- Information
- Symbol: RDD1
- MSU: LOC_Os01g15900
- RAPdb: Os01g0264000
- Publication
- Circadian clock- and phytochrome-regulated Dof-like gene, Rdd1, is associated with grain size in rice, 2009, Plant Cell Environ.
- MicroRNA-targeted transcription factor gene RDD1 promotes nutrient ion uptake and accumulation in rice., 2016, Plant J.
- In-frame editing of transcription factor gene RDD1 to suppress miR166 recognition influences nutrient uptake, photosynthesis, and grain quality in rice., 2022, Sci Rep.
- Genbank accession number
- Key message
- In addition, RDD1-AS plants were smaller and flowered later than WT or RDD1-S plants; decreases in grain length, width and 1000-grain weight were also recorded
- This study demonstrates that Rdd1 is a circadian clock and phy-regulated gene, which is associated with grain size in rice
- Circadian clock- and phytochrome-regulated Dof-like gene, Rdd1, is associated with grain size in rice
- We report here on the characterization of a putative Dof transcription factor gene in rice (Oryza sativa)–rice Dof daily fluctuations 1 (Rdd1)
- Moreover, the overexpression of RDD1 increased nitrogen responsiveness and grain productivity
- Our results suggest that RDD1 can contribute to the increased grain productivity of rice via inducing the efficient uptake and accumulation of various nutrient ions
- MicroRNA-targeted transcription factor gene RDD1 promotes nutrient ion uptake and accumulation in rice.
- Here, we show that the transcription factor encoding gene RDD1 plays a role in improving the uptake and accumulation of various nutrient ions in rice
- In-frame editing of transcription factor gene RDD1 to suppress miR166 recognition influences nutrient uptake, photosynthesis, and grain quality in rice.
- The transcription factor-encoding gene RDD1 increases the uptake of nutrient ions, photosynthetic activity under ambient and high CO(2) conditions, and grain productivity, and microRNA166 (miR166) regulates its transcript levels
- These results suggest that the in-frame mutagenesis of RDD1 to suppress miR166-RDD1 transcript pairing contributes to the improved grain appearance of rice
- Connection
- miR166, RDD1, In-frame editing of transcription factor gene RDD1 to suppress miR166 recognition influences nutrient uptake, photosynthesis, and grain quality in rice., In-frame editing of transcription factor gene RDD1 to suppress miR166 recognition influences nutrient uptake, photosynthesis, and grain quality in rice.
- miR166, RDD1, In-frame editing of transcription factor gene RDD1 to suppress miR166 recognition influences nutrient uptake, photosynthesis, and grain quality in rice., The transcription factor-encoding gene RDD1 increases the uptake of nutrient ions, photosynthetic activity under ambient and high CO(2) conditions, and grain productivity, and microRNA166 (miR166) regulates its transcript levels
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