Stress (biotic or abiotic) is an unfavourable condition for an organism including fungus. To
overcome stress, organism expresses heat‐shock proteins (Hsps) or chaperons to perform …

In development of yeast cell factories, the adequate stress tolerance of the yeast strains is
the universal requirement for industrial fermentation. Primary stress factor is the end product …

Pressure is a thermodynamic parameter whose unique effects on biological systems are
increasingly being studied in a growing number of scientific fields. As such, the effects of …

The discovery of piezophiles (previously referred to as barophiles) prompted researchers to
investigate the survival strategies they employ in high-pressure environments. There have …

Hydrostatic pressure is a well-known physical parameter which is now considered an
important variable of life, since organisms have the ability to adapt to pressure changes, by …

Background Industrial bioethanol production may involve a low pH environment caused by
inorganic acids, improving the tolerance of Saccharomyces cerevisiae to a low pH …

Simple Summary High hydrostatic pressure generally has an adverse effect on the
biological systems of organisms inhabiting lands or shallow sea regions. Deep-sea …

The purpose of the present study was to improve cryotolerance using high hydrostatic
pressure (HHP) pretreatment of porcinein vitromatured (IVM) oocytes, to facilitate their …

Microorganisms display an optimal temperature and hydrostatic pressure for growth. To
establish the molecular basis of piezo-and psychroadaptation, we elucidated global genetic …

Physiological and gene expression studies of deep‐sea bacteria under pressure conditions
similar to those experienced in their natural habitat are critical for understanding growth …