Overexpression of Os ERF48 causes regulation of Os CML16, a calmodulin-like protein gene that enhances root growth and drought tolerance.

The AP2/ ERF family is a plant-specific transcription factor family whose members have been associated with various developmental processes and stress tolerance. Here, we functionally characterized the drought-inducible Os ERF48, a group Ib member of the rice ERF family with four conserved motifs, CMI-1, -2, -3 and -4. A transactivation assay in yeast revealed that the C-terminal CMI-1 motif was essential for Os ERF48 transcriptional activity. When Os ERF48 was overexpressed in an either a root-specific ( ROX O s ERF 48) or whole-body ( OX O s ERF 48) manner, transgenic plants showed a longer and denser root phenotype compared to the nontransgenic ( NT) controls. When plants were grown on a 40% polyethylene glycol-infused medium under in vitro drought conditions, ROX O s ERF 48 plants showed a more vigorous root growth than OX O s ERF 48 and NT plants. In addition, the ROX O s ERF 48 plants exhibited higher grain yield than OX O s ERF 48 and NT plants under field-drought conditions. We constructed a putative Os ERF48 regulatory network by cross-referencing ROX O s ERF 48 root-specific RNA-seq data with a co-expression network database, from which we inferred the involvement of 20 drought-related genes in Os ERF48-mediated responses. These included genes annotated as being involved in stress signalling, carbohydrate metabolism, cell-wall proteins and drought responses. They included, Os CML16, a key gene in calcium signalling during abiotic stress, which was shown to be a direct target of Os ERF48 by chromatin immunoprecipitation- qPCR analysis and a transient protoplast expression assay. Our results demonstrated that Os ERF48 regulates Os CML16, a calmodulin-like protein gene that enhances root growth and drought tolerance. [ABSTRACT FROM AUTHOR]