Abstract
In rice (Oryza sativa L.), there is a diversity in flowering time that is strictly genetically regulated. Some indica cultivars show extremely late flowering under long-day conditions, but little is known about the gene(s) involved. Here, we demonstrate that functional defects in the florigen gene RFT1 are the main cause of late flowering in an indica cultivar, Nona Bokra. Mapping and complementation studies revealed that sequence polymorphisms in the RFT1 regulatory and coding regions are likely to cause late flowering under long-day conditions. We detected polymorphisms in the promoter region that lead to reduced expression levels of RFT1. We also identified an amino acid substitution (E105K) that leads to a functional defect in Nona Bokra RFT1. Sequencing of the RFT1 region in rice accessions from a global collection showed that the E105K mutation is found only in indica, and indicated a strong association between the RFT1 haplotype and extremely late flowering in a functional Hd1 background. Furthermore, SNPs in the regulatory region of RFT1 and the E105K substitution in 1,397 accessions show strong linkage disequilibrium with a flowering time–associated SNP. Although the defective E105K allele of RFT1 (but not of another florigen gene, Hd3a) is found in many cultivars, relative rate tests revealed no evidence for differential rate of evolution of these genes. The ratios of nonsynonymous to synonymous substitutions suggest that the E105K mutation resulting in the defect in RFT1 occurred relatively recently. These findings indicate that natural mutations in RFT1 provide flowering time divergence under long-day conditions.
Highlights
The appropriate flowering time is important for reproductive success in plants
We found that three regions (I to III), which include RICE FLOWERING LOCUS T 1 (RFT1) and Hd3a, are detected as flowering time QTLs, and we revealed the roles of each region
We found that Nona Bokra RFT1 has a functional defect because of the E105K mutation
Summary
The appropriate flowering time is important for reproductive success in plants. Flowering time is controlled by developmental regulation and environmental conditions, such as daylength (photoperiod) and temperature [1,2]. Ghd acts as a repressor of flowering under LD conditions, and the loss-of-function mutations in this gene cause early flowering under LD conditions [7,8] Such defective Ghd alleles are found in highlatitude areas in China and Japan [7,31]. Many frame-shift mutations in DTH8 cause a weak photoperiod response and early flowering in Asian cultivated rice [9,10,11,12]. Since Hd16 loss-of-function plants show moderately early flowering, the non-functional allele has been used to breed cultivars able to grow in a wide range of areas in Japan [18]. The flowering time genes mentioned above act in one or more pathway(s) that regulate flowering time by controlling the florigen genes Hd3a and RICE FLOWERING LOCUS T 1 (RFT1) [21,22,35,36]
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