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  1. Circadian rhythms: From behaviour to molecules.Ezio Rosato, Alberto Piccin & Charalambos P. Kyriacou - 1997 - Bioessays 19 (12):1075-1082.
    In higher eukaryotes, circadian behaviour patterns have been dissected at the molecular level in Drosophila and, more recently, in the mouse. Considerable progress has been made in identifying some of the molecular components of the clock in the fly, where two genes, period (per) and timeless (tim), are essential for behavioural rhythmicity. The PER and TIM proteins show circadian cycles in abundance, and are part of a negative feedback loop with their own mRNAs. Within the pacemaker neurons, the PER and (...)
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  • Ultradian clocks in eukaryotic microbes: from behavioural observation to functional genomics.Fred Kippert & Paul Hunt - 2000 - Bioessays 22 (1):16-22.
    Period homeostasis is the defining characteristic of a biological clock. Strict period homeostasis is found for the ultradian clocks of eukaryotic microbes. In addition to being temperature-compensated, the period of these rhythms is unaffected by differences in nutrient composition or changes in other environmental variables. The best-studied examples of ultradian clocks are those of the ciliates Paramecium tetraurelia and Tetrahymena sp. and of the fission yeast, Schizosaccharomyces pombe. In these single cell eukaryotes, up to seven different parameters display ultradian rhythmicity (...)
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