AI Article Synopsis
- The study shows that the suprachiasmatic nucleus (SCN) in flounder larvae functions as a circadian clock, with the expression of the gene per2 peaking during the day and decreasing at night.
- This gene expression pattern suggests variability in how different fish species, like the amberjack and medaka, regulate their circadian rhythms through the SCN, likely reflecting their unique lifestyles.
- Additionally, the research indicates the potential for using flounder larvae to explore how environmental factors and drugs affect circadian clock development in fish, offering insights into marine fish rhythmicity.
Article Abstract
In mammals, the role of the suprachiasmatic nucleus (SCN) as the primary circadian clock that coordinates the biological rhythms of peripheral oscillators is well known. However, in teleosts, it remains unclear whether the SCN also functions as a circadian pacemaker. We used in situ hybridization (ISH) techniques to demonstrate that the molecular clock gene, per2, is expressed in the SCN of flounder (Paralichthys olivaceus) larvae during the day and down-regulated at night, demonstrating that a circadian pacemaker exists in the SCN of this teleost. The finding that per2 expression in the SCN was also observed in the amberjack (Seriola dumerili), but not in medaka (Oryzias latipes), implies that interspecific variation exists in the extent to which the SCN controls the circadian rhythms of fish species, presumably reflecting their lifestyle. Rhythmic per2 expression was also detected in the pineal gland and pituitary, and aperiodic per2 expression was observed in the habenula, which is known to exhibit circadian rhythms in rodents. Since the ontogeny of per2 expression in the brain of early flounder larvae can be monitored by whole mount ISH, it is possible to investigate the effects of drugs and environmental conditions on the functional development of circadian clocks in the brain of fish larvae. In addition, flounder would be a good model for understanding the rhythmicity of marine fish. Our findings open a new frontier for investigating the role of the SCN in teleost circadian rhythms.
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| http://dx.doi.org/10.1016/j.ygcen.2012.06.012 | DOI Listing |
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