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1.

図書

図書
安藤鋭郎[ほか]編
出版情報: 東京 : 朝倉書店, 1973  2冊 ; 22cm
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2.

図書

図書
江崎信芳, 藤田博美編著
出版情報: 京都 : 化学同人, 2002.3  326p ; 24cm
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3.

図書

図書
Brian R. Eggins
出版情報: Chichester, West Sussex : Wiley, c2002  xxi, 273 p. ; 23 cm
シリーズ名: Analytical Techniques in the Sciences(AnTS)
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目次情報: 続きを見る
Series Preface
Preface
Acronyms, Abbreviations and Symbols
About the Author
Introduction / 1:
Introduction to Sensors / 1.1:
What are Sensors? / 1.1.1:
The Nose as a Sensor / 1.1.2:
Sensors and Biosensors--Definitions / 1.2:
Aspects of Sensors / 1.3:
Recognition Elements / 1.3.1:
Transducers--the Detector Device / 1.3.2:
Methods of Immobilization / 1.3.3:
Performance Factors / 1.3.4:
Areas of Application / 1.3.5:
Transduction Elements / 2:
Electrochemical Transducers--Introduction / 2.1:
Potentiometry and Ion-Selective Electrodes: The Nernst Equation / 2.2:
Cells and Electrodes / 2.2.1:
Reference Electrodes / 2.2.2:
Quantitative Relationships: The Nernst Equation / 2.2.3:
Practical Aspects of Ion-Selective Electrodes / 2.2.4:
Measurement and Calibration / 2.2.5:
Voltammetry and Amperometry / 2.3:
Linear-Sweep Voltammetry / 2.3.1:
Cyclic Voltammetry / 2.3.2:
Chronoamperometry / 2.3.3:
Amperometry / 2.3.4:
Kinetic and Catalytic Effects / 2.3.5:
Conductivity / 2.4:
Field-Effect Transistors / 2.5:
Semiconductors--Introduction / 2.5.1:
Semiconductor--Solution Contact / 2.5.2:
Field-Effect Transistor / 2.5.3:
Modified Electrodes, Thin-Film Electrodes and Screen-Printed Electrodes / 2.6:
Thick-Film--Screen-Printed Electrodes / 2.6.1:
Microelectrodes / 2.6.2:
Thin-Film Electrodes / 2.6.3:
Photometric Sensors / 2.7:
Optical Techniques / 2.7.1:
Ultraviolet and Visible Absorption Spectroscopy / 2.7.3:
Fluorescence Spectroscopy / 2.7.4:
Luminescence / 2.7.5:
Optical Transducers / 2.7.6:
Device Construction / 2.7.7:
Solid-Phase Absorption Label Sensors / 2.7.8:
Applications / 2.7.9:
Further Reading
Sensing Elements / 3:
Ionic Recognition / 3.1:
Ion-Selective Electrodes--Introduction / 3.2.1:
Interferences / 3.2.2:
Conducting Devices / 3.2.3:
Modified Electrodes and Screen-Printed Electrodes / 3.2.4:
Molecular Recognition--Chemical Recognition Agents / 3.3:
Thermodynamic--Complex Formation / 3.3.1:
Kinetic--Catalytic Effects: Kinetic Selectivity / 3.3.2:
Molecular Size / 3.3.3:
Molecular Recognition--Spectroscopic Recognition / 3.4:
Infrared Spectroscopy--Molecular / 3.4.1:
Ultraviolet Spectroscopy--Less Selective / 3.4.3:
Nuclear Magnetic Resonance Spectroscopy--Needs Interpretation / 3.4.4:
Mass Spectrometry / 3.4.5:
Molecular Recognition--Biological Recognition Agents / 3.5:
Enzymes / 3.5.1:
Tissue Materials / 3.5.3:
Micro-Organisms / 3.5.4:
Mitochondria / 3.5.5:
Antibodies / 3.5.6:
Nucleic Acids / 3.5.7:
Receptors / 3.5.8:
Immobilization of Biological Components / 3.6:
Adsorption / 3.6.1:
Microencapsulation / 3.6.3:
Entrapment / 3.6.4:
Cross-Linking / 3.6.5:
Covalent Bonding / 3.6.6:
Selectivity / 4:
Ion-Selective Electrodes / 4.2.1:
Others / 4.2.2:
Sensitivity / 4.3:
Range, Linear Range and Detection Limits / 4.3.1:
Time Factors / 4.4:
Response Times / 4.4.1:
Recovery Times / 4.4.2:
Lifetimes / 4.4.3:
Precision, Accuracy and Repeatability / 4.5:
Different Biomaterials / 4.6:
Different Transducers / 4.7:
Urea Biosensors / 4.7.1:
Amino Acid Biosensors / 4.7.2:
Glucose Biosensors / 4.7.3:
Uric Acid / 4.7.4:
Some Factors Affecting the Performance of Sensors / 4.8:
Amount of Enzyme / 4.8.1:
Immobilization Method / 4.8.2:
pH of Buffer / 4.8.3:
Electrochemical Sensors and Biosensors / 5:
Potentiometric Sensors--Ion-Selective Electrodes / 5.1:
Concentrations and Activities / 5.1.1:
Calibration Graphs / 5.1.2:
Examples of Ion-Selective Electrodes / 5.1.3:
Gas Sensors--Gas-Sensing Electrodes / 5.1.4:
Potentiometric Biosensors / 5.2:
pH-Linked / 5.2.1:
Ammonia-Linked / 5.2.2:
Carbon Dioxide-Linked / 5.2.3:
Iodine-Selective / 5.2.4:
Silver Sulfide-Linked / 5.2.5:
Amperometric Sensors / 5.3:
Direct Electrolytic Methods / 5.3.1:
The Three Generations of Biosensors / 5.3.2:
First Generation--The Oxygen Electrode / 5.3.3:
Second Generation--Mediators / 5.3.4:
Third Generation--Directly Coupled Enzyme Electrodes / 5.3.5:
NADH/NAD[superscript +] / 5.3.6:
Examples of Amperometric Biosensors / 5.3.7:
Amperometric Gas Sensors / 5.3.8:
Conductometric Sensors and Biosensors / 5.4:
Chemiresistors / 5.4.1:
Biosensors Based on Chemiresistors / 5.4.2:
Semiconducting Oxide Sensors / 5.4.3:
Applications of Field-Effect Transistor Sensors / 5.5:
Chemically Sensitive Field-Effect Transistors (CHEMFETs) / 5.5.1:
Ion-Selective Field-Effect Transistors (ISFETs) / 5.5.2:
FET-Based Biosensors (ENFETs) / 5.5.3:
Photometric Applications / 6:
Techniques for Optical Sensors / 6.1:
Modes of Operation of Waveguides in Sensors / 6.1.1:
Immobilized Reagents / 6.1.2:
Visible Absorption Spectroscopy / 6.2:
Measurement of pH / 6.2.1:
Measurement of Carbon Dioxide / 6.2.2:
Measurement of Ammonia / 6.2.3:
Examples That Have Been Used in Biosensors / 6.2.4:
Fluorescent Reagents / 6.3:
Fluorescent Reagents for pH Measurements / 6.3.1:
Halides / 6.3.2:
Sodium / 6.3.3:
Potassium / 6.3.4:
Gas Sensors / 6.3.5:
Indirect Methods Using Competitive Binding / 6.4:
Reflectance Methods--Internal Reflectance Spectroscopy / 6.5:
Evanescent Waves / 6.5.1:
Reflectance Methods / 6.5.2:
Attenuated Total Reflectance / 6.5.3:
Total Internal Reflection Fluorescence / 6.5.4:
Surface Plasmon Resonance / 6.5.5:
Light Scattering Techniques / 6.6:
Types of Light Scattering / 6.6.1:
Quasi-Elastic Light Scattering Spectroscopy / 6.6.2:
Photon Correlation Spectroscopy / 6.6.3:
Laser Doppler Velocimetry / 6.6.4:
Mass-Sensitive and Thermal Sensors / 7:
The Piezo-Electric Effect / 7.1:
Principles / 7.1.1:
Gas Sensor Applications / 7.1.2:
Biosensor Applications / 7.1.3:
The Quartz Crystal Microbalance / 7.1.4:
Surface Acoustic Waves / 7.2:
Plate Wave Mode / 7.2.1:
Evanescent Wave Mode / 7.2.2:
Lamb Mode / 7.2.3:
Thickness Shear Mode / 7.2.4:
Thermal Sensors / 7.3:
Thermistors / 7.3.1:
Catalytic Gas Sensors / 7.3.2:
Thermal Conductivity Devices / 7.3.3:
Specific Applications / 8:
Determination of Glucose in Blood--Amperometric Biosensor / 8.1:
Survey of Biosensor Methods for the Determination of Glucose / 8.1.1:
Aim / 8.1.2:
Determination of Nanogram Levels of Copper(I) in Water Using Anodic Stripping Voltammetry, Employing an Electrode Modified with a Complexing Agent / 8.2:
Background to Stripping Voltammetry--Anodic and Cathodic / 8.2.1:
Determination of Several Ions Simultaneously--'The Laboratory on a Chip' / 8.2.2:
Sensor Arrays and 'Smart' Sensors / 8.3.1:
Background to Ion-Selective Field-Effect Transistors / 8.3.3:
Determination of Attomole Levels of a Trinitrotoluene--Antibody Complex with a Luminescent Transducer / 8.3.4:
Background to Immuno--Luminescent Assays / 8.4.1:
Determination of Flavanols in Beers / 8.4.2:
Background / 8.5.1:
Responses to Self-Assessment Questions / 8.5.2:
Bibliography
Glossary of Terms
SI Units and Physical Constants
Periodic Table
Index
Series Preface
Preface
Acronyms, Abbreviations and Symbols
4.

図書

図書
高橋英一著
出版情報: 東京 : 研成社, 2001.10  167p ; 19cm
シリーズ名: のぎへんのほん
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5.

図書

図書
小城勝相著
出版情報: 東京 : 講談社, 2002.1  215, viip ; 18cm
シリーズ名: ブルーバックス ; B-1357
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6.

図書

図書
Ugo Testa
出版情報: Noca Raton : CRC Press, c2002  559 p. ; 25 cm
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Iron Absorption
Iron and Cell Proliferation: Mechanisms and Applications in Cancer Therapy
Lactoferin
Transferrin
Transferrin Receptors
Soluble Transferrin Receptor
Alternative Iron Uptake Systems
Iron-Responsive Elements and Iron Regulatory Proteins
Ferritin
Iron Absorption
Iron and Cell Proliferation: Mechanisms and Applications in Cancer Therapy
Lactoferin
7.

図書

図書
by Timo Koski
出版情報: Dordrecht : Kluwer Academic Publishers, c2001  xvii, 391 p. ; 25 cm
シリーズ名: Computational biology series ; vol. 2
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8.

図書

図書
左右田健次編著 ; 川嵜敏祐 [ほか] 共著
出版情報: 京都 : 化学同人, 2001.3  ix, 308p ; 26cm
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9.

図書

図書
edited by Stefan Hohmann, Soren Nielsen, Peter Agre
出版情報: San Diego : Academic Press, c2001  xvii, 390 p., [8] p. of plates ; 24 cm
シリーズ名: Current topics in membranes ; v. 51
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Contributors
Preface
Previous Volumes in Series
Discovery of the Aquaporins and Their Impact on Basic and Clinical Physiology / Peter Agre ; Mario J. Borgnia ; Masato Yasui ; John D. Neely ; Jennifer Carbrey ; David Kozono ; Eric Beitz ; Jason Hoffer ; Virginia Leitch ; Landon S. KingChapter 1:
Pre-Aquaporin Era / I.:
The First Recognized Water Channel Protein / II.:
Other Mammalian Aquaporins / III.:
Nonmammalian Homologs / IV.:
Perspective / V.:
References
The Aquaporin Superfamily: Structure and Function / Henning Stahlberg ; Bernard Heymann ; Kaoru Mitsuoka ; Yoshinori Fuyijoshi ; Andreas EngelChapter 2:
Introduction
Two-Dimensional Crystallization of Membrane Proteins
Electron Crystallography
Atomic Force Microscopy
AQP1, The Erythrocyte Water Channel
AQP0: The Major Intrinsic Protein of Lens Fiber Cells / VI.:
Water Channel of Escherichia coli: AqpZ / VII.:
Glycerol Channel of Escherichia coli: GlpF / VIII.:
Comparison of the High-Resolution Projection Structures of GlpF and AQP1 / IX.:
Conclusion and Perspectives / X.:
Physiological Roles of Aquaporins in the Kidney / Mark A. Knepper ; Soren Nielsen ; Chung-Lin ChouChapter 3:
Water Transport along the Renal Tubule
Water Permeability along the Renal Tubule
Aquaporin-1 Facilitates Isoosmotic Fluid Transport in Proximal Tubule
Aquaporin-1 Allows Osmotic Equilibration in the Thin Descending Limb of Henle Despite Rapid Flow of Tubule Fluid
Aquaporin-1 Allows Osmotic Equilibration in the Descending Vasa Recta
Aquaporins Provide Molecular Targets for Regulation of Water Transport in the Renal Collecting Duct
Pathophysiology of Renal Aquaporins / Tae-Hwan Kwon ; Henrik Hager ; David Marples ; Jorgen FrokiaerChapter 4:
Inherited NDI and CDI
Acquired NDI
Urinary Concentrating Defects
States of Water Retention
Conclusions
Genetic and Biophysical Approaches to Study Water Channel Biology / A. S. Verkman ; Baoxue Yang ; William R. Skach ; Alok Mitra ; Yuanlin Song ; Geoffrey T. Manley ; Tonghui MaChapter 5:
Lessons from Aquaporin Knockout Mice
Biophysical Analysis of Aquaporin Function
Aquaporin Structure and Function
New Directions in Aquaporin Physiology and Biophysics
Trafficking of Native and Mutant Mammalian MIP Proteins / Peter M. T. Deen ; Dennis BrownChapter 6:
Normal Routing of MIP Proteins
Disturbed Trafficking of MIP Proteins
Aquaporins of Plants: Structure, Function, Regulation, and Role in Plant Water Relations / Maarten J. Chrispeels ; Raphael Morillon ; Christophe Maurel ; Patricia Gerbeau ; Per Kjellbom ; Ingela JohanssonChapter 7:
The Transpiration Stream
Water Movement in and between Living Tissues
Molecular Characteristics and Transport Properties of Plant Aquaporins
Subcellular Location of Plant Aquaporins
What Do the Water and Solute Transport Properties of Membranes Tell Us about the Aquaporins in Those Membranes?
The Multiple Roles of Aquaporins: How to Link Water Transport Properties to Functions at the Cellular and Tissue Level
Regulation of Aquaporin Expression and Water Transport Activity
Microbial Water Channels and Glycerol Facilitators / Gerald Kayingo ; Roslyn M. Bill ; Guiseppe Calamita ; Stefan Hohmann ; Bernard A. PriorChapter 8:
Microbial Aquaporins and Glycerol Facilitators
Transport Properties and Channel Selectivity of Microbial MIP Channels
From Primary to Quaternary Structure in Microbial MIPs
Physiological Roles
Microbial MIP Channels in Osmoregulation
Control of the Function of Microbial MIP Channels
Conclusions and Future Perspectives
Future Directions of Aquaporin Research / Chapter 9:
Identification and Characterization of New MIP Channels
Why Have So Many MIP Channels?
Analysis of the Physiological Roles of Aquaporins
Structure and Function
Aquaporins as Targets for Treatment of Human Disease
Aquaporins as Possible Targets for Genetic Engineering and Crop Improvement
Metabolic Engineering with Aquaporins
The Aquaporin Research Community
Index
Contributors
Preface
Previous Volumes in Series
10.

図書

図書
新井孝夫 [ほか] 著
出版情報: 東京 : 東京化学同人, 2003.3  vi, 204p ; 26cm
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