Altered expression of amino acid permease OsAAP11 mediates bud outgrowth and tillering by regulating transport and accumulation of amino acids in rice.

Kam sweet rice is a cultural treasure in Qiandongnan, Guizhou Province. However, the situation with low yield and economic value in Kam sweet rice urgently requires improved mechanistic understanding of tillering to increase its yield. In this study, we found that the rate of axillary bud elongation differed significantly among Kam sweet rice varieties, which was positively correlated with tiller number. Transcriptome analysis suggests that genes involved in nitrogen metabolism and plant hormone signaling pathways could be the main reasons for the differences in tillering among these varieties. The amino acid transporter OsAAP11 in the transcriptome was essential for bud outgrowth and rice tillering based on the phenotypic performance of its transgenic plants. Further results found that OsAAP11 was able to transport amino acids such as proline, glycine, and alanine in rice. Natural variations were found in the promoter region of this gene in different Kam sweet rice varieties, which may lead to differences in the transcription levels of OsAAP11. Overall, the results suggest that the natural variations of OsAAP11 in rice might lead to variations in its expression levels, further affecting bud outgrowth and tillering through regulating the transport and accumulation of amino acids.