Titlebook: Biological Timekeeping: Clocks, Rhythms and Behaviour; Vinod Kumar Book 2017 Springer (India) Pvt. Ltd. 2017 Clock.Metabolism.Rhythm.Seaso

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Basic Principles Underlying Biological Oscillations and Their Entrainmentrhythms to annual rhythms. Here we will focus on the organisation of daily rhythms and the underlying circadian oscillators. The molecular mechanisms of circadian oscillators are discussed for mammals and insects. Different light resetting mechanisms and input pathways of circadian oscillators are e

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Circadian Waveform and Its Significance for Clock Organization and Plasticitynerally phase shifted slowly and incrementally by light. Because the earth’s axis of rotation is tilted relative to the revolution around the sun, there is an additional selection pressure for clocks to adjust their waveform (i.e., shape of the daily oscillation) to match seasonal variation in dayle

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辯論

The , Clock Systemn moving to the organismic level, whereby most importance is given to the clock network in the brain. It is shown that the molecular clock controls neuronal excitability and synaptic plasticity of the clock neurons in the brain, that these clock neurons communicate with each other via neuropeptides,

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The Fish Circadian Timing System: The Illuminating Case of Light-Responsive Peripheral Clocksild a more general understanding of the mechanisms and evolution of the circadian timing system in vertebrates. While in mammals peripheral clocks rely on systemic signals for their entrainment, in fish these clocks are directly light entrainable. Furthermore, in fish the transcription of a set of g

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The Amphibian Clock System of circadian rhythms, such as melatonin and melanopsin. Differently from mammals, amphibians are characterized by the peculiar presence of multiple anatomical structures and cell types that feature photosensitive and self-sustained circadian activities. In particular, in amphibians, both the retina

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