OsIDD6, an INDETERMINATE DOMAIN containing transcription factor in rice, plays an essential role in reproductive development.

INDETERMINATE DOMAIN containing proteins (IDD) are plant-specific transcriptional factors with a diverse range of roles in plants. Among the 15 IDD genes in rice, a staple food crop for the world, only about half have been functionally characterized. To elucidate the function of the remaining members, we created loss-of-function mutants using the CRISPR genome editing technique. Although no mutant exhibited obvious growth phenotypes, the Osidd6 mutant was completely sterile. By genetic crossing, we showed that both the male and female gametophytes were defective in the mutant. Histochemical staining and thin sectioning revealed that microspore development was compromised, likely due to a delay in tapetum degeneration. We also showed that meiosis was impaired in the mutant, resulting in defective megaspore development. Through a series of experiments, including transcriptome analysis, reverse transcription-quantitative polymerase chain reaction (RT-qPCR), in situ hybridization, β-glucuronidase (GUS) staining with promoter-GUS transgenic plants, yeast one-hybrid method, a dual-visible reporter assay, and transcriptional activity assay, we demonstrated that OsIDD6 is expressed in all cell types in the male and female reproductive organs and that the OsIDD6 protein directly regulates genes potentially having a role in meiosis and tapetum development. Since reproductive development is directly related to crop yield, OsIDD6 could be an important target for genetic manipulation in rice breeding.