Nitric Oxide Affects Rice Root Growth by Regulating Auxin Transport Under Nitrate Supply

Nitrogen (N) is a major essential nutrient for plant growth, and rice is an important food crop globally. Although ammonium (NH ) is the main N source for rice, nitrate (NO ) is also absorbed and utilized. Rice responds to NO supply by changing root morphology. However, the mechanisms of rice root growth and formation under NO supply are unclear. Nitric oxide (NO) and auxin are important regulators of root growth and development under NO supply. How the interactions between NO and auxin in regulating root growth in response to NO are unknown. In this study, the levels of indole-3-acetic acid (IAA) and NO in roots, and the responses of lateral roots (LRs) and seminal roots (SRs) to NH and NO , were investigated using wild-type (WT) rice, as well as and mutants. NO supply promoted LR formation and SR elongation. The effects of NO donor and NO inhibitor/scavenger supply on NO levels and the root morphology of WT and mutants under NH or NO suggest that NO -induced NO is generated by the nitrate reductase (NR) pathway rather than the NO synthase (NOS)-like pathway. IAA levels, [ H] IAA transport, and gene expression in roots were enhanced under NO relative to NH supply. These results suggest that NO regulates auxin transport in roots. Application of SNP under NH supply, or of cPTIO under NO supply, resulted in auxin levels in roots similar to those under NO and NH supply, respectively. Compared to WT, the roots of the mutant had lower auxin levels, fewer LRs, and shorter SRs. Thus, NO affects root growth by regulating auxin transport in response to NO . Overall, our findings suggest that NO influences LR formation and SR elongation by regulating auxin transport via a mechanism involving NO.