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Literature DB >> 21819387

In vitro circadian rhythms: imaging and electrophysiology.

Christian Beaulé¹, Daniel Granados-Fuentes, Luciano Marpegan, Erik D Herzog.

Abstract

In vitro assays have localized circadian pacemakers to individual cells, revealed genetic determinants of rhythm generation, identified molecular players in cell-cell synchronization and determined physiological events regulated by circadian clocks. Although they allow strict control of experimental conditions and reduce the number of variables compared with in vivo studies, they also lack many of the conditions in which cellular circadian oscillators normally function. The present review highlights methods to study circadian timing in cultured mammalian cells and how they have shaped the hypothesis that all cells are capable of circadian rhythmicity.

Entities: CellLine Chemical Disease Gene Species

Mesh：

Year: 2011 PMID： 21819387 PMCID： PMC3677547 DOI： 10.1042/bse0490103

Source DB: PubMed Journal: Essays Biochem ISSN： 0071-1365 Impact factor: 8.000

42 in total

1. Establishment and characterization of adenoviral E1A immortalized cell lines derived from the rat suprachiasmatic nucleus.

Authors: D J Earnest; F Q Liang; S DiGiorgio; M Gallagher; B Harvey; B Earnest; G Seigel
Journal: J Neurobiol Date: 1999-04

8. A Computational Analysis of Alternative Splicing across Mammalian Tissues Reveals Circadian and Ultradian Rhythms in Splicing Events.

Authors: Rukeia El-Athman; Dora Knezevic; Luise Fuhr; Angela Relógio
Journal: Int J Mol Sci Date: 2019-08-15 Impact factor: 5.923

8 in total

In vitro circadian rhythms: imaging and electrophysiology.

1. Establishment and characterization of adenoviral E1A immortalized cell lines derived from the rat suprachiasmatic nucleus.

2. IN VITRO STUDIES OF ADRENAL-PITUITARY CIRCADIAN RHYTHMS IN THE MOUSE.

Review 3. Bioluminescence imaging in living organisms.

4. A serum shock induces circadian gene expression in mammalian tissue culture cells.

5. Calcium excitability and oscillations in suprachiasmatic nucleus neurons and glia in vitro.

Review 6. Signaling in the mammalian circadian clock: the NO/cGMP pathway.

7. Long-term monitoring of circadian rhythms in c-fos gene expression from suprachiasmatic nucleus cultures.

8. Immortal time: circadian clock properties of rat suprachiasmatic cell lines.

9. Circadian rhythms in cultured mammalian retina.

10. Circadian rhythm generation and entrainment in astrocytes.

1. Cell-intrinsic, Bmal1-dependent Circadian Regulation of Temozolomide Sensitivity in Glioblastoma.

Review 2. The importance of determining circadian parameters in pharmacological studies.

3. Synthetic gene circuits for preventing disruption of the circadian clock due to interleukin-1-induced inflammation.

4. Circadian Gene Expression Rhythms During Critical Illness.

Review 5. The Role of Mammalian Glial Cells in Circadian Rhythm Regulation.

Review 6. Circadian Regulation of Glutamate Transporters.

7. Circadian-Like Rhythmicity of Extracellular Brain Glutamate in Epilepsy.

8. A Computational Analysis of Alternative Splicing across Mammalian Tissues Reveals Circadian and Ultradian Rhythms in Splicing Events.