HIGHLIGHTS: Major environmental and genetic factors determining stress-related protein
abundance are discussed. Major aspects of protein biological function including protein …

Soil salinity is a major threat to agricultural sustainability and a global food security. Until
now, most research has concentrated around stomatal limitation to photosynthesis, while …

Plant acclimation to stress is associated with profound changes in proteome composition.
Since proteins are directly involved in plant stress response, proteomics studies can …

Plant responses to abiotic stresses are very complex phenomena with individual
characteristics for various species. Abiotic stresses (eg drought, salinity, flooding, cold, heat …

Soil salinity is a major abiotic stress that limits plant growth and agriculture productivity. To
cope with salt stress, plants have evolved complex salt-responsive signaling and metabolic …

Salinity is one of the significant abiotic stresses that negatively affect plant production
processes, growth, and development, which ultimately reduce yield. Plants adapt specific …

The review is focused on plant proteome response to salinity with respect to physiological
aspects of plant salt stress response. The attention is paid to both osmotic and ionic effects …

Cadmium stress causes a decrease in chlorophyll content and inhibits photosynthesis in
tobacco leaves. The role of thioredoxin-like protein CDSP32 expressed in plant chloroplasts …

In addition to drought and extreme temperatures, soil salinity represents a growing threat to
crop productivity. Among the cereal crops, barley is considered as notably salt tolerant, and …

To evaluate the genotypic variation of salt stress response in tomato, physiological analyses
and a proteomic approach have been conducted in parallel on four contrasting tomato …