Bioconversion of lignocellulosic biomass to biofuels such as bioethanol and high value-
added products has attracted great interest in recent decades due to the carbon neutral …

In industrial settings and processes, yeasts may face multiple adverse environmental
conditions. These include exposure to non-optimal temperatures or pH, osmotic stress, and …

The ever-increasing global energy demand has led world towards negative repercussions
such as depletion of fossil fuels, pollution, global warming and climate change. Designing …

Cell self-flocculation endows yeast strains with improved environmental stress tolerance that
benefits bioproduction. Exploration of the metabolic and regulatory network differences …

Highlights•Chronic stresses related to biotechnology applications are focused.•Epigenetic
regulation benefits dynamic regulation of stress tolerance.•Yeast chemical stress response …

Sustainable bioproduction using carbon neutral feedstocks, especially lignocellulosic
biomass, has attracted increasing attention due to concern over climate change and carbon …

The biggest challenge of utilizing lignocellulosic feedstocks for efficient ethanol fermentation
is to improve strains and processes capable of mixed sugar fermentation in the presence of …

Putrescine, a biogenic diamine, serves as an important component in various polyamides,
medicine, and surfactants. One challenge for efficient putrescine production is to construct …

Developing a reliable lignocellulose pretreatment method to extract mixed sugars and
engineering efficient strains capable of utilizing xylose are crucial for advancing cellulosic …

Acetic acid is a prevalent inhibitor in lignocellulosic hydrolysate, which represses microbial
growth and bioproduction. Histone modification and chromatin remodeling have been …