Add to ORKGLignocellulosic biomass is an abundant raw material that can be utilized to produce ethanol with the help of Saccharomyces cerevisiae; a promising alternative to today’s energy sources. Conversion of lignocellulosic material (cellulose, hemicellulose and lignin) into fermentable sugars including both hexoses and pentoses results in formation of inhibitory compounds such as acetic acid, furan aldehydes and phenolics that are known to inhibit the yeasts’ metabolic processes. The aims of this study were to i) generate S. cerevisiae strains that can readily convert glucose and xylose into ethanol in the presence of inhibitory compounds, and ii) elucidate the underlying genetic changes of importance for the improved properties of the generated s...
ISOLATION AND EVOLUTION OF A NOVEL NON-SACCHAROMYCES XYLOSE-FERMENTING STRAIN FOR LIGNOCELLULOSIC BI...
Abstract Background Engineered strains of Saccharomyces cerevisiae have significantly improved the p...
Economic bioconversion of plant cell wall hydrolysates into fuels and chemicals has been hampered ma...
Lignocellulosic biomass is an abundant raw material that can be utilized to produce ethanol with the...
Lignocellulosic raw materials for bioethanol production are today the basis for many ethanol product...
The success in the commercialization of lignocellulosic bioethanol relies on the development of micr...
The 2nd generation bioethanol will be produced from lignocellulose biomass including agricultural re...
Fermentation at large industrial scale poses several challenges for the fermenting microorganism to ...
Lignocellulosic biomass is one of the most promising materials for bioethanol production because it ...
SummaryBioethanol production using non-food biomass such as agricultural wastes, energy crops, and f...
Awareness of climate change encourages evolution of products towards more sustainable alternatives. ...
Background: Lignosulfonates are significant wood chemicals with a $700 million market, produced by s...
Industrial biotechnology aims to develop robust microbial cell factories, such as Saccharomyces cere...
The microbial production of fuels and chemicals has recently received much attention as an alternati...
Economic bioconversion of plant cell wall hydrolysates into fuels and chemicals has been hampered ma...
ISOLATION AND EVOLUTION OF A NOVEL NON-SACCHAROMYCES XYLOSE-FERMENTING STRAIN FOR LIGNOCELLULOSIC BI...
Abstract Background Engineered strains of Saccharomyces cerevisiae have significantly improved the p...
Economic bioconversion of plant cell wall hydrolysates into fuels and chemicals has been hampered ma...
Lignocellulosic biomass is an abundant raw material that can be utilized to produce ethanol with the...
Lignocellulosic raw materials for bioethanol production are today the basis for many ethanol product...
The success in the commercialization of lignocellulosic bioethanol relies on the development of micr...
The 2nd generation bioethanol will be produced from lignocellulose biomass including agricultural re...
Fermentation at large industrial scale poses several challenges for the fermenting microorganism to ...
Lignocellulosic biomass is one of the most promising materials for bioethanol production because it ...
SummaryBioethanol production using non-food biomass such as agricultural wastes, energy crops, and f...
Awareness of climate change encourages evolution of products towards more sustainable alternatives. ...
Background: Lignosulfonates are significant wood chemicals with a $700 million market, produced by s...
Industrial biotechnology aims to develop robust microbial cell factories, such as Saccharomyces cere...
The microbial production of fuels and chemicals has recently received much attention as an alternati...
Economic bioconversion of plant cell wall hydrolysates into fuels and chemicals has been hampered ma...
ISOLATION AND EVOLUTION OF A NOVEL NON-SACCHAROMYCES XYLOSE-FERMENTING STRAIN FOR LIGNOCELLULOSIC BI...
Abstract Background Engineered strains of Saccharomyces cerevisiae have significantly improved the p...
Economic bioconversion of plant cell wall hydrolysates into fuels and chemicals has been hampered ma...