PDL1-dependent trans-acting siRNAs regulate lateral organ polarity development in rice

Abstract

Leaves and glumes act as lateral organs and have essential effects on photosynthesis and seed morphology, thus affecting yield. However, the molecular mechanisms controlling their polarity development in rice is still worth further analysis. Here, we isolated a polarity defect of lateral organs 1 (pdl1) mutant in rice, which exhibits twisted/filamentous-shaped leaves and cracked/filamentous-shaped lemmas caused by defects in polarity development. PDL1 encodes a SUPPRESSOR OF GENE SILENCING 3 protein localized in the cytoplasm granules. PDL1 is expressed in the shoot apical meristem, inflorescence meristem, floral meristem, and lateral organs including leaf and floral organs. PDL1 is involved in the synthesis of tasiR-ARF, which may subsequently modulate the expression of OsARFs. Meanwhile, the expression of abaxial miR165/166 and the adaxial identity genes OSHBs was increased and decreased significantly, respectively. The results of this study clarified the molecular mechanism that the PDL1-mediated tasiR-ARF synthesis regulates the lateral organ polarity development in rice.