Abstract
Many short-day plants have a critical day length that fixes the schedule for flowering time, limiting the range of natural growth habitats (or growth and cultivation areas). Thus, fine-tuning of the critical day-length setting in photoperiodic flowering determines ecological niches within latitudinal clines; however, little is known about the molecular mechanisms controlling the fine-tuning of the critical day-length setting in plants. Previously, we determined that florigen genes are regulated by day length, and identified several key genes involved in setting the critical day length in rice. Using a set of chromosomal segment substitution lines with the genetic background of an elite temperate japonica cultivar, we performed a series of expression analyses of flowering-time genes to identify those responsible for setting the critical day-length in rice. Here, we identified two casein kinase genes, Hd16 and Hd6, which modulate the expression of florigen genes within certain restricted ranges of photoperiod, thereby fine-tuning the critical day length. In addition, we determined that Hd16 functions as an enhancer of the bifunctional action of Hd1 (the Arabidopsis CONSTANS ortholog) in rice. Utilization of the natural variation in Hd16 and Hd6 was only found among temperate japonica cultivars adapted to northern areas. Therefore, this fine-tuning of the setting of the critical day length may contribute to the potential northward expansion of rice cultivation areas.
Highlights
Floral transition, the major developmental switch from the vegetative to reproductive phase in plants, is regulated by both endogenous and environmental signals
In this study, using further analysis of the Nona Bokra– Koshihikari CSSLs and a set of newly developed nearly isogenic lines (NILs) of the Hd6 and Hd16 genes, we demonstrate that the fine-tuning of critical day length is set by these two CK genes
We show that Hd6 and Hd16 are involved in the actions of both Hd1 and Ghd7 to control Ehd1, Heading date 3a (Hd3a), and RFT1.Our results suggest that this fine-tuning of the setting of the critical day length by natural variation in Hd6 and Hd16 may contribute to a potential northward expansion of rice cultivation areas
Summary
The major developmental switch from the vegetative to reproductive phase in plants, is regulated by both endogenous and environmental signals. Photoperiodic flowering, one of the most important biological systems in controlling floral transition, is regulated by light signals and the plant’s endogenous circadian rhythm (Thomas and Vince-Prue, 1997). Rice photoperiodic flowering has been investigated extensively as a model system of short-day (SD) plants. The critical day length determines whether a plant will flower under certain cultivation environments.
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