Biophysical and Biochemical Aspects of Fluorescence Spectroscopy
Fluorescence spectroscopy has traditionally found wide application in bio­ chemistry and cell biology. Since there are relatively few naturally occurring fluorescent biomolecules, fluorescence spectroscopy offers a combination of great specificity and sensitivity. Historically, these features have been ex­ ploited with great success utilizing both intrinsic and extrinsic probes. Re­ cent applications have built upon these traditional strengths and have resulted in the development of new instrumental techniques, novel and convenient fluorescent probes, and a deeper, theoretical understanding of fundamental processes. Frequently, fluorescence techniques are tailored to attack a specific biological problem. These new methods in turn produce new physical situations and phenomena which are often of interest to the physical chemist. Thus, progress in one area stimulates renewed interest in other areas. The goal of this book is to provide detailed monographs on the use of fluorescence to investigate problems at the forefront of biochemistry and cell biology. This book is not meant to be a comprehensive survey but rather to highlight areas of recent developments. It is designed to be readable to the novice and yet provide sufficient detail for the expert to keep abreast of recent developments. The book is organized so that it proceeds from simple biochemical systems to more complex cell biological ones. Chapter I on fluorescence quenching of biological structures is a good introductory chapter. It intro­ duces a number of elementary concepts and discusses applications to proteins and biomembranes.
1101497341
Biophysical and Biochemical Aspects of Fluorescence Spectroscopy
Fluorescence spectroscopy has traditionally found wide application in bio­ chemistry and cell biology. Since there are relatively few naturally occurring fluorescent biomolecules, fluorescence spectroscopy offers a combination of great specificity and sensitivity. Historically, these features have been ex­ ploited with great success utilizing both intrinsic and extrinsic probes. Re­ cent applications have built upon these traditional strengths and have resulted in the development of new instrumental techniques, novel and convenient fluorescent probes, and a deeper, theoretical understanding of fundamental processes. Frequently, fluorescence techniques are tailored to attack a specific biological problem. These new methods in turn produce new physical situations and phenomena which are often of interest to the physical chemist. Thus, progress in one area stimulates renewed interest in other areas. The goal of this book is to provide detailed monographs on the use of fluorescence to investigate problems at the forefront of biochemistry and cell biology. This book is not meant to be a comprehensive survey but rather to highlight areas of recent developments. It is designed to be readable to the novice and yet provide sufficient detail for the expert to keep abreast of recent developments. The book is organized so that it proceeds from simple biochemical systems to more complex cell biological ones. Chapter I on fluorescence quenching of biological structures is a good introductory chapter. It intro­ duces a number of elementary concepts and discusses applications to proteins and biomembranes.
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Biophysical and Biochemical Aspects of Fluorescence Spectroscopy

Biophysical and Biochemical Aspects of Fluorescence Spectroscopy

Biophysical and Biochemical Aspects of Fluorescence Spectroscopy

Biophysical and Biochemical Aspects of Fluorescence Spectroscopy

Hardcover(1991)

$169.99 
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Overview

Fluorescence spectroscopy has traditionally found wide application in bio­ chemistry and cell biology. Since there are relatively few naturally occurring fluorescent biomolecules, fluorescence spectroscopy offers a combination of great specificity and sensitivity. Historically, these features have been ex­ ploited with great success utilizing both intrinsic and extrinsic probes. Re­ cent applications have built upon these traditional strengths and have resulted in the development of new instrumental techniques, novel and convenient fluorescent probes, and a deeper, theoretical understanding of fundamental processes. Frequently, fluorescence techniques are tailored to attack a specific biological problem. These new methods in turn produce new physical situations and phenomena which are often of interest to the physical chemist. Thus, progress in one area stimulates renewed interest in other areas. The goal of this book is to provide detailed monographs on the use of fluorescence to investigate problems at the forefront of biochemistry and cell biology. This book is not meant to be a comprehensive survey but rather to highlight areas of recent developments. It is designed to be readable to the novice and yet provide sufficient detail for the expert to keep abreast of recent developments. The book is organized so that it proceeds from simple biochemical systems to more complex cell biological ones. Chapter I on fluorescence quenching of biological structures is a good introductory chapter. It intro­ duces a number of elementary concepts and discusses applications to proteins and biomembranes.

Product Details

ISBN-13: 9780306436277
Publisher: Springer US
Publication date: 04/30/1991
Edition description: 1991
Pages: 294
Product dimensions: 6.10(w) x 9.25(h) x 0.03(d)

Table of Contents

1 Fluorescence Quenching Reactions: Probing Biological Macromolecular Structures.- 2 Luminescent Trivalent Lanthanides in Studies of Cation Binding Sites.- 3 Continuous, On-Line, Real Time DNA Sequencing Using Multifluorescently Tagged Primers.- 4 Time-Resolved Fluorescence in Biology and Biochemistry.- 5 Fluorescence Investigations of Receptor-Mediated Processes.- 6 Analysis of Ligand Binding and Cross-Linking of Receptors in Solution and on Cell Surfaces: Immunoglobulin E as a Model Receptor.- 7 Fluorescence Energy Transfer in Membrane Biochemistry.- 8 Imaging Membrane Organization and Dynamics.- 9 The Dynamic Parameter: Fluorescence Photobleaching as a Tool to Dissect Space in Biological Systems.
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