00860nam0-22002891i-450-99000356885040332120001010000356885FED01000356885(Aleph)000356885FED0100035688520000920d1991----km-y0itay50------baitay-------001yyMetodologia per l' analisi socio economica delle realta territorialiContributi teoretici ed applicazioniValerio Di DonnaNapoliLoffredo1991195 p.Di Donna valerio136668ITUNINARICAUNIMARCBK990003568850403321SE 105.02.29-3667DECSEDECSEMetodologia per l' analisi socio economica delle realta territoriali493306UNINAING0106427nam 22005413 450 991102021040332120240328080228.09783527836840352783684597835278368643527836861(MiAaPQ)EBC31227185(Au-PeEL)EBL31227185(CKB)31087912800041(Exl-AI)31227185(Perlego)4367291(OCoLC)1427690110(EXLCZ)993108791280004120240328d2024 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierIntracellular Thermometry with Fluorescent Molecular Thermometers1st ed.Newark :John Wiley & Sons, Incorporated,2024.©2024.1 online resource (348 pages)9783527350322 3527350322 Intro -- Intracellular Thermometry with Fluorescent Molecular Thermometers -- Preface -- Contents -- 1 Temperature for Living Things -- 1.1 Temperature of Individuals -- 1.2 Responses to Temperature Variation at the Cellular Level -- 1.3 Significance of Intracellular Thermometry -- References -- 2 Fluorescent Molecular Thermometers -- 2.1 The Basics of Fluorescence -- 2.2 Responses of Fluorescent Molecular Thermometers -- 2.3 Small Organic Molecules Involving Intersystem Crossing -- 2.4 Small Organic Molecules with a Rotating Substituent Group -- 2.5 Reactive Small Organic Molecules -- 2.6 Viscosity-Sensitive Small Organic Molecules -- 2.7 Other Small Organic Molecules -- 2.8 Organometallic Complexes -- 2.9 Excimers and Exciplexes -- 2.10 Host-guest Interactions -- 2.11 Synthetic Polymers -- 2.12 Nucleic Acids (DNA and RNA) -- 2.13 Peptides -- 2.14 Fluorescent Proteins -- 2.15 Non-covalent Systems Based on Thermo-responsive Self-assembly and an Environment-sensitive Fluorophore -- 2.16 Inorganic Nanomaterials -- 2.17 Hybrid Nanomaterials -- References -- 3 Intracellular Thermometry with Fluorescent Molecular Thermometers -- 3.1 Early Attempts for Cellular Thermometry -- 3.2 Introduction of Fluorescent Molecular Thermometers into a Living Cell -- 3.3 Cytotoxicity Assessment -- 3.4 Practice of Intracellular Thermometry with Fluorescent Molecular Thermometers -- 3.5 Intracellular Thermometry with Organelle-targeted Fluorescent Molecular Thermometers -- 3.6 Intracellular Thermometry of Brown Adipocytes -- 3.7 Application of Intracellular Thermometry in Various Biological Fields -- References -- 4 Cellular Thermometry Based on Non-fluorometric Principles -- 4.1 Infrared Thermometry -- 4.2 Photoacoustic Thermometry -- 4.3 Raman Thermometry -- 4.4 Use of Transmission Spectroscopy -- 4.5 Thermocouple -- 4.6 Resonant Thermal Sensor.4.7 Bimaterial Microcantilever -- 4.8 Thermistor -- References -- 5 Reliability Issue in Intracellular Thermometry -- 5.1 Sensitivity and Temperature Resolution -- 5.2 Functional Independency of Fluorescent Molecular Thermometers -- 5.3 Preparation of a Calibration Curve of Fluorescent Molecular Thermometers -- 5.4 Objection to Endogenous Thermogenesis -- 5.5 Possible Artifacts in Near-infrared Luminescent Thermometry and Proposal for Reliable Thermometry -- References -- 6 Applications of Intracellular Thermometry -- 6.1 Creation of New Biological Concepts -- 6.2 In vivo Temperature Measurements -- 6.3 Thermal Medicine at a Single-cell Level -- 6.4 Utilization of Nanoheater/Fluorescent Thermometer Hybrids in Biotechnology -- 6.5 Accurate Measurements of Absolute Intracellular Temperature -- 6.6 Simultaneous Monitoring of Intracellular Temperature and the Concentration of a Chemical Species Related to a Temperature Variation Inside a Living Cell -- 6.7 Intracellular Thermometry of Plant Cells -- References -- Appendix 1 Review and Feature Articles on Fluorescent Molecular Thermometers and Intracellular Thermometry in General -- Appendix 2 Comprehensive Collection of Fluorescent Polymeric Thermometers Based on the Combination of a Thermoresponsive Polymer and an Environment-sensitive Fluorophore -- Appendix 3 Comprehensive Collection of Fluorescent Nanogel Thermometers Based on the Combination of a Thermo-responsive Polymer and an Environment-sensitive Fluorophore -- Appendix 4 Comprehensive Collection of Non-covalent Fluorescent Temperature Sensing Systems Based on the Combination of a Thermo-responsive Polymer and an Environment-sensitive Fluorescent Compound -- Appendix 5 Comprehensive Collection of Fluorescent Polymeric Logic Gates Based on the Combination of a Thermo-responsive Polymer and an Environment-sensitive Fluorophore.Appendix 6 Solid Inorganic Nanostructures Showing Temperaturedependent Emission Properties -- Appendix 7 Tips for Intracellular Thermometry with Fluorescent Polymeric Thermometers Developed in the Author's Laboratory -- Index -- EULA.This book, written by Dr. Seiichi Uchiyama, explores the advanced field of intracellular thermometry using fluorescent molecular thermometers. It delves into the principles of temperature measurement within living cells, highlighting the significance and applications of such measurements in biology, medicine, and biotechnology. The text covers a wide range of topics, including the chemical and photophysical properties of fluorescent molecules, various techniques for temperature sensing, and the integration of these thermometers into biological systems. Uchiyama aims to bridge the gap between chemistry and biology, providing detailed chemical insights alongside general biological and medical applications. The book is tailored for researchers and practitioners in the fields of analytical chemistry, cell biology, and thermal medicine, presenting a comprehensive overview of the current state and future potential of intracellular thermometry.Generated by AI.Fluorescent probesGenerated by AITemperature measurementsGenerated by AIFluorescent probesTemperature measurements536.50287Uchiyama Seiichi1318421MiAaPQMiAaPQMiAaPQBOOK9911020210403321Intracellular Thermometry with Fluorescent Molecular Thermometers4417039UNINA