Abstract
Insect circadian rhythms are generated by a circadian clock consisting of transcriptional/translational feedback loops, in which CYCLE and CLOCK are the key elements in activating the transcription of various clock genes such as timeless (tim) and period (per). Although the transcriptional regulation of Clock (Clk) has been profoundly studied, little is known about the regulation of cycle (cyc). Here, we identify the orphan nuclear receptor genes HR3 and E75, which are orthologs of mammalian clock genes, Rorα and Rev-erbα, respectively, as factors involved in the rhythmic expression of the cyc gene in a primitive insect, the firebrat Thermobia domestica. Our results show that HR3 and E75 are rhythmically expressed, and their normal, rhythmic expression is required for the persistence of locomotor rhythms. Their RNAi considerably altered the rhythmic transcription of not only cyc but also tim. Surprisingly, the RNAi of HR3 revealed the rhythmic expression of Clk, suggesting that this ancestral insect species possesses the mechanisms for rhythmic expression of both cyc and Clk genes. When either HR3 or E75 was knocked down, tim, cyc, and Clk or tim and cyc, respectively, oscillated in phase, suggesting that the two genes play an important role in the regulation of the phase relationship among the clock genes. Interestingly, HR3 and E75 were also found to be involved in the regulation of ecdysis, suggesting that they interconnect the circadian clock and developmental processes.
Highlights
Circadian clocks provide an adaptive advantage by coordinating physiological, behavioral, and biochemical events to occur at an appropriate time of the day [1]
By taking advantage of the efficacy of RNAi, we investigated the role of probable nuclear hormone receptor 3 gene (HR3), a Ror ortholog, and ecdysone induced protein 75 gene (E75), a Rev-erb ortholog, for the first time in the insect circadian clock by using the firebrat, one of the most primitive insect species
The cDNAs of the nuclear receptors HR3 and E75 were obtained from T. domestica
Summary
Circadian clocks provide an adaptive advantage by coordinating physiological, behavioral, and biochemical events to occur at an appropriate time of the day [1]. PER and TIM proteins accumulate and, subsequently, associate with the CLK/CYC complex to repress their own transcription, forming an about 24-h period feedback loop for the rhythmic expression of per and tim. The transcription of Clk is under circadian regulation [5, 6] It is controlled by cyclical and reciprocal activities of the basic leucine zipper transcription factors VRILLE (VRI) and PAR DOMAIN PROTEIN 1e (PDP1e). Both VRI and PDP1e competitively bind to the VRI/PDP1e binding site (V/Pbox) within the Clk promoter to repress or activate transcription, respectively [7]. The expression of vri and Pdp1e is under circadian control, which requires CLK/CYC, thereby connecting the PER/TIM and VRI/ PDP1e feedback loops
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
