Key message Multiple regulatory pathways of T. chinensis to salt stress were identified
through transcriptome data analysis. Abstract Tamarix chinensis (Tamarix chinensis Lour.) is …

Salt-alkali stress is a key factor affecting plant development and production, altering
essential physiological and metabolic processes within plants. Particularly, soybean …

Some wild cotton species are remarkably tolerant to salt stress, and hence represent
valuable resources for improving salt tolerance of the domesticated allotetraploid species …

Cotton plays a crucial role in the progress of the textile industry and the betterment of human
life by providing natural fibers. In our study, we explored the genetic determinants of cotton …

Gossypium purpurascens is a member of the Malvaceae family, holds immense economic
significance as a fiber crop worldwide. Abiotic stresses harm cotton crops, reduce yields …

Melia azedarach demonstrates strong salt tolerance and thrives in harsh saline soil
conditions, but the underlying mechanisms are poorly understood. In this study, we analyzed …

PLATZ (Plant AT-rich sequences and zinc-binding proteins) are known to be key regulators
in plant growth, development, and response to salt stress. In this study, we comprehensively …

Cotton is an important cash crop with a certain salt tolerance, but its germination stage is
very susceptible to the damage of salt stress, causing significant yield loss. However, few …

The plant cell wall is a crucial barrier against environmental stress, mainly composed of
lignin and carbohydrates such as cellulose, hemicellulose, and pectin. This study explored …

Priming‐mediated stress tolerance in plants stimulates defense mechanisms and enables
plants to cope with future stresses. Seed priming has been proven effective for tolerance …