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MOLECULAR COMPONENTS OF THE CIRCADIAN SYSTEM IN DROSOPHILA (2001)

Williams, Julie A ; Sehgal, Amita

Palo Alto, Calif. : Annual Reviews

Annual Review of Physiology 63 (2001), S. 729-755

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ISSN: 0066-4278

Source: Annual Reviews Electronic Back Volume Collection 1932-2001ff

Topics: Medicine , Biology

Notes: Abstract Much of our current understanding of how circadian rhythms are generated is based on work done with Drosophila melanogaster. Molecular mechanisms used to assemble an endogenous clock in this organism are now known to underlie circadian rhythms in many other species, including mammals. The genetic amenability of Drosophila has led to the identification of some genes that encode components of the clock (so-called clock genes) and others that either link the clock to the environment or act downstream of it. The clock provides time-of-day cues by regulating levels of specific gene products such that they oscillate with a circadian rhythm. The mechanisms that synchronize these oscillations to light are understood to some extent. However, there are still large gaps in our knowledge, in particular with respect to the mechanisms used by the clock to control overt rhythms. It has, however, become clear that in addition to the brain clock, autonomous or semi-autonomous clocks occur in peripheral tissues where they confer circadian regulation on specific functions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1146/annurev.physiol.63.1.729

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The Lineage Before Time: Circadian and Nonclassical Clock Influences on Development (2020)

Bedont, Joseph Lewis ; Iascone, Daniel Maxim ; Sehgal, Amita

Annual Reviews

In: Annual Review of Cell and Developmental Biology. 2020; 36(1): 469-509. Published 2020 Oct 06. doi: 10.1146/annurev-cellbio-100818-125454.

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Publication Date: 2020-10-06

Description: Diverse factors including metabolism, chromatin remodeling, and mitotic kinetics influence development at the cellular level. These factors are well known to interact with the circadian transcriptional-translational feedback loop (TTFL) after its emergence. What is only recently becoming clear, however, is how metabolism, mitosis, and epigenetics may become organized in a coordinated cyclical precursor signaling module in pluripotent cells prior to the onset of TTFL cycling. We propose that both the precursor module and the TTFL module constrain cellular identity when they are active during development, and that the emergence of these modules themselves is a key lineage marker. Here we review the component pathways underlying these ideas; how proliferation, specification, and differentiation decisions in both developmental and adult stem cell populations are or are not regulated by the classical TTFL; and emerging evidence that we propose implies a primordial clock that precedes the classical TTFL and influences early developmental decisions.

Print ISSN: 1081-0706

Electronic ISSN: 1530-8995

Topics: Biology , Medicine

Published by Annual Reviews

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Molecular Components of the Circadian System in Drosophila (2001)

Williams, Julie A ; Sehgal, Amita

Annual Reviews

In: Annual Review of Physiology. 2001; 63(1): 729-755. Published 2001 Mar 01. doi: 10.1146/annurev.physiol.63.1.729.

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Publication Date: 2001-03-01

Description: ▪ Abstract Much of our current understanding of how circadian rhythms are generated is based on work done with Drosophila melanogaster. Molecular mechanisms used to assemble an endogenous clock in this organism are now known to underlie circadian rhythms in many other species, including mammals. The genetic amenability of Drosophila has led to the identification of some genes that encode components of the clock (so-called clock genes) and others that either link the clock to the environment or act downstream of it. The clock provides time-of-day cues by regulating levels of specific gene products such that they oscillate with a circadian rhythm. The mechanisms that synchronize these oscillations to light are understood to some extent. However, there are still large gaps in our knowledge, in particular with respect to the mechanisms used by the clock to control overt rhythms. It has, however, become clear that in addition to the brain clock, autonomous or semi-autonomous clocks occur in peripheral tissues where they confer circadian regulation on specific functions.

Print ISSN: 0066-4278

Electronic ISSN: 1545-1585

Topics: Biology , Medicine

Published by Annual Reviews

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The Glial Perspective on Sleep and Circadian Rhythms (2020)

Artiushin, Gregory ; Sehgal, Amita

Annual Reviews

In: Annual Review of Neuroscience. 2020; 43(1): 119-140. Published 2020 Jul 08. doi: 10.1146/annurev-neuro-091819-094557.

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Publication Date: 2020-07-08

Description: While neurons and circuits are almost unequivocally considered to be the computational units and actuators of behavior, a complete understanding of the nervous system must incorporate glial cells. Far beyond a copious but passive substrate, glial influence is inextricable from neuronal physiology, whether during developmental guidance and synaptic shaping or through the trophic support, neurotransmitter and ion homeostasis, cytokine signaling and immune function, and debris engulfment contributions that this class provides throughout an organism's life. With such essential functions, among a growing literature of nuanced roles, it follows that glia are consequential to behavior in adult animals, with novel genetic tools allowing for the investigation of these phenomena in living organisms. We discuss here the relevance of glia for maintaining circadian rhythms and also for serving functions of sleep.

Print ISSN: 0147-006X

Electronic ISSN: 1545-4126

Topics: Biology , Medicine

Published by Annual Reviews

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