To exploit cellulosic materials for fuel ethanol production, a microorganism capable of high
temperature and simultaneous saccharification–fermentation has been required. However, a …

The thermotolerant yeast strain, Kluyveromyces marxianus IMB3, was found to be capable of
ethanol production during growth at 45° C on media containing milled paper and …

For direct and efficient ethanol production from cellulosic materials, we constructed a novel
cellulose-degrading yeast strain by genetically codisplaying two cellulolytic enzymes on the …

We demonstrate direct ethanol fermentation from amorphous cellulose using cellulase‐co‐
expressing yeast. Endoglucanases (EG) and cellobiohydrolases (CBH) from Trichoderma …

The development of technologies for cellulosic ethanol production by simultaneous
saccharification and fermentation (SSF) depends on the use of microorganisms with high …

In this study an industrial Saccharomyces cerevisiae yeast strain capable of fermenting
ethanol from pretreated lignocellulosic material was engineered. Genes encoding cellulases …

In this study, Saccharomyces cerevisiae was engineered for simultaneous saccharification
and fermentation of cellulose by the overexpression of the endoglucanase D (EngD) from …

Consolidated bioprocessing (CBP), which integrates enzyme production, saccharification
and fermentation into a single process, is a promising strategy for effective ethanol …

The conversion of lignocellulose into fermentable sugars is considered a promising
alternative for increasing ethanol production. Higher fermentation yield has been achieved …

Ten promising microbial strains were screened for glucose fermentation over the
temperature range of 37–47° C, and five temperature-tolerant yeasts (Saccharomyces …