi is interesting for industrial-scale production of biodiesel....
The oleaginous yeast Lipomyces starkeyi is interesting for industrial-scale production of biodiesel....
Biodiesel produced from plant oil, animal fats and microorganisms is a promising alternative to repl...
The depletion of fossil-based resources is due to the high demand of petroleum based fuels. Plant oi...
This study explored a strategy to convert agricultural residues into microbial lipid, which could be...
Biodiesel is a mixture of long-chain fatty acid methyl esters. It was made from vegetable oil and fa...
Producing microbial oils via oleaginous yeast fermentation has drawn broad attention in the biodiese...
Some microorganisms can accumulate lipid to more than 20 wt% of their biomass when carbohydrates or ...
<p>Fuels from renewable energy are gaining space in a landscape where the unbridled use of fossil fu...
In the search for new transport fuels from renewable resources, biodiesel from microbial lipids come...
The accumulation lipid from oleaginous microorganisms is recognized as a second generation fuel. Bio...
With ever-increasing culture of yeasts for the production of biofuels and other metabolites, spent y...
Background: Microbial lipid production using renewable feedstock shows great promise for the biodies...
Biodiesel is an excellent renewable energy carrier currently being produced from vegetable oil. Howe...
peer reviewedBACKGROUND: Microbial lipid production using renewable feedstock shows great promise fo...