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Fluorescent and luminescent probes for biological activity = a practical guide to technology for quantitative real-time analysis /

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
正題名/作者:	Fluorescent and luminescent probes for biological activity/ edited by W.T. Mason.
其他題名:	a practical guide to technology for quantitative real-time analysis /
其他作者:	Mason, W. T.
出版者:	San Diego, Calif. :Academic Press, : c1999.,
面頁冊數:	1 online resource (xxv, 647 p.) :ill. (some col.) :
標題:	Fluorescent probes. -
電子資源:	http://www.sciencedirect.com/science/book/9780124478367
ISBN:	9780124478367

Fluorescent and luminescent probes for biological activity = a practical guide to technology for quantitative real-time analysis /
Fluorescent and luminescent probes for biological activitya practical guide to technology for quantitative real-time analysis /[electronic resource] :edited by W.T. Mason. - 2nd ed. - San Diego, Calif. :Academic Press,c1999. - 1 online resource (xxv, 647 p.) :ill. (some col.) - Biological techniques. - Biological techniques series..

Includes bibliographical references and index.

Part 1: Introduction to Fluorescence Microscopy: -- J.S. Ploem, Fluorescence Microscopy. -- Part II: Optical Probes and Their Applications: -- F.H. Kasten, Introduction to Fluorescent Probes: Properties, History, and Applications. -- R.P. Haugland and I.D. Johnson, Intracellular Ion Indicators. V.L. Singer and R.P. Haugland, Fluorescent Imaging of Nucleic Acids and Protein in Gels. -- Part III: Using Optical Probes in Cells -- Practicalities, Problems, and Pitfalls: -- D.N. Bowser, S.H. Cody, P.N. Dubbin, and D.A. Williams, Introducing and Calibrating Fluorescent Probes in Cells and Organelles. -- F. Bobanovic, Electroporation: A Method for Introduction of Non-permeable Molecular Probes. -- S.L. Shorte and S. Bolsover, Imaging Reality: Understanding Maps of Physiological Cell Signals Measured by Fluorescence Microscopy and Digital Imaging. -- J. Hoyland, Fluorescent Probes in Practice -- Potential Artifacts. -- Part IV: Optical Probes for Specific Molecules, Organelles, and Cells: -- A.V. Zelenin, Acridine Orange as a Probe for Molecular and Cell Biology. -- J.W. Kok and D. Hoekstra, Fluorescent Lipid Analogues: Applications in Cell and Membrane Biology. -- S.R. Adams, B.J. Bacskai, S.S. Taylor and R.Y. Tsien, Optical Probes for Cyclic AMP. -- Part V: Technology for Qulaitative and Quantitative Detection of Optical Probes in Living Cells: -- W.T. Mason, J. Dempster, J. Hoyland, T.J. McCann, B. Somasundaram and W. O'Brien, Quantitative Digital Imaging of Biological Activity in Living Cells with Ion-sensitive Fluorescent Probes. -- J. Dempster, Fast Photomeric Measurements of Cell Function. -- L.M. Loew, Potentiometric Membrane Dyes and Imaging Membrane Potential in Single Cells. -- J.-y. Wu, L.B. Cohen, and C.X. Falk, Fast Multisite Optical Measurement of Membrane Potential, with Two Examples. -- S. Antic and D. Zecevic, Imagine Membrane Potential Changes in Individual Neurons. -- Part VI: Using Novel Indications for Genetic, Molecular, and Cellular Function: -- G.B. Sala-Newby, J.M. Kendall, Helen E. Jones, Kathryn M. Taylor, Michael N. Badminton, David H. Llewellyn and A.K. Campbell, Bioluminescent and Chemiluminescent Indicators for Molecular Signaling and Function in Living Cells. -- G.A. Rutter, A.A. Culbert and J.M. Tavare, Luminescence Imaging of Gene Expression in Single Living Cells. -- S.R. Kain, Enhanced Variants of the Green Fluorescent Protein for Greater Sensitivity, Different Colors, and Detection of Apoptosis. -- R. Haggart, N. Bodsworth, and N. Foote, Rapid Detection of Microorganisms. -- Part VII: Applications of Confocal Microscopy for Optical Probe Imaging: -- C.J.R. Sheppard, Confocal Microscopy -- Principles, Practice, and Options. -- K.-P. Yip and I. Kurtz, Dual-excitation Confocal Fluorescence Microscopy. -- Y.S. Prakash, M.S. Kannan, and G.C. Sieck, High-speed Confocal Imaging in Four Dimensions. -- G. Cox and C. Sheppard, Multiphoton Fluorescence Microscopy. -- P. Lipp and M.D. Bootman, High-resolution Confocal Imaging of Elementary Ca2+ Signals in Living Cells. -- A. Ichihara, T. Tanaami, H. Ishida, and M. Shimizu, Confocal Fluorescent Microscopy Using Nipkow Scanner. -- S.H. Cody and D.A. Williams, Optimizing Confical Microscopy for Thick Biological Specimens. -- B.R. Masters and B. Chance, Redox Confocal Imaging: Intrinsic Fluorescent Probes of Cellular Metabolism. -- Part VIII: Advanced Imaging and Light Detection Approaches for Optical Probe Applications: -- G.J. Puppels, Confocal Raman Microspectroscopy. -- C. Rothmann, I. Bar-Am, Z. Dubinsky, S. Katz, and Z. Malik, Spectral Imaging of Autofluorescence Molecules and DNA Probes. -- B. Masters, P.T.C. So, and E. Gratton, Multiphoton Excitation Microscopy and Spectroscopy of Cells, Tissues, and Human Skin In Vivo. -- R. Wolthuis, T.C. Bakker Schut, P.J. Caspers, H.P.J. Buschman, T.J. R~mer, H.A. Bruining, and G.J. Puppels, Raman Spectroscopic Methods for In Vitro and In Vivo Tissue Characterization. -- G.J. Puppels, J.M.C.C. Coremans, and H.A. Bruining, In Vivo Semiquantitative NADH-fluorescence Imaging. -- T.W.J. Gadella Jr., Fluorescence Lifetime Imaging Microscopy (FLIM): Instrumentation and Applications. -- G. Skews and T. McCann, Detection of Fluorescently Labelled Proteins following Gel Electrophoresis: A Key Enabling Technology for Proteomics. -- Part IX: CCD Cameras: Key Enabling Technologies for Optical Probe Imaging: -- P. Tomkins and A. Lyons, Properties of Low-light-level Intensified Cameras. -- R. Aikens, Properties of Low-light-level Slow-scan Detectors. -- C.D. Mackay, High-speed Digital CCD Cameras -- Principles and Applications. -- Part X: Flow Cytomeric Methodologies for Measurement of Optical Probes in Living Cells: -- E.R. Simons, Flow Cytometry: Use of Multiparameter Kinetics to Evaluate Several Activation Parameters Simultaneously in Individual Living Cells. -- A.M. Gurney, Photolabile Caged Compounds. -- K. Hahn, J. Kolega, J. Montibeller, R. DeBasio, P. Post, J. Myers and D.L. Taylor, Fluorescent Analogues: Optical Biosensors of the Chemical and Molecular Dynamics of Macromolecules in Living Cells. -- Part XI: Applications of Optical Probe Imaging to Biological Problems: -- M. Fricker, C. Plieth, H. Knight, E. Blancaflor, M.R. Knight, N.S. White, S. Gilroy, Fluorescence and Luminescence Techniques to Probe Ion Activities in Living Plant Cells. -- G. Shamkar and M.A. Horton, Nuclear Calcium: Concepts and Controversies. -- A.W. de Feijter, J.E. Trosko, and M.H. Wade, Assessment of Gap Junctional Intercellular Communications in Living Cells Using Fluorescence Techniques. -- K.E. Sawin, J.A. Theriot and T.J. Mitchison, Photoactivation of Fluorescence as a Probe for Cytoskeletal Dynamics in Mitosis and Cell Motility. -- K. Florine-Casteel, J.L. Lemasters and B. Herman, Video Imaging of Lipid Order. -- Index.

The use of fluorescent and luminescent probes to measure biological function has increased dramatically since publication of the First Edition due to their improved speed, safety, and power of analytical approach. This eagerly awaited Second Edition, also edited by Bill Mason, contains 19 new chapters and over two thirds new material, and is a must for all life scientists using optical probes. The contents include discussion of new optical methodologies for detection of proteins, DNA and other molecules, as well as probes for ions, receptors, cellular components, and gene expression. Emerging and advanced technologies for probe detection such as confocal laser scanning microscopy are also covered. This book will be essential for those embarking on work in the field or using new methods to enhance their research. TOPICS COVERED: * Single and multiphoton confocal microscopy * Applications of green fluorescent protein and chemiluminescent reporters to gene expression studies * Applications of new optical probes for imaging proteins in gels * Probes and detection technologies for imaging membrane potential in live cells * Use of optical probes to detect microorganisms * Raman and confocal raman microspectroscopy * Fluorescence lifetime imaging microscopy * Digital CCD cameras and their application in biological microscopy.

ISBN: 9780124478367

Source: 80362:80362Elsevier Science & Technologyhttp://www.sciencedirect.comSubjects--Topical Terms:

862382
Fluorescent probes.
Index Terms--Genre/Form:

554714
Electronic books.

LC Class. No.: QP519.9.F56 / F58 1999eb

Dewey Class. No.: 570/.28

National Agricultural Library Call No.: QP519.9.F56 / F624 1999

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245 0 0 $a Fluorescent and luminescent probes for biological activity $h [electronic resource] : $b a practical guide to technology for quantitative real-time analysis / $c edited by W.T. Mason.
250 $a 2nd ed.
260 $a San Diego, Calif. : $b Academic Press, $c c1999.
300 $a 1 online resource (xxv, 647 p.) : $b ill. (some col.)
490 1 $a Biological techniques
504 $a Includes bibliographical references and index.
505 0 $a Part 1: Introduction to Fluorescence Microscopy: -- J.S. Ploem, Fluorescence Microscopy. -- Part II: Optical Probes and Their Applications: -- F.H. Kasten, Introduction to Fluorescent Probes: Properties, History, and Applications. -- R.P. Haugland and I.D. Johnson, Intracellular Ion Indicators. V.L. Singer and R.P. Haugland, Fluorescent Imaging of Nucleic Acids and Protein in Gels. -- Part III: Using Optical Probes in Cells -- Practicalities, Problems, and Pitfalls: -- D.N. Bowser, S.H. Cody, P.N. Dubbin, and D.A. Williams, Introducing and Calibrating Fluorescent Probes in Cells and Organelles. -- F. Bobanovic, Electroporation: A Method for Introduction of Non-permeable Molecular Probes. -- S.L. Shorte and S. Bolsover, Imaging Reality: Understanding Maps of Physiological Cell Signals Measured by Fluorescence Microscopy and Digital Imaging. -- J. Hoyland, Fluorescent Probes in Practice -- Potential Artifacts. -- Part IV: Optical Probes for Specific Molecules, Organelles, and Cells: -- A.V. Zelenin, Acridine Orange as a Probe for Molecular and Cell Biology. -- J.W. Kok and D. Hoekstra, Fluorescent Lipid Analogues: Applications in Cell and Membrane Biology. -- S.R. Adams, B.J. Bacskai, S.S. Taylor and R.Y. Tsien, Optical Probes for Cyclic AMP. -- Part V: Technology for Qulaitative and Quantitative Detection of Optical Probes in Living Cells: -- W.T. Mason, J. Dempster, J. Hoyland, T.J. McCann, B. Somasundaram and W. O'Brien, Quantitative Digital Imaging of Biological Activity in Living Cells with Ion-sensitive Fluorescent Probes. -- J. Dempster, Fast Photomeric Measurements of Cell Function. -- L.M. Loew, Potentiometric Membrane Dyes and Imaging Membrane Potential in Single Cells. -- J.-y. Wu, L.B. Cohen, and C.X. Falk, Fast Multisite Optical Measurement of Membrane Potential, with Two Examples. -- S. Antic and D. Zecevic, Imagine Membrane Potential Changes in Individual Neurons. -- Part VI: Using Novel Indications for Genetic, Molecular, and Cellular Function: -- G.B. Sala-Newby, J.M. Kendall, Helen E. Jones, Kathryn M. Taylor, Michael N. Badminton, David H. Llewellyn and A.K. Campbell, Bioluminescent and Chemiluminescent Indicators for Molecular Signaling and Function in Living Cells. -- G.A. Rutter, A.A. Culbert and J.M. Tavare, Luminescence Imaging of Gene Expression in Single Living Cells. -- S.R. Kain, Enhanced Variants of the Green Fluorescent Protein for Greater Sensitivity, Different Colors, and Detection of Apoptosis. -- R. Haggart, N. Bodsworth, and N. Foote, Rapid Detection of Microorganisms. -- Part VII: Applications of Confocal Microscopy for Optical Probe Imaging: -- C.J.R. Sheppard, Confocal Microscopy -- Principles, Practice, and Options. -- K.-P. Yip and I. Kurtz, Dual-excitation Confocal Fluorescence Microscopy. -- Y.S. Prakash, M.S. Kannan, and G.C. Sieck, High-speed Confocal Imaging in Four Dimensions. -- G. Cox and C. Sheppard, Multiphoton Fluorescence Microscopy. -- P. Lipp and M.D. Bootman, High-resolution Confocal Imaging of Elementary Ca2+ Signals in Living Cells. -- A. Ichihara, T. Tanaami, H. Ishida, and M. Shimizu, Confocal Fluorescent Microscopy Using Nipkow Scanner. -- S.H. Cody and D.A. Williams, Optimizing Confical Microscopy for Thick Biological Specimens. -- B.R. Masters and B. Chance, Redox Confocal Imaging: Intrinsic Fluorescent Probes of Cellular Metabolism. -- Part VIII: Advanced Imaging and Light Detection Approaches for Optical Probe Applications: -- G.J. Puppels, Confocal Raman Microspectroscopy. -- C. Rothmann, I. Bar-Am, Z. Dubinsky, S. Katz, and Z. Malik, Spectral Imaging of Autofluorescence Molecules and DNA Probes. -- B. Masters, P.T.C. So, and E. Gratton, Multiphoton Excitation Microscopy and Spectroscopy of Cells, Tissues, and Human Skin In Vivo. -- R. Wolthuis, T.C. Bakker Schut, P.J. Caspers, H.P.J. Buschman, T.J. R~mer, H.A. Bruining, and G.J. Puppels, Raman Spectroscopic Methods for In Vitro and In Vivo Tissue Characterization. -- G.J. Puppels, J.M.C.C. Coremans, and H.A. Bruining, In Vivo Semiquantitative NADH-fluorescence Imaging. -- T.W.J. Gadella Jr., Fluorescence Lifetime Imaging Microscopy (FLIM): Instrumentation and Applications. -- G. Skews and T. McCann, Detection of Fluorescently Labelled Proteins following Gel Electrophoresis: A Key Enabling Technology for Proteomics. -- Part IX: CCD Cameras: Key Enabling Technologies for Optical Probe Imaging: -- P. Tomkins and A. Lyons, Properties of Low-light-level Intensified Cameras. -- R. Aikens, Properties of Low-light-level Slow-scan Detectors. -- C.D. Mackay, High-speed Digital CCD Cameras -- Principles and Applications. -- Part X: Flow Cytomeric Methodologies for Measurement of Optical Probes in Living Cells: -- E.R. Simons, Flow Cytometry: Use of Multiparameter Kinetics to Evaluate Several Activation Parameters Simultaneously in Individual Living Cells. -- A.M. Gurney, Photolabile Caged Compounds. -- K. Hahn, J. Kolega, J. Montibeller, R. DeBasio, P. Post, J. Myers and D.L. Taylor, Fluorescent Analogues: Optical Biosensors of the Chemical and Molecular Dynamics of Macromolecules in Living Cells. -- Part XI: Applications of Optical Probe Imaging to Biological Problems: -- M. Fricker, C. Plieth, H. Knight, E. Blancaflor, M.R. Knight, N.S. White, S. Gilroy, Fluorescence and Luminescence Techniques to Probe Ion Activities in Living Plant Cells. -- G. Shamkar and M.A. Horton, Nuclear Calcium: Concepts and Controversies. -- A.W. de Feijter, J.E. Trosko, and M.H. Wade, Assessment of Gap Junctional Intercellular Communications in Living Cells Using Fluorescence Techniques. -- K.E. Sawin, J.A. Theriot and T.J. Mitchison, Photoactivation of Fluorescence as a Probe for Cytoskeletal Dynamics in Mitosis and Cell Motility. -- K. Florine-Casteel, J.L. Lemasters and B. Herman, Video Imaging of Lipid Order. -- Index.
520 $a The use of fluorescent and luminescent probes to measure biological function has increased dramatically since publication of the First Edition due to their improved speed, safety, and power of analytical approach. This eagerly awaited Second Edition, also edited by Bill Mason, contains 19 new chapters and over two thirds new material, and is a must for all life scientists using optical probes. The contents include discussion of new optical methodologies for detection of proteins, DNA and other molecules, as well as probes for ions, receptors, cellular components, and gene expression. Emerging and advanced technologies for probe detection such as confocal laser scanning microscopy are also covered. This book will be essential for those embarking on work in the field or using new methods to enhance their research. TOPICS COVERED: * Single and multiphoton confocal microscopy * Applications of green fluorescent protein and chemiluminescent reporters to gene expression studies * Applications of new optical probes for imaging proteins in gels * Probes and detection technologies for imaging membrane potential in live cells * Use of optical probes to detect microorganisms * Raman and confocal raman microspectroscopy * Fluorescence lifetime imaging microscopy * Digital CCD cameras and their application in biological microscopy.
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