Abstract
Amino acid permeases (AAPs) play important roles in transporting amino acids in plant species, leading to increased low-nitrogen tolerance, grain yield, or protein content. However, very few AAPs have been characterized in soybean (Glycine max). In this study, we scanned the soybean reference genome and identified a total of 36 AAP genes (named GmAAP). The GmAAPs were phylogenetically divided into three evolutionary clades, with the genes in the same clades sharing similar gene structures and domain organization. We also showed that seventeen GmAAP genes on ten chromosomes were in collinearity, likely due to whole-genome duplication. Further analysis revealed a variety of cis-acting regulatory elements (such as hormone response elements (ABRE, ERE, GARE, P-box, and TGA-element), stress response elements (LTR, MBS, MYB-related components, TC-rich repeats, TCA-element, and WUN-motif), the tissue expression element (GCN4-motif), and the circadian regulatory element (circadian) present in the 2 kb region of the GmAAP promoter region, demonstrating functional diversity and expression specificity. RNA-Seq data and quantitative real-time PCR identified five GmAAPs showing differential expression under nitrogen limitation, including GmAAP3, GmAAP5, and GmAAP8 showing downregulation while GmAAP14, GmAAP29 showed upregulation, suggesting their involvement in low-nitrogen stress response. These results provide comprehensive information on soybean AAP genes in nitrogen stress, and provide putative candidates with possible roles in enhancing amino acid delivery to seeds for yield improvement.
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