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Popular science at its most exciting: the breaking new world of chronobiology - understanding the rhythm of life in humans and all plants and animals. The entire natural world is full of rhythms. The early bird catches the worm -and migrates to an internal calendar. Dormice hibernate away the winter. Plants open and close their flowers at the same hour each day. Bees search out nectar-rich flowers day after day. There are cicadas that can breed for only two weeks every 17 years. And in humans: why are people who work anti-social shifts more illness prone and die younger? What is jet-lag and c

Circadian rhythms.

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This book aims to understand the inherent circadian cycles of biological processes and their role in maintaining health and healing a variety of diseases. The book is divided into eight sections. The first section introduces circadian rhythms and aging. The second section focuses on the detailed mechanistic approach of oscillatory pathways in mammals. The next section summarizes the sensitivity of the biological clock towards light and the circadian response to melatonin in mammals. The fourth section addresses the circadian architecture at the cellular level and introduces an age-dependent experimental model of rodents for subsequent biochemical and molecular investigations. The subsequent section covers the complexity of circadian regulation in mitochondrial dynamics and its impact on aging. The sixth section of the book discusses the findings obtained from different experimental approaches as a critical threat to the functioning of clock regulatory mechanisms and its associated health consequences during aging in humans and animal models. The circadian oscillatory mechanisms that are dysregulated and might play an important role in the development and progression of neurological disorders such as Alzheimer’s Disease (AD), Parkinson’s Disease (PD), Huntington’s Disease (HD), and Amyotrophic Lateral Sclerosis (ALS), etc are discussed in the next section. Towards the end, the book explores the circadian clock as a possible drug target to restore circadian oscillations.

Aging. --- Cytology. --- Circadian rhythms. --- Diseases. --- Ageing. --- Cellular Circadian Rhythms.

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Chronobiological mechanisms regulating time-of-day mediated behaviors, such as sleep and circadian rhythms, are thought to interact with and/or share cellular and molecular signaling cascades that shape synaptic plasticity and neural excitability. These same factors are also known to underlie events that govern higher-order cognitive processing, including learning and memory formation, and often through phylogenetically conserved pathways. This suggests that factors which contribute to adaptive responses to changing environmental stimuli are likely derived from basic evolutionarily ancient processes, and underscores the importance of using both invertebrate and vertebrate models to study the interaction of chronobiology and cognitive processing. This issue highlights current views along with original research on sleep and circadian features of plasticity and memory in multiple species, models, and systems.

Learning --- Sleep --- Memory --- plasticity --- synapse --- circadian rhythms

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This book focuses on the latest research on the genetic basis of the regulation of sleep and wakefulness and of sleep and circadian rhythm disorders, which has been expanding rapidly due to advances in genetics. The book reviews the latest genetic discoveries in animals and humans and explores their implications for getting a good night's sleep. Philp Gehrman, Alex Keene, Struan Grant, and a cadre of top sleep researchers and clinicians explore the genetics of sleep and sleep disorders in depth. The book should appeal to sleep medicine specialists, psychiatrists, geneticists, and neuroscientists.

Sleep --- Genetics. --- Sleep disorders. --- Research. --- Psychiatry. --- Neurosciences. --- Cytology. --- Circadian rhythms. --- Neuroscience. --- Cellular Circadian Rhythms.

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Physiological rhythms are central to life. Mammalian behavior and metabolism are organized around the day and night by the regulated action of cell-autonomous clocks that exist throughout our bodies. At the core of this molecular clockwork are multiple coupled feedback loops that generate sustained circadian rhythms in gene expression to ultimately orchestrate mammalian physiology. In this work we provide evidence for the role of metabolism in regulating the core clock. We present genes involved in energetic and redox pathways which we identified to be essential for the robustness of cellular timekeepers to temperature fluctuations. We developed the first computational model for circadian redox oscillations that contributes to the understanding of how cellular redox balance might adjust circadian rates in response to perturbations and convey timing information to the core molecular oscillator. Moreover, we show that our mathematical model can be coupled with prior published models of the transcriptional clockwork resulting in 1:1 entrainment. This experimental-theoretical approach exemplifies the need of a dynamic analysis at the system level to understand complex biological processes and provides insights into how basic timekeeping mechanisms are integrated into cellular physiology. Such knowledge might highlight new ways by which functional consequences of circadian timekeeping can be explored in the context of human health and disease.

Health --- Chronobiology --- Circadian rhythms --- Redox --- Metabolism --- Mathematical modeling