Gregory M. Cahill scite author profile

Recent research on the circadian system of the zebrafish is reviewed. This teleost has become an attractive model system because of its advantages for genetic analyses. Circadian rhythms of zebrafish behavior, visual system function, and pineal melatonin synthesis have been described, and behavioral and pineal rhythms are being used to identify and characterize clock mutants. Zebrafish heart, kidney, and embryonic cell lines contain circadian oscillators and phototransduction mechanisms for entrainment, suggesting that circadian pacemaking functions may be distributed throughout the animal. Studies of circadian system development in zebrafish have found that a molecular circadian oscillation in unfertilized oocytes persists through embryonic development with its phase intact, but that the pacemakers that drive rhythms of melatonin synthesis and behavior require environmental entraining signals late in development for initial synchronization. Zebrafish homologs of several of the core clock genes identified in other animals have been cloned. Transcripts for most of these are rhythmically expressed in multiple tissues. The interactions of clock gene products are for the most part similar to their interactions in mammals, although there are some potentially interesting differences.

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Circadian rhythmicity in vertebrate retinas: Regulation by a photoreceptor oscillator

Cahill

Besharse

1995

Progress in Retinal and Eye Research

209

149

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Circadian regulation of melatonin production in cultured zebrafish pineal and retina

1996

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Melatonin Suppresses Nighttime Memory Formation in Zebrafish

Rawashdeh

Borsetti

Roman

et al. 2007

Science

137

107

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Memory processes are modulated by the biological clock, although the mechanisms are unknown. Here, we report that in the diurnal zebrafish both learning and memory formation of an operant conditioning paradigm occur better during the day than during the night. Melatonin treatment during the day mimics the nighttime suppression of memory formation. Training in constant light improves nighttime memory formation while reducing endogenous melatonin concentrations. Treatment with melatonin receptor antagonists at night dramatically improves memory. Pinealectomy also significantly improves nighttime memory formation. We adduce that melatonin is both sufficient and necessary for poor memory formation during the night.

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Gregory M. Cahill

Circadian clock functions localized in xenopus retinal photoreceptors

Clock mechanisms in zebrafish

Circadian rhythmicity in vertebrate retinas: Regulation by a photoreceptor oscillator

Circadian regulation of melatonin production in cultured zebrafish pineal and retina

Melatonin Suppresses Nighttime Memory Formation in Zebrafish

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