The miR157-SPL-CNR module acts upstream of bHLH101 to negatively regulate iron deficiency responses in tomato.

Iron (Fe) homeostasis is critical for plant growth, development, and stress responses. Fe levels are tightly controlled by intricate regulatory networks in which transcription factors (TFs) play a central role. A series of basic helix-loop-helix (bHLH) TFs have been shown to contribute to Fe homeostasis, but the regulatory layers beyond bHLH TFs remain largely unclear. Here, we demonstrate that the SQUAMOSA PROMOTER-BINDING PROTEIN-LIKE (SPL) TF SlSPL-CNR negatively regulates Fe-deficiency responses in tomato (Solanum lycopersicum) roots. Fe deficiency rapidly repressed the expression of SlSPL-CNR, and Fe deficiency responses were intensified in two clustered regularly interspaced palindromic repeats (CRISPR)/CRISPR-associated protein 9-generated SlSPL-CNR knock-out lines compared to the wild-type. Comparative transcriptome analysis identified 47 Fe deficiency-responsive genes the expression of which is negatively regulated by SlSPL-CNR, one of which, SlbHLH101, helps regulate Fe uptake genes. SlSPL-CNR localizes the nucleus and interacts with the GTAC and BOX 4 (ATTAAT) motifs in the SlbHLH101 promoter to repress its expression. Inhibition of SlSPL-CNR expression in response to Fe deficiency was well correlated with the expression of the microRNA SlymiR157. SlymiR157-overexpressing tomato lines displayed enhanced Fe deficiency responses, as did SlSPL-CNR loss-of-function mutants. We propose that the SlymiR157-SlSPL-CNR module represents a novel pathway that acts upstream of SlbHLH101 to regulate Fe homeostasis in tomato roots.