Fluorescent and luminescent probes for biological activity : a practical guide to technology for quantitative real-time analysis
Author(s)
Bibliographic Information
Fluorescent and luminescent probes for biological activity : a practical guide to technology for quantitative real-time analysis
(Biological techniques series)
Academic Press, c1993
- : hbk
- : bench-top ed
Available at 25 libraries
  Aomori
  Iwate
  Miyagi
  Akita
  Yamagata
  Fukushima
  Ibaraki
  Tochigi
  Gunma
  Saitama
  Chiba
  Tokyo
  Kanagawa
  Niigata
  Toyama
  Ishikawa
  Fukui
  Yamanashi
  Nagano
  Gifu
  Shizuoka
  Aichi
  Mie
  Shiga
  Kyoto
  Osaka
  Hyogo
  Nara
  Wakayama
  Tottori
  Shimane
  Okayama
  Hiroshima
  Yamaguchi
  Tokushima
  Kagawa
  Ehime
  Kochi
  Fukuoka
  Saga
  Nagasaki
  Kumamoto
  Oita
  Miyazaki
  Kagoshima
  Okinawa
  Korea
  China
  Thailand
  United Kingdom
  Germany
  Switzerland
  France
  Belgium
  Netherlands
  Sweden
  Norway
  United States of America
-
Faculty of Textile Science and Technology Library, Shinshu University図
: bench-top ed433.5:F 352825036821
Note
Includes bibliographical references and index
Description and Table of Contents
- Volume
-
: hbk ISBN 9780124778290
Description
This book provides both new and existing scientists with an introduction to the practice of optical probe technology, the problems, the pitfalls and limitations likely to be encountered, the application to practical biological questions and the likely areas for future development. The book focuses on the practical hardware requirements and underlying principles of operation, the strategies leading to development of optical probes and their application to living material.
Table of Contents
- Fluorescence microscopy, J.S. Ploem
- introduction to fluorescent probes - properties, history and applications, F.H. Kasten
- intracellular ion indicators, R. Haughland
- radox confocal imaging - intrinsic fluorescent probes of cellular metabolism, B. Chance and B.R. Masters
- bio- and chemi-luminescent indicators for molecular signalling and function in living cells, A.K. Campbell and G. Sala-Newby
- acridine orange as a probe for molecular biology, Alexander Aelenin
- fluorescent lipid analogues - applications in cell and membrane biology, J.W. Kok and D. Hoekstra
- probes for endoplasmic reticulum, M. Terasaki
- probing mitochondrial membrane potential in living cells by a J-aggregate forming dye, L.B. Chen and S.T. Smiley
- optical probes for cyclic AMP, S.R. Adams, et al
- potentiometric membrane dyes, L.M. Loew
- real time fluorescence ratio imaging in living cells, W.T. Manson
- a small area-cooled-lcd camera and software for fluorescence ratio imaging, G. Law and W. O'Brien
- multiparamater imaging of cellular function, G. Bright
- digital image analysis - software approaches and applications, G. Relf
- fluorescent probes in practice - potential artefacts, J. Hoyland
- confocal microscopy principles, practice and options, C.J.R. Sheppard
- confocal ramam microspectrosopy, G.J. Puppels, et al
- dual excitation confocal fluorescent microscopy, I. Kurtz
- properties of low light level video frame rate cameras, P. Tomkins and A. Lyons
- properties of low light level slow scan detectors, R. Aikens
- fast photometric measurements of cell function combined with electrophysiology, J. Dempster
- flow cytometry - use of multiparameter kinetics to evaluate several activation parameters simultaneously in individual living cells, E.R. Simons
- flow cytometric analysis and sorting of viable cells, J.F. Keij and H. Herweijer
- introducing and calibrating probes in cells and organelles, D. Williams, et al
- photolabila caged compounds, A.M. Gurney
- fluorescent analogs - optical biosensors of the chemical and molecular dynamics of macromolecules in living cells, K.M. Hahn, et al
- fluorescence and luminescence techiques to probe ion activities in living plant-cells,, M. Tester, et al
- assessment of gap junctional inter-cellular communication in living cells using fluorescence techniques, J.E. Trosko, et al
- fast multiste optical measurement of membrane potential, J-Y Wu and L.B. Cohen
- photoactivation of fluorescence as a probe for cytoskeletal dynamics in mitosis and cell motility, K.E. Sawin, et al
- video imaging of lipid order, K. Florine-Cateel, et al.
- Volume
-
: bench-top ed ISBN 9780124778306
Description
This book provides both new and existing scientists with a head-start into the practice of optical probe technology, the problems, the pitfalls and limitations likely to be encountered, the application to practical biological questions and the likely areas for future development. The book focuses on the practical hardware requirements and underlying principles of operation, the strategies leading to development of optical probes and their application to living material.
Table of Contents
- Fluorescence microscopy, J.S. Ploem
- introduction to fluorescent probes - properties, history and applications, F.H. Kasten
- intracellular ion indicators, R. Haughland
- radox confocal imaging - intrinsic fluorescent probes of cellular metabolism, B. Chance and B.R. Masters
- bio- and chemi-luminescent indicators for molecular signalling and function in living cells, A.K. Campbell and G. Sala-Newby
- acridine orange as a probe for molecular biology, Alexander Aelenin
- fluorescent lipid analogues applications in cell and membrane biology, J.W. Kok and D. Hoekstra
- probes for endoplasmic reticulum, M. Terasaki
- probing mitochondrial membrane potential in living cells by a J-aggregate forming dye, L.B. Chen and S.T. Smiley
- optical probes for cyclic AMP, S.R. Adams, et al
- potentiometric membrane dyes, L.M. Loew
- real time fluorescence ratio imaging in living cells, W.T. Manson
- a small area-cooled-ccd camera and software for fluorescence ratio imaging, G. Law and W. O'Brien
- multiparamater imaging of cellular function, G. Bright
- digital image analysis - software approaches and applications, G. Relf
- fluorescent probes in practice - potential artefacts, J. Hoyland
- confocal microscopy principles, practice and options, C.J.R. Sheppard
- confocal ramam microspectrosopy, G.J. Puppels, et al
- dual excitation confocal fluorescent microscopy, I. Kurtz
- properties of low light level video frame rate cameras, P. Tomkins and A. Lyons
- properties of low light level slow scan detectors, R. Aikens
- fast photometric measurements of cell function combined with electrophysioogy, J. Dempster
- flow cytometry - use of multiparameter kinetics to evaluate several activation parameters simultaneously in individual living cells, E.R. Simons
- flow cytometric analysis and sorting of viable cells, J.F. Keij and H. Herweijer
- introducing and calibrating probes in cells and organelles, D. Williams, et al
- photolabila caged compounds, A.M. Gurney
- fluorescent analogs - optical biosensors of the chemical and molecular dynamics of macromolecules in living cells, K.M. Hahn, et al
- fluorescence and luminescence techiques to probe ion activities in living plant-cells,, M. Tester, et al
- assessment of gap junctional inter-cellular communication in living cells using fluorescence techniques, J.E. Trosko, et al
- fast multiste optical measurement of membrane potential, J-Y Wu and L.B. Cohen
- ohotoactivation of fluorescence as a probe for cytoskeletal dynamics in mitosis and cell motiligy, K.E. Sawin, et al
- video imaging of lipid order, K. Florine-Cateel, et al.
by "Nielsen BookData"