Imaging with organic indicators and high-speed charge-coupled device cameras in neurons: some applications where these classic techniques have advantages
Dynamic calcium and voltage imaging is a major tool in modern cellular neuroscience. Since the beginning of their use over 40 years ago, there have been major improvements in indicators, microscopes, imaging systems, and computers. While cutting edge research has trended toward the use of geneticall...
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| Published in: | Neurophotonics (Print) Vol. 2; no. 2; p. 021005 |
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| Main Authors: | , , , |
| Format: | Journal Article |
| Language: | English |
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United States
Society of Photo-Optical Instrumentation Engineers
01-04-2015
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| Series: | Pioneers in Neurophotonics: Special Section Honoring Professor Lawrence B. Cohen |
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| Abstract | Dynamic calcium and voltage imaging is a major tool in modern cellular neuroscience. Since the beginning of their use over 40 years ago, there have been major improvements in indicators, microscopes, imaging systems, and computers. While cutting edge research has trended toward the use of genetically encoded calcium or voltage indicators, two-photon microscopes, and in vivo preparations, it is worth noting that some questions still may be best approached using more classical methodologies and preparations. In this review, we highlight a few examples in neurons where the combination of charge-coupled device (CCD) imaging and classical organic indicators has revealed information that has so far been more informative than results using the more modern systems. These experiments take advantage of the high frame rates, sensitivity, and spatial integration of the best CCD cameras. These cameras can respond to the faster kinetics of organic voltage and calcium indicators, which closely reflect the fast dynamics of the underlying cellular events. |
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| AbstractList | Dynamic calcium and voltage imaging is a major tool in modern cellular neuroscience. Since the beginning of their use over 40 years ago, there have been major improvements in indicators, microscopes, imaging systems, and computers. While cutting edge research has trended toward the use of genetically encoded calcium or voltage indicators, two-photon microscopes, and in vivo preparations, it is worth noting that some questions still may be best approached using more classical methodologies and preparations. In this review, we highlight a few examples in neurons where the combination of charge-coupled device (CCD) imaging and classical organic indicators has revealed information that has so far been more informative than results using the more modern systems. These experiments take advantage of the high frame rates, sensitivity, and spatial integration of the best CCD cameras. These cameras can respond to the faster kinetics of organic voltage and calcium indicators, which closely reflect the fast dynamics of the underlying cellular events. Dynamic calcium and voltage imaging is a major tool in modern cellular neuroscience. Since the beginning of their use over 40 years ago, there have been major improvements in indicators, microscopes, imaging systems, and computers. While cutting edge research has trended toward the use of genetically encoded calcium or voltage indicators, two-photon microscopes, and in vivo preparations, it is worth noting that some questions still may be best approached using more classical methodologies and preparations. In this review, we highlight a few examples in neurons where the combination of charge-coupled device (CCD) imaging and classical organic indicators has revealed information that has so far been more informative than results using the more modern systems. These experiments take advantage of the high frame rates, sensitivity, and spatial integration of the best CCD cameras. These cameras can respond to the faster kinetics of organic voltage and calcium indicators, which closely reflect the fast dynamics of the underlying cellular events. |
| Author | Popovic, Marko A Miyazaki, Kenichi Zecevic, Dejan Ross, William N |
| Author_xml | – sequence: 1 givenname: William N surname: Ross fullname: Ross, William N email: ross@nymc.edu organization: aNew York Medical College, Department of Physiology, Valhalla, New York 10595, United States – sequence: 2 givenname: Kenichi surname: Miyazaki fullname: Miyazaki, Kenichi organization: aNew York Medical College, Department of Physiology, Valhalla, New York 10595, United States – sequence: 3 givenname: Marko A surname: Popovic fullname: Popovic, Marko A organization: bYale University School of Medicine, Department of Cellular and Molecular Physiology, New Haven, Connecticut 06510, United States – sequence: 4 givenname: Dejan surname: Zecevic fullname: Zecevic, Dejan organization: bYale University School of Medicine, Department of Cellular and Molecular Physiology, New Haven, Connecticut 06510, United States |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/26157996$$D View this record in MEDLINE/PubMed |
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| Title | Imaging with organic indicators and high-speed charge-coupled device cameras in neurons: some applications where these classic techniques have advantages |
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