Physiological and transcriptomic analysis provides novel insight into growth in Kam sweet rice under different nitrogen supplies

Abstract

AbstractKam Sweet Rice (KSR) is a rice cultivar cultivated for thousands of years in China. Proper and balanced use of nitrogen sources is essential for achieving optimal growth and yield in KSR. This study was carried out to find the most effective hydroponic nutrient solution for cultivating and promoting the growth of KSR. Different nitrogen treatments were applied to KSR cultivars GouDan (GD), GouHa (GH), HongHe (HH), LeiLongGang (LG), and ZaiBianXiaoXiangHe (ZH), resulting in noticeable changes in both growth and physiological traits. Our findings revealed that D3 treatment [1.2 mM NH4Cl + 2.4 mM NaNO3+ neutral amino acids (0.1 mM Ser + 0.2 mM Thr + 0.2 mM Gly + 0.2 mM Pro +0.3 mM Ala)] had a notable positive impact on the growth of GH and ZH which showed the best performance in terms of plant height, root length and fresh weight when compared to the control (CK). Through transcriptome analysis, we discovered that these treatments altered the expression levels of genes associated with carbon metabolism, photosynthesis, and nitrogen pathways within 40 days. Interestingly, by altering the growth and tillering in rice transgenic plants, we validated the role of amino acid transporter OsAAP13 identified in transcriptome profiling, underscoring its significance. Our results are helpful for large‐scale production of KSR with the key methods for controlling the growth of KSR. It is a valuable asset for future investigations aimed at unravelling the intricate mechanisms governing plant growth in the context of different nitrogen supplies.