Neither per, nor tim1, nor cry2 alone are essential components of the molecular circadian clockwork in the Madeira cockroach

Abstract: Circadian clocks control rhythms in physiology and behavior entrained to 24 h light-dark cycles. Despite of conserved general schemes, molecular circadian clockworks differ between insect species. With RNA interference (RNA i) we examined an ancient circadian clockwork in a basic insect, the hemimetabolous Madeira cockroach Rhyparobia maderae. With injections of double-stranded RNA (dsRNA) of cockroach period (Rm´per), timeless 1 (Rm´tim1), or cryptochrome 2 (Rm´cry2) we searched for essential components of th… Show more

“…purely on photoreception via the compound eyes (Komada et al, 2015;Kutaragi et al, 2018). In other species that lack cry1 (i.e., beetles and cockroaches), tim1 may play a different role in the circadian rhythm generation (Werckenthin et al, 2012(Werckenthin et al, , 2020Li C-J et al, 2018), which stresses the complexity in evolution of divers sets of clock genes in different insects. Recently, a model which includes two different pacemakers with different clock gene sets was proposed for the cockroach to explain per, cry2, and tim1 function in parallel (Werckenthin et al, 2020) (see Figure 1).…”

“…In other species that lack cry1 (i.e., beetles and cockroaches), tim1 may play a different role in the circadian rhythm generation (Werckenthin et al, 2012(Werckenthin et al, , 2020Li C-J et al, 2018), which stresses the complexity in evolution of divers sets of clock genes in different insects. Recently, a model which includes two different pacemakers with different clock gene sets was proposed for the cockroach to explain per, cry2, and tim1 function in parallel (Werckenthin et al, 2020) (see Figure 1). The cockroach clock may work with three regulatory loops, because knock-down of neither per, nor tim1 nor cry2 alone was successful to induce arrhythmic behavior in the animals (Werckenthin et al, 2020).…”

“…Recently, a model which includes two different pacemakers with different clock gene sets was proposed for the cockroach to explain per, cry2, and tim1 function in parallel (Werckenthin et al, 2020) (see Figure 1). The cockroach clock may work with three regulatory loops, because knock-down of neither per, nor tim1 nor cry2 alone was successful to induce arrhythmic behavior in the animals (Werckenthin et al, 2020). Interestingly, Hymenoptera are so far the only insect group that lack both, cry1 and tim1 (only cry2 and tim2 are present; see also section "The relevance of Zeitgebers differs between flies and bees"), and they display a clock gene set that is more similar to the mammalian clock (Rubin et al, 2006;Sandrelli et al, 2008).…”

Model and Non-model Insects in Chronobiology

“…purely on photoreception via the compound eyes (Komada et al, 2015;Kutaragi et al, 2018). In other species that lack cry1 (i.e., beetles and cockroaches), tim1 may play a different role in the circadian rhythm generation (Werckenthin et al, 2012(Werckenthin et al, , 2020Li C-J et al, 2018), which stresses the complexity in evolution of divers sets of clock genes in different insects. Recently, a model which includes two different pacemakers with different clock gene sets was proposed for the cockroach to explain per, cry2, and tim1 function in parallel (Werckenthin et al, 2020) (see Figure 1).…”

“…In other species that lack cry1 (i.e., beetles and cockroaches), tim1 may play a different role in the circadian rhythm generation (Werckenthin et al, 2012(Werckenthin et al, , 2020Li C-J et al, 2018), which stresses the complexity in evolution of divers sets of clock genes in different insects. Recently, a model which includes two different pacemakers with different clock gene sets was proposed for the cockroach to explain per, cry2, and tim1 function in parallel (Werckenthin et al, 2020) (see Figure 1). The cockroach clock may work with three regulatory loops, because knock-down of neither per, nor tim1 nor cry2 alone was successful to induce arrhythmic behavior in the animals (Werckenthin et al, 2020).…”

“…Recently, a model which includes two different pacemakers with different clock gene sets was proposed for the cockroach to explain per, cry2, and tim1 function in parallel (Werckenthin et al, 2020) (see Figure 1). The cockroach clock may work with three regulatory loops, because knock-down of neither per, nor tim1 nor cry2 alone was successful to induce arrhythmic behavior in the animals (Werckenthin et al, 2020). Interestingly, Hymenoptera are so far the only insect group that lack both, cry1 and tim1 (only cry2 and tim2 are present; see also section "The relevance of Zeitgebers differs between flies and bees"), and they display a clock gene set that is more similar to the mammalian clock (Rubin et al, 2006;Sandrelli et al, 2008).…”

Model and Non-model Insects in Chronobiology

Molecular Mechanism of the Circadian Clock

Impact of photoperiod and functional clock on male diapause in cryptochrome and pdf mutants in the linden bug Pyrrhocoris apterus