Plants respond differently to salinity stress due to their unique gene architectures. Among
genes, transcription factors (TFs) regulate many physiological and biochemical processes …

We used an integrated morpho-physiological, biochemical, and genetic approach to
investigate the salt responses of four lines (TN1. 11, TN6. 18, JA17, and A10) of Medicago …

In order to investigate the molecular mechanism of salt tolerance, the transcriptomes of
southern type Alfalfa (Medicago sativa'Millenium') under control condition (WT_CK2) were …

Abstract Changes in global climate and the nonstop increase in demographic pressure have
provoked a stronger demand for agronomic resources at a time where land suitable for …

Background Salt stress hinders the growth of plants and reduces crop production worldwide.
However, different plant species might possess different adaptive mechanisms to mitigate …

Evolutionary diversity can be driven by the interaction of plants with different environments.
Molecular bases involved in ecological adaptations to abiotic constraints can be explored …

To understand the complex inheritance of tolerance to salt stress in Medicago truncatula,
quantitative trait loci (QTLs) analysis was performed using a set of recombinant inbred lines …

High salinity is a major environmental stressor for crops. To understand the regulatory
mechanisms underlying salt tolerance, we conducted a comparative transcriptome analysis …

Salinity stress is an important cause of crop yield loss in many parts of the world. Here, we
performed genome‐wide association studies of salinity‐stress responsive traits in 132 …

Salinity is a major limiting factor in crop productivity worldwide. Medicago sativa L. is an
important fodder crop, broadly cultivated in different environments, and it is moderately …