Due to the health and environment impacts of fossil fuels utilization, biofuels have been
investigated as a potential alternative renewable source of energy. Bioethanol is currently …

Lignocellulosic biomass is the most abundant renewable source of energy that has been
widely explored as second-generation biofuel feedstock. Despite more than four decades of …

Environmental stresses are usually active during the process of microbial fermentation and
have significant influence on microbial physiology. Microorganisms have developed a series …

Saccharomyces cerevisiae strains having a broad range of substrate utilization, rapid
substrate consumption, and conversion to ethanol, as well as good tolerance to inhibitory …

The biorefinery concept, consisting in using renewable biomass with economical and
energy goals, appeared in response to the ongoing exhaustion of fossil reserves. Bioethanol …

Genome shuffling is a powerful strategy for rapid engineering of microbial strains for
desirable industrial phenotypes. Here we improved the thermotolerance and ethanol …

High potential, thermotolerant, ethanol-producing yeasts were successfully isolated in this
study. Based on molecular identification and phylogenetic analysis, the isolated …

The application of high-potential thermotolerant yeasts is a key factor for successful ethanol
production at high temperatures. Two hundred and thirty-four yeast isolates from Greater …

ABSTRACT A major challenge for the production of ethanol from biomass-derived
feedstocks is to develop yeasts that can sustain growth under the variety of inhibitory …

Bioethanol, a prominent biofuel mostly produced industrially by the yeast Saccharomyces
cerevisiae, has been among the main pillars of sustainable development in the …