The PILNCR1-miR399 Regulatory Module Is Important for Low Phosphate Tolerance in Maize

The regulation of adaptive responses to phosphorus (P) deficiency by the microRNA399 ( miR399 )/ PHOSPHATE2 ( PHO2 ) pathway has been well studied in Arabidopsis ( Arabidopsis thaliana ) but not in maize ( Zea mays ). Here, we show that miR399 transcripts are strongly induced in maize by phosphate (Pi) deficiency. Transgenic maize plants that overexpressed MIR399b accumulated excessive amounts of P in their shoots and displayed typical Pi-toxicity phenotypes. We reannotated ZmPHO2 with an additional 1,165 bp of the 5′ untranslated region. miR399-guided posttranscriptional repression of ZmPHO2 was mainly observed in the P-efficient lines. We identified Pi-deficiency-induced long-noncoding RNA1 ( PILNCR1 ) from our strand-specific RNA libraries. Transient expression assays in Nicotiana benthamiana and maize leaf protoplasts demonstrated that PILNCR1 inhibits ZmmiR399-guided cleavage of ZmPHO2 . The abundance of PILNCR1 was significantly higher in P-inefficient lines than in P-efficient lines, which is consistent with the abundance of ZmmiR399 transcripts. These results indicate that the interaction between PILNCR1 and miR399 is important for tolerance to low Pi in maize.