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Year 2018, Volume: 10 Issue: 3, 777 - 777, 18.08.2018
https://doi.org/10.37212/jcnos.609922

Abstract

References

  • Neubauer, Florian B, and MacLean, Jason N(Jan 2010) Calcium Imaging in Neuroscience. In: eLS. John Wiley & Sons Ltd, Chichester. http://www.els.net [doi: 10.1002/9780470015902.a0021391]
  • Pecze L, Blum W, Henzi T, Schwaller B. Endogenous TRPV1 stimulation leads to the activation of the inositol phospholipid pathway necessary for sustained Ca(2+) oscillations. Biochim Biophys Acta. 2016. Speak No. 2 Dec;1863:2905-2915.

Calcium imaging techniques in cell lines

Year 2018, Volume: 10 Issue: 3, 777 - 777, 18.08.2018
https://doi.org/10.37212/jcnos.609922

Abstract

Calcium imaging is a scientific technique which is designed to measure the intracellular free calcium concentration (Ca2+) in an isolated cell or tissue. Calcium imaging techniques utilizes fluorescent molecules so called Ca2+ indicators that can respond to the binding of Ca2+ ions by changing  heir fluorescence properties. Binding of a Ca2+ ion to a fluorescent indicator molecule leads to either an elevation in its fluorescence intensity or emission/excitation wavelength shift. 

Two main classes of calcium indicators are chemical indicators and genetically encoded calcium indicators. Chemical indicators are small molecules that can bind calcium ions. This group of indicators includes Fura-2, Fluo-3, Fluo-4, Rhod-2. These dyes are often used with acetoxymethyl esters, in order to render the molecule lipophilic and to allow easy entrance into the cell. Genetically encoded indicators do not need to be loaded onto cells, instead the genes encoding for these proteins can be easily transfected to cells. These indicators are fluorescent proteins derived from green fluorescent protein (GFP). The time-scan mode of laser confocal microscopy is often used for calcium imaging. Intracellular Ca2+ ions generate versatile  intracellular signals that control key functions in all types of cells. In sensory neurons Ca2+ signals are associated with pain transmission.

References

  • Neubauer, Florian B, and MacLean, Jason N(Jan 2010) Calcium Imaging in Neuroscience. In: eLS. John Wiley & Sons Ltd, Chichester. http://www.els.net [doi: 10.1002/9780470015902.a0021391]
  • Pecze L, Blum W, Henzi T, Schwaller B. Endogenous TRPV1 stimulation leads to the activation of the inositol phospholipid pathway necessary for sustained Ca(2+) oscillations. Biochim Biophys Acta. 2016. Speak No. 2 Dec;1863:2905-2915.
There are 2 citations in total.

Details

Primary Language English
Journal Section Original Articles
Authors

Laszlo Pecze This is me

Publication Date August 18, 2018
Published in Issue Year 2018 Volume: 10 Issue: 3

Cite

APA Pecze, L. (2018). Calcium imaging techniques in cell lines. Journal of Cellular Neuroscience and Oxidative Stress, 10(3), 777-777. https://doi.org/10.37212/jcnos.609922
AMA Pecze L. Calcium imaging techniques in cell lines. J Cell Neurosci Oxid Stress. August 2018;10(3):777-777. doi:10.37212/jcnos.609922
Chicago Pecze, Laszlo. “Calcium Imaging Techniques in Cell Lines”. Journal of Cellular Neuroscience and Oxidative Stress 10, no. 3 (August 2018): 777-77. https://doi.org/10.37212/jcnos.609922.
EndNote Pecze L (August 1, 2018) Calcium imaging techniques in cell lines. Journal of Cellular Neuroscience and Oxidative Stress 10 3 777–777.
IEEE L. Pecze, “Calcium imaging techniques in cell lines”, J Cell Neurosci Oxid Stress, vol. 10, no. 3, pp. 777–777, 2018, doi: 10.37212/jcnos.609922.
ISNAD Pecze, Laszlo. “Calcium Imaging Techniques in Cell Lines”. Journal of Cellular Neuroscience and Oxidative Stress 10/3 (August 2018), 777-777. https://doi.org/10.37212/jcnos.609922.
JAMA Pecze L. Calcium imaging techniques in cell lines. J Cell Neurosci Oxid Stress. 2018;10:777–777.
MLA Pecze, Laszlo. “Calcium Imaging Techniques in Cell Lines”. Journal of Cellular Neuroscience and Oxidative Stress, vol. 10, no. 3, 2018, pp. 777-, doi:10.37212/jcnos.609922.
Vancouver Pecze L. Calcium imaging techniques in cell lines. J Cell Neurosci Oxid Stress. 2018;10(3):777-.