Circadian rhythms regulate many aspects of animal biology, from cycles of sleep and wakefulness to variations in energetic metabolism. We study circadian regulation in the sea anemone Nematostella both to gain insight into cnidarian physiology and to better understand the evolution of the animal circadian clock.
A few things we’ve learned and questions that still keep us up at night:
- Nematostella shares many conserved circadian regulatory genes with other (bilaterian) animals. There is an ancient origin of circadian signaling in animals. But key circadian genes (period, timeless) seem to be restricted to bilaterians. How does the clock function in Nematostella without these pieces?
- Nematostella clearly has a circadian timer that regulates activity patterns and expression of several genes. But how does circadian regulation affect the physiology of these animals? Why do they need a clock at all??
- We’ve learned that light, especially blue light, can entrain circadian rhythms in Nematostella. What are the roles of temperature and/or other environmental cues in entraining the circadian clock? How do temporal rhythms differ between lab and field settings?
- How do redox state and other aspects of cellular physiology cycle over daily or tidal periods?
In our investigations of circadian signaling in Nematostella, We are currently collaborating with Dr. Oren Levy at Bar-Ilan University (Israel) through grants sponsored by the Gordon and Betty Moore Foundation and the United States-Israel Binational Science Foundation