MicroRNAs (miRNAs), known as a kind of non-coding RNA, can negatively regulate its
target genes. To date, the roles of various miRNAs in plant development and resistance to …

Salinity is a critical environmental stress factor that significantly reduces crop productivity
and yield. A mutant B-type response regulator gene (hst1) has been shown to promote …

Transgenerational plasticity in plants enables rapid adaptation to environmental changes,
allowing organisms and their offspring to adapt to the environment without altering their …

The yield-reduction effect of abiotic stressors such as salinity and heat stresses with the
growing world population threatens food security. Although adverse effects of salinity and …

Soil salinity severely limits crop yields and quality. Plants have evolved several strategies to
mitigate the adverse effects of salinity, including redistribution and compartmentalization of …

Background Salinity stress affects plant growth, development, biomass, yield, as well as their
survival. A series of signaling cascade is activated to cope the deleterious effect of salinity …

The microRNA156 (miR156) has been widely studied in plants, however, the
characterization of the miR156 family of genes in wheat and their expression patterns under …

Abstract Response Regulators (RRs) are crucial regulators in plant development and stress
responses, comprising A-type, B-type, C-type, and pseudo-RR subfamilies. However …

Rice is highly susceptible to salt stress. Increasing the salt tolerance of rice is critical to
reduce yield loss. Herein, we investigated the possibility of using an AgNP-based priming …

This study explores the impact of RNAi in terms of selectively inhibiting the expression of the
OsBBTI5 gene, with the primary objective of uncovering its involvement in the molecular …