| Popis: |
Background: Multidrug and toxic compound extrusion (MATE) proteins are involved in many physiological functions of plant growth and development. Although an increasing number of MATE proteins have been identified, the understanding of MATE proteins is still very limited in rice.Results: In this study, 46 MATE proteins were identified from the rice (Oryza sativa) genome by homology searches and domain prediction. In addition, physical and chemical properties of the encoded proteins, subcellular localization, chromosome localization, stress-related cis-elements in abiotic stresses were determined, and a phylogenetic analysis and conserved motif analysis were performed. The rice MATE family can be divided into four subfamilies. It is speculated that members of the rice MATE family have many potential functions, such as the transport and accumulation of flavonoids and alkaloids, the extrusion of plant or exogenous compounds, the regulation of disease resistance and the response to abiotic stress, based on the proteins and cis-acting elements with known functions in the same subfamily. Analysis of gene expression showed that most of the genes were constitutively expressed. Furthermore, eight MATE genes were chosen for qRT-PCR-based analysis and showed differential expression patterns in response to salt and drought stress. Conclusions: Phylogenetic analysis, element prediction, expression data and homology with other species provided strong evidence for functional homology of MATE gene in rice. The analysis results of this study provide comprehensive information on the MATE gene family in rice and will aid in understanding the functional divergence of MATE genes. |
