Genome-wide identification and characterization of the heavy metal ATPase (HMA) gene family in Medicago truncatula under copper stress

Abstract

In nature, the normal growth, development, and quality of plants are significantly affected by many abiotic stresses, such as drought, salinity, low temperature, and heavy metals. Among heavy metals, copper is an essential element for plant growth and development but also has a toxic effect on plants when its concentration is excessive. Therefore, plants have evolved a complex regulatory network to regulate the balance of copper ions in cells. Heavy metal ATPases (HMAs), which transport heavy metals to intracellular compartments or detoxify heavy metals present at excessive concentrations, have been extensively studied in model plant species. However, no comprehensive and systematic surveys of members of the HMA gene family have been conducted in the model legume species Medicago truncatula. Here, nine putative MtHMAs were identified in the M. truncatula genome. These MtHMAs were phylogenetically divided into two distinct groups. The members in each group had a relatively conserved gene structure and motif composition. The number of introns in the MtHMAs varied from 5 to 16, with the majority of these genes containing 8 introns. The expression patterns showed that MtHMAs exhibit preferential or distinct expression patterns among different tissues. Finally, the expression patterns of the members of this gene family were verified in the leaves and roots of plants under Cu stress. Our findings will be valuable for the functional investigation and application of members of this gene family in M. truncatula and other related legume species.