Abstract
Day length is a determinant of flowering time in rice. Phytochromes participate in flowering regulation by measuring the number of daylight hours to which the plant is exposed. Here we describe G123, a rice mutant generated by irradiation, which displays insensitivity to the photoperiod and early flowering under both long day and short day conditions. To detect the mutation responsible for the early flowering phenotype exhibited by G123, we generated an F2 population, derived from crossing with the wild-type, and used a pipeline to detect genomic structural variation, initially developed for human genomes. We detected a deletion in the G123 genome that affects the PHOTOPERIOD SENSITIVITY13 (SE13) gene, which encodes a phytochromobilin synthase, an enzyme implicated in phytochrome chromophore biosynthesis. The transcriptomic analysis, performed by RNA-seq, in the G123 plants indicated an alteration in photosynthesis and other processes related to response to light. The expression patterns of the main flowering regulatory genes, such as Ghd7, Ghd8 and PRR37, were altered in the plants grown under both long day and short day conditions. These findings indicate that phytochromes are also involved in the regulation of these genes under short day conditions, and extend the role of phytochromes in flowering regulation in rice.
Highlights
An optimal flowering time, or heading date, that adjusts to local agroclimatic conditions is essential for maximizing the yield potential of rice crops
The G123 mutant was isolated as an early flowering mutant in the field screenings, under natural long days (LD) conditions, from a mutant M2 population that derived from the irradiation of Gleva, a local temperate japonica cultivar widely grown in Spain
The G123 plants flowered in the field 82 days after sowing (DAS), which was 1 week earlier than the wild-type plants
Summary
Heading date, that adjusts to local agroclimatic conditions is essential for maximizing the yield potential of rice crops. In line with this, flowering regulation in rice has played an important role in its expansion and diversification, and is one of the main factors that contributes to the adaption of this crop in northern regions [1]. Rice domestication took place in a region with a tropical climate with a short day (SD) length and temperatures that only slightly vary all year long [2]. Rice crops reached northern areas where permissive temperatures occur only in summer, when day length is long.
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