Retrotransposon-mediated DELLA transcriptional reprograming underlies semi-dominant dwarfism in foxtail millet

Abstract Retrotransposons account for a large proportion of the genome and genomic variation, and play key roles in creating novel genes and diversifying the genome in many eukaryotic species. Although retrotransposons are abundant in plants, their roles had been underestimated because of a lack of research. Here, we characterized a gibberellin Acid (GA)-insensitive dwarf mutant, 84133 , in foxtail millet. Map-based cloning revealed a 5.5-kb Copia -like retrotransposon insertion in DWARF1 ( D1 ), which encodes a DELLA protein. Transcriptional analysis showed that the Copia retrotransposon mediated the transcriptional reprogramming of D1 leading to a novel N-terminal-deleted truncated DELLA transcript that was putatively driven by Copia 's LTR, namely D1 - TT , and another chimeric transcript. The presence of D1 - TT was confirmed by protein immunodetection analysis. Furthermore, D1-TT protein was resistant to GA 3 treatment compared with the intact DELLA protein due to its inability to interact with the GA receptor, SiGID1. Overexpression of D1 - TT in foxtail millet resulted in dwarf plants, confirming that it determines the dwarfism of 84133 . Thus, our study documents a rare instance of long terminal repeat (LTR) retrotransposon-mediated transcriptional reprograming in the plant kingdom. These results shed light on the function of LTR retrotransposons in generating new gene functions and genetic diversity.