Abstract
ELF3 and GI are two important components of the Arabidopsis circadian clock. They are not only essential for the oscillator function but are also pivotal in mediating light inputs to the oscillator. Lack of either results in a defective oscillator causing severely compromised output pathways, such as photoperiodic flowering and hypocotyl elongation. Although single loss of function mutants of ELF3 and GI have been well studied, their genetic interaction remains unclear. We generated an elf3 gi double mutant to study their genetic relationship in clock-controlled growth and phase transition phenotypes. We found that ELF3 and GI repress growth differentially during the night and the day, respectively. Circadian clock assays revealed that ELF3 and GI are essential that enable the oscillator to synchronize the endogenous cellular mechanisms to external environmental signals. In their absence, the circadian oscillator fails to synchronize to the light-dark cycles even under diurnal conditions. Consequently, clock-mediated photoperiod-responsive growth and development are completely lost in plants lacking both genes, suggesting that ELF3 and GI together convey photoperiod sensing to the central oscillator. Since ELF3 and GI are conserved across flowering plants and represent important breeding and domestication targets, our data highlight the possibility of developing photoperiod-insensitive crops by adjusting the allelic combination of these two key genes.
Highlights
Rotation of the earth around its axis results in rhythmic oscillations in light and temperature during a 24hour day/night cycle
ELF3 and GI are essential for photoperiod responsive growth and development
While light sensing by the photoreceptors is well understood, it remains unclear how this information is perceived by the central oscillator
Summary
Rotation of the earth around its axis results in rhythmic oscillations in light and temperature during a 24hour day/night cycle. Circadian clocks consist of three pathways: inputs, core oscillators, and outputs. Input pathways deliver external cues ( known as Zeitgeber, German for time-givers), such as ambient light and temperature, to circadian oscillators. The timing information from the Zeitgeber is received by coreoscillator components known as Zeitnehmer (German for time-takers) that help to reset and synchronize the clock with the local environment (entrainment). The oscillators generate a ~24h rhythmicity that can be sustained for long periods; even in the absence of environmental cues (i.e., freerunning conditions, such as constant light and temperature conditions)
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