Comparison of rice flowering-time genes under paddy conditions

摘要

Heading date is one of most important agronomic traits in rice. Flowering regulatory mechanisms have been elucidated in many cultivars through various approaches. Although study about flowering has been extensively examined in rice, but contributions of floral regulators had been poorly understood in a common genetic background for rice grown under paddy conditions. Thus, we compared the expression of 10 flowering-time genes - OsMADS50, OsMADS51, OsVIL2, OsPhyA, OsPhyB, OsPhyC, Ghd7, Hd1, OsGI, and OsTrx1 - in the same genetic background for 'Dongjin' rice (Oryza sativa) grown under paddy conditions when days were longer than 13.5 h. Whereas the wild type (WT) rice flowered 105 days after sowing, the latest mutant to do so was ostrx1, flowering 53 d later. This indicated that the gene is the strongest inducer among all of those examined. Mutations in OsMADS50 delayed flowering by 45 d when compared with the WT, suggesting that this MADS gene is another strong positive element. The third positive element was OsVIL2; mutations in the gene caused plants to flower 27 d late. In contrast, the double phytochrome mutant osphyA osphyB flowered 44 d earlier than the WT. The single mutant osphyB and the double mutant osphyB osphyC did the same, although not as early as the osphyA osphyB double mutant. These results demonstrated that phytochromes are major inhibitors under paddy conditions. Mutations in Ghd7 accelerated flowering by 34 d, indicating that the gene is also a major inhibitor. The hd1 mutants flowered 16 d earlier than the WT while a mutation in OsGI hastened flowering by 10 d, suggesting that both are weak flowering repressors. Of the two florigen genes (Hd3a being the other one), RFT1 played a major role under paddy conditions. Its expression was strongly promoted by Ehd1, which was negatively controlled by Ghd7. Here we show that phytochromes strongly inhibit flowering and OsTrx1 and OsMADS50 significantly induce flowering under paddy conditions through Ghd7-Ehd1-RFT1 pathway. Thus, we may be able to control heading date under paddy conditions through manipulating those genes, Ghd7, Ehd1 and RFT1.