Genome-wide survey of the amino acid transporter gene family in wheat (Triticum aestivum L.): Identification, expression analysis and response to abiotic stress

Abstract

Amino acid transporters (AATs), which transport amino acids across cell membranes, play important roles in alleviating plant damage under stresses and in plant growth. To data, little is known about the AAT genes in wheat because of its complex genome. In this study, a total of 296 AAT genes were identified from the latest wheat genome sequence (IWGSC v1.1) and classified into 12 distinct subfamilies based upon their sequence composition and phylogenetic relationship. The expansion of the wheat AAT family was mainly the results of whole-genome duplication (WGD) and tandem events. The unequal expansion of different subfamilies brought new features to TaAATs. TaAATs were highly expressed and exhibited distinct expression patterns in different tissues. On the basis of homology and expression pattern analysis, we identified several wheat AAT family members that may affect grain quality. In addition, TaAAP3, TaATLa2 and TaATLb13 exhibited sustained expression in response to drought and high-temperature stress. These genes are involved in the response of wheat to abiotic stress by regulating the transport and distribution of amino acids. Overall, our results help to understand the complexity of TaAATs and provide a theoretical basis for further identification and utilization of AATs in wheat and other crop species.