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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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  • Circadian clocks in the mammalian brain.Michael Hastings & Elizabeth S. Maywood - 2000 - Bioessays 22 (1):23-31.
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  • SINE insertions: powerful tools for molecular systematics.Andrew M. Shedlock & Norihiro Okada - 2000 - Bioessays 22 (2):148-160.
    Short interspersed repetitive elements, or SINEs, are tRNA-derived retroposons that are dispersed throughout eukaryotic genomes and can be present in well over 104 total copies. The enormous volume of SINE amplifications per organism makes them important evolutionary agents for shaping the diversity of genomes, and the irreversible, independent nature of their insertion allows them to be used for diagnosing common ancestry among host taxa with extreme confidence. As such, they represent a powerful new tool for systematic biology that can be (...)
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