Verfügbarkeit: FRET - Förster resonance energy transfer

FRET - Förster resonance energy transfer: from theory to applications

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Bibliographische Detailangaben
Weitere Verfasser:	Medintz, Igor (HerausgeberIn), Hildebrandt, Niko (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH, Verlag GmbH & Co. KGaA 2014
Schlagworte:	Fluoreszenz-Resonanz-Energie-Transfer Aufsatzsammlung
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XXII, 791 Seiten Illustrationen, Diagramme 25 cm
ISBN:	3527328165 9783527328161 9783527656028

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245	1	0	\|a FRET - Förster resonance energy transfer \|b from theory to applications \|c edited by Igor Medintz and Niko Hildebrandt
264		1	\|a Weinheim \|b Wiley-VCH, Verlag GmbH & Co. KGaA \|c 2014
300			\|a XXII, 791 Seiten \|b Illustrationen, Diagramme \|c 25 cm
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500			\|a Literaturangaben
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700	1		\|a Medintz, Igor \|0 (DE-588)1044540923 \|4 edt
700	1		\|a Hildebrandt, Niko \|0 (DE-588)1215763700 \|4 edt
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Datensatz im Suchindex

_version_	1806326464097812480
adam_text	CONTENTS PREFACE XV LIST OF CONTRIBUTORS XIX PART ONE BACKGROUND, THEORY, AND CONCEPTS 1 1 HOW I REMEMBER THEODOR FORSTER 3 HERBERT DREESKAMP 2 REMEMBERING ROBERT CLEGG AND ELIZABETH JARES-ERIJMAN AND THEIR CONTRIBUTIONS TO FRET 9 THOMAS M.JOVIN 2.1 BIOGRAPHICAL SKETCH OF BOB CLEGG 10 2.2 BIOGRAPHICAL SKETCH OF ELI JARES-ERIJMAN 11 2.3 THE PERVASIVE INFLUENCE OF GREGORIO WEBER 12 2.4 CONTRIBUTIONS BY BOB CLEGG TO FRET 12 2.5 CONTRIBUTIONS BY ELI JARES-ERIJMAN TO FRET 16 2.6 A FINAL THOUGHT 18 REFERENCES 19 3 FORSTER THEORY 23 B. WIEB VAN DER MEET 3.1 INTRODUCTION 23 3.2 PRE-F6RSTER 23 3.3 BOTTOM LINE 25 3.4 9000-FORM, 9-FORM, AND PRACTICAL EXPRESSIONS OF THE RO EQUATION 26 3.5 OVERLAP INTEGRAL 28 3.6 ZONES 31 3.7 TRANSFER MECHANISMS 33 3.8 KAPPA-SQUARED BASICS 34 3.9 IDEAL DIPOLE APPROXIMATION 35 3.10 RESONANCE AS AN ALL-OR-NOTHING EFFECT 36 3.11 DETAILS ABOUT THE ALL-OR-NOTHING APPROXIMATION OF RESONANCE 39 HTTP://D-NB.INFO/1034510800 VII CONTENTS 3.12 CLASSICAL THEORY COMPLETED 41 3.13 OSCILLATOR STRENGTH-EMISSION SPECTRUM RELATION FOR THE DONOR 42 3.14 OSCILLATOR STRENGTH-ABSORPTION SPECTRUM RELATION FOR THE ACCEPTOR 43 3.15 QUANTUM MECHANICAL THEORY 44 3.16 TRANSFER IN A RANDOM SYSTEM 47 3.17 DETAILS FOR TRANSFER IN A RANDOM SYSTEM 48 3.18 CONCENTRATION DEPOLARIZATION 51 3.19 FRET THEORY 1965-2012 52 REFERENCES 59 4 OPTIMIZING THE ORIENTATION FACTOR KAPPA-SQUARED FOR MORE ACCURATE FRET MEASUREMENTS 63 B. WIEB VAN DER MEER, DANIEL M. VAN DER MEER, AND STEVEN S. VOGEL 4.1 TWO-THIRDS OR NOT TWO-THIRDS? 63 4.2 RELEVANT QUESTIONS 65 4.3 HOW TO VISUALIZE KAPPA-SQUARED? 65 4.4 KAPPA-SQUARED CAN BE MEASURED IN AT LEAST ONE CASE 68 4.5 AVERAGING REGIMES 70 4.6 DYNAMIC AVERAGING REGIME 72 4.7 WHAT IS THE MOST PROBABLE VALUE FOR KAPPA-SQUARED IN THE DYNAMIC REGIME? 76 4.8 OPTIMISTIC, CONSERVATIVE, AND PRACTICAL APPROACHES 83 4.9 COMPARISON WITH EXPERIMENTAL RESULTS 85 4.10 SMART SIMULATIONS ARE SUPERIOR 90 4.11 STATIC KAPPA-SQUARED 92 4.12 BEYOND REGIMES 101 4.13 CONCLUSIONS 102 REFERENCES 103 5 HOW TO APPLY FRET: FROM EXPERIMENTAL DESIGN TO DATA ANALYSIS 105 NIKO HILDEBRANDT 5.1 INTRODUCTION: FRET - MORE THAN A FOUR-LETTER WORD! 105 5.2 FRET: LET'S GET STARTED! 106 5.3 FRET: THE BASIC CONCEPT 107 5.4 FRET: INEVITABLE MATHEMATICS 112 5.4.1 FARSTER DISTANCE (OR FORSTER RADIUS) 112 5.4.2 FRET EFFICIENCY 113 5.4.2.1 DETERMINATION BY DONOR QUENCHING 113 5.4.2.2 DETERMINATION BY ACCEPTOR SENSITIZATION 113 5.4.2.3 DETERMINATION BY DONOR QUENCHING AND ACCEPTOR SENSITIZATION 114 5.4.2.4 DETERMINATION BY DONOR PHOTOBLEACHING 115 5.4.2.5 DETERMINATION BY ACCEPTOR PHOTOBLEACHING 115 5.4.3 F RET WITH MULTIPLE DONORS AND/OR ACCEPTORS 116 CONTENTS \| VII 5.5 FRET: THE EXPERIMENT 118 5.5.1 THE DONOR-ACCEPTOR FRET PAIR 118 5.5.2 FORSTER DISTANCE DETERMINATION 119 5.5.3 THE MAIN FRET EXPERIMENT 122 5.5.3.1 STEADY-STATE FRET MEASUREMENTS 123 5.5.3.2 TIME-RESOLVED FRET MEASUREMENTS 130 5.5.3.3 INTERPRETATION OF TIME-RESOLVED FRET DATA 133 5.6 FRET BEYOND FORSTER 139 5.6.1 TIME-RESOLVED FRET WITH LANTHANIDE-BASED DONORS 140 5.6.1.1 TERBIUM TO QUANTUM DOT FRET USING TIME-RESOLVED DONOR QUENCHING AND ACCEPTOR SENSITIZATION ANALYSIS 141 5.6.2 BRET AND CRET 147 5.6.3 ENERGY TRANSFER TO METAL NANOPARTICLES (FRET, NSET, DMPET, NPILM, ETC.) 148 5.6.4 OTHER TRANSFER MECHANISMS 150 5.6.4.1 ELECTRON EXCHANGE ENERGY TRANSFER (DEXTER TRANSFER) 151 5.6.4.2 CHARGE TRANSFER (MARCUS THEORY) 152 5.6.4.3 PLASMON COUPLING 153 5.6.4.4 SINGLET OXYGEN DIFFUSION 154 5.7 SUMMARY AND OUTLOOK 155 REFERENCES 156 6 MATERIALS FOR FRET ANALYSIS: BEYOND TRADITIONAL DYE-DYE COMBINATIONS 165 KIM E. SAPSFORD, BRIDGET WILDT, ANGELA MARIANI, ANDREW B. YEATTS, AND IGOR MEDINTZ 6.1 INTRODUCTION 165 6.2 BIOCONJUGATION 166 6.3 ORGANIC MATERIALS 171 6.3.1 ULTRAVIOLET, VISIBLE, AND NEAR-INFRARED EMITTING DYES 171 6.3.2 QUENCHER MOLECULES 173 6.3.3 ENVIRONMENTALLY SENSITIVE FLUOROPHORES 175 6.3.4 DYE-MODIFIED MICROSPHERES/NANOMATERIALS 179 6.3.5 DENDRIMERS AND POLYMER MACROMOLECULES 180 6.3.6 PHOTOCHROMIC DYES 182 6.3.7 CARBON NANOMATERIALS 186 6.4 BIOLOGICAL MATERIALS 188 6.4.1 NATURAL FLUOROPHORES 188 6.4.2 NONNATURAL AMINO ACIDS 190 6.4.3 GREEN FLUORESCENT PROTEIN AND DERIVATIVES 192 6.4.4 LIGHT-HARVESTING PROTEINS 200 6.4.5 DNA-BASED MACROSTRUCTURES/NANOTECHNOLOGY 201 6.4.6 ENZYME-GENERATED BIOLUMINESCENCE 201 6.4.7 ENZYME-GENERATED CHEMILUMINESCENCE 209 VIIII CONTENTS 6.5 INORGANIC MATERIALS 211 6.5.1 LUMINESCENT LANTHANIDE COMPLEXES AND DOPED NANO-/ MICROPARTICLES 212 6.5.2 LUMINESCENT TRANSITION METAL COMPLEXES 217 6.5.3 NOBLE METAL NANOMATERIALS (GOLD, SILVER, AND COPPER) 219 6.5.4 SILICON-BASED MATERIALS 222 6.5.5 SEMICONDUCTOR NANOCRYSTALS 223 6.6 MULTI-FRET SYSTEMS 231 6.7 SUMMARY AND OUTLOOK 236 REFERENCES 236 PART TWO COMMON FRET TECHNIQUES/APPLICATIONS 269 7 IN VITRO FRET SENSING, DIAGNOSTICS, AND PERSONALIZED MEDICINE 271 SAMANTHA SPINDEL, JESSICA CRANEK, AND KIM E. SAPSFORD 7.1 INTRODUCTION 271 7.2 SMALL ORGANIC MOLECULES AND SYNTHETIC ORGANIC POLYMERS 272 7.3 CARBOHYDRATE-LIPID 273 7.4 THE BIOTIN-AVIDIN INTERACTION 273 7.5 PROTEINS AND PEPTIDES 275 7.5.1 BINDING PROTEINS 275 7.5.2 ANTIGENS AND EPITOPE-BASED PEPTIDE SEQUENCES 277 7.5.3 PEPTIDE SEQUENCES FOR ENZYMATIC SENSING 279 7.6 ANTIBODIES * 282 7.7 NUCLEIC ACID (DNA/RNA) 287 7.7.1 MOLECULAR BEACONS 288 7.7.2 POLYMERASE CHAIN REACTION AND FRET 289 7.7.2.1 FRET HYBRIDIZATION PROBES 290 7.7.2.2 TAQMAN 291 7.7.2.3 SCORPION ASSAY 292 7.7.2.4 OTHERS 294 7.7.3 ISOTHERMAL AMPLIFICATION REACTIONS AND FRET 294 7.7.4 CLINICAL APPLICATIONS OF NUCLEIC ACID DETECTION USING FRET 295 7.7.4.1 DETECTION OF PATHOGENS 295 7.7.4.2 PROGNOSTIC AND DIAGNOSTIC APPLICATIONS 296 7.7.4.3 PHARMACOGENOMICS AND PERSONALIZED MEDICINE 298 7.8 APTAMERS 299 7.9 HIGH-THROUGHPUT AND POINT-OF-CARE DEVICES 302 7.9.1 POC TECHNOLOGY ADVANCES 302 7.9.2 POC MATERIAL ADVANCES 304 7.10 CONCLUSIONS 305 REFERENCES 305 CONTENTS \| IX 8 SINGLE-MOLECULE APPLICATIONS 323 THOMAS PONS 8.1 INTRODUCTION 323 8.2 SINGLE-MOLECULE FRET OF IMMOBILIZED MOLECULES 324 8.2.1 EXPERIMENTAL SETUP 324 8.2.1.1 MOLECULE IMMOBILIZATION 324 8.2.1.2 FLUOROPHORE PHOTOSTABILITY 325 8.2.1.3 OPTICAL SETUP 326 8.2.2 DATA ANALYSIS 326 8.2.3 APPLICATIONS 329 8.2.4 ANALYZING COMPLEX FRET TRAJECTORIES 334 8.3 SINGLE-MOLECULE FRET OF FREELY DIFFUSING MOLECULES 336 8.3.1 EXPERIMENTAL SETUP 336 8.3.2 APPLICATIONS 337 8.3.3 ADVANCED SOLUTION SMFRET METHODS 343 8.3.3.1 ALTERNATE LASER EXCITATION 343 8.3.3.2 MULTIPARAMETER FLUORESCENCE DETECTION 344 8.4 SINGLE-MOLECULE FRET STUDIES INVOLVING MULTIPLE FRET PARTNERS 346 8.4.1 MULTISTEP FRET 347 8.4.2 MULTI-ACCEPTOR AND MULTI-DONOR SYSTEMS 348 8.5 CONCLUSIONS AND PERSPECTIVES 351 REFERENCES 353 9 IMPLEMENTATION OF FRET TECHNOLOGIES FOR STUDYING THE FOLDING AND CONFORMATIONAL CHANGES IN BIOLOGICAL STRUCTURES 357 PHILIP J. ROBINSON AND CHERYL A. WOOLHEAD 9.1 INTRODUCTION TO USING FRET IN BIOLOGICAL SYSTEMS 357 9.2 FORSTER FORMALISM IN THE DETERMINATION OF BIOLOGICAL STRUCTURES 358 9.3 FRET EXPERIMENTS IN COMPLEX BIOLOGICAL SYSTEMS 360 9.3.1 THE IMPORTANCE OF EXPERIMENTAL DESIGN 360 9.3.2 SITE-SPECIFIC LABELING AND CHOOSING THE MOST EFFECTIVE FRET PAIR 361 9.4 BIOLOGICAL MODEL SYSTEM 1: THE RIBOSOME 362 9.4.1 INTERSUBUNIT ROTATION WITHIN THE RIBOSOME 363 9.4.2 DYNAMIC INTRASUBUNIT MOVEMENT WITHIN THE RIBOSOME 365 9.5 BIOLOGICAL SYSTEM 2: NASCENT POLYPEPTIDE STRUCTURE 365 9.6 BIOLOGICAL SYSTEM 3: CHAPERONE-MEDIATED PROTEIN FOLDING 368 9.6.1 SIGNAL RECOGNITION PARTICLE 368 9.6.2 TRIGGER FACTOR 369 9.7 BIOLOGICAL SYSTEM 4: MATURE PROTEIN FOLDING INTERMEDIATES 371 9.7.1 UNFOLDING KINETICS OF MONELLIN 372 9.7.2 INTERMEDIATE FOLDING STATE OF THE SRC HOMOLOGY 3 DOMAIN 374 9.8 BIOLOGICAL SYSTEM 5: INTERSUBUNIT DISTANCE IN MULTIMERIC PROTEIN COMPLEXES 375 9.9 BIOLOGICAL SYSTEM 6: PROTEIN-PROTEIN INTERACTIONS IN THE ASSEMBLY OF PROTEIN POLYMERS 378 X \| CONTENTS 9.9.1 FTSZ ASSEMBLY AND SUBUNIT EXCHANGE 379 9.9.2 DEFINING THE MOLECULAR LINK IN SERPIN POLYMERS 380 9.10 BIOLOGICAL SYSTEM 7: FRET IN NUCLEIC ACID SYSTEMS 385 9.10.1 DETERMINING THE STRUCTURE AND CONFIGURATION OF DNA FUNCTIONS 386 9.10.2 MEASURING THE OPENING AND CLOSING OF A NANOSCALE DNA BOX 388 9.10.3 FRET BETWEEN A DNA POLYMERASE AND ITS SUBSTRATE 390 REFERENCES 392 10 FRET-BASED CELLULAR SENSING WITH GENETICALLY ENCODED FLUORESCENT INDICATORS 397 JONATHAN C. CLAUSSEN, NIKO HILDEBRANDT, AND IGOR MEDINTZ 10.1 INTRODUCTION 397 10.2 ENZYMES 399 10.2.1 KINASE ACTIVITY/PHOSPHORYLATION 399 10.2.2 PROTEASE ACTIVITY 403 10.3 METABOLITES 407 10.3.1 SUGARS 407 10.3.2 GLUTAMATE 410 10.4 SECOND MESSENGERS 412 10.4.1 CAMP 412 10.4.2 CGMP 415 10.4.3 NITRIC OXIDE 417 10.4.4 CALCIUM 419 10.5 CONCLUSIONS. 421 REFERENCES 423 PART THREE FRET WITH RECENTLY DEVELOPED MATERIALS 431 11 FRET WITH FLUORESCENT PROTEINS 433 HIOFAN HOI, YIDAN DING AND ROBERT E. CAMPBELL 11.1 INTRODUCTION TO FPS 433 11.1.1 WILD-TYPE FPS 433 11.1.1.1 NATURAL SOURCES 433 11.1.1.2 STRUCTURE 434 11.1.1.3 CHROMOPHORE FORMATION 436 11.1.2 ENGINEERED FPS FOR FRET APPLICATIONS 438 11.1.2.1 OVERVIEW 438 11.1.2.2 BLUE-GREEN FRET PAIRS 440 11.1.2.3 CYAN-YELLOW FRET PAIRS 441 11.1.2.4 FRET WITH ORANGE, RED, AND FAR-RED FPS 443 11.1.2.5 ATYPICAL FPS USEFUL FOR FRET APPLICATIONS 445 CONTENTS \| XI 11.1.3 WHY USE FPS FOR FRET? 446 11.2 USING FPS FOR FRET IMAGING 446 11.2.1 PHOTOPHYSICAL PROPERTIES AND TYPICAL FORSTER RADII 446 11.2.1.1 OVERVIEW 446 11.2.1.2 SPECTRAL OVERLAP 447 11.2.1.3 ORIENTATION FACTORS 449 11.2.2 POTENTIAL SOURCES OF ARTIFACTS DURING FRET IMAGING 450 11.2.2.1 PHOTOBLEACHING 450 11.2.2.2 PHOTOCONVERSION 451 11.2.2.3 PH DEPENDENCE 452 11.2.3 BIOCHEMICAL AND STRUCTURAL CONSIDERATIONS 453 11.2.3.1 GENERAL CONSIDERATIONS WHEN LABELING PROTEINS WITH FPS 453 11.2.3.2 LABELING PROTEINS FOR INTERMOLECULAR FRET EXPERIMENTS 454 11.2.3.3 LABELING PROTEINS FOR INTRAMOLECULAR FRET EXPERIMENTS 454 11.2.3.4 FP OLIGOMERIZATION AND FRET EFFICIENCY 455 11.2.4 APPLICATIONS AND EXAMPLES 458 11.2.4.1 OVERVIEW 458 11.2.4.2 FRET BIOSENSOR CASE STUDY 459 11.2.4.3 FRET BETWEEN FPS AND OTHER DONOR OR ACCEPTOR MATERIALS 460 11.3 CONCLUSIONS 462 REFERENCES 463 12 SEMICONDUCTOR QUANTUM DOTS AND FRET 475 W. RUSS ALGAR, MELISSA MASSEY, AND ULRICH J. KRULL 12.1 INTRODUCTION 475 12.2 A QUICK REVIEW OF FRET 476 12.3 QUANTUM DOTS 477 12.3.1 A BRIEF HISTORY 478 12.3.2 THE STRUCTURE OF QUANTUM DOTS: THE CORE 478 12.3.3 THE OPTICAL PROPERTIES OF QUANTUM DOTS 480 12.3.4 OVERCOMING THE LIMITATIONS OF MOLECULAR FLUOROPHORES 482 12.3.5 THE STRUCTURE OF QUANTUM DOTS: THE SHELL 483 12.3.6 QUANTUM CONFINEMENT 485 12.3.7 QUANTUM DOT PHOTOPHYSICS 488 12.3.8 QUANTUM DOT SYNTHESIS 491 12.3.9 QUANTUM DOT COATINGS 493 12.3.10 QUANTUM DOT BIOCONJUGATION 496 12.3.11 QUANTUM DOT NOMENCLATURE IN THIS CHAPTER 499 12.4 QUANTUM DOTS AND FRET 499 12.4.1 QUANTUM DOTS AS DONORS 499 12.4.2 APPLICABILITY OF THE FORSTER FORMALISM 502 12.4.3 QDS AS ACCEPTORS 504 12.4.4 THE IMPORTANCE OF BIOCONJUGATE CHEMISTRY 506 12.5 QUANTUM DOTS AS DONORS IN BIOLOGICAL APPLICATIONS 508 12.5.1 ASSOCIATION AND DISSOCIATION TO MODULATE QD-FRET 508 XII \| CONTENTS 12.5.1.1 BIOANALYSIS OF CARBOHYDRATES 509 12.5.1.2 HOMOGENEOUS IMMUNOASSAYS 510 12.5.1.3 HYBRIDIZATION ASSAYS 511 12.5.1.4 BIOANALYSES USING APTAMERS AND DNAZYMES 516 12.5.1.5 BIOANALYSIS OF HYDROLYTIC ENZYMES 519 12.5.1.6 GENE DELIVERY 524 12.5.2 CHANGES IN DISTANCE TO MODULATE QD-FRET 524 12.5.3 CONFORMATIONAL INSIGHTS FROM QD-FRET 528 12.5.4 DYNAMIC MODULATION OF THE SPECTRAL OVERLAP INTEGRAL AND QD-FRET 530 12.5.5 SINGLE-PAIR QD-FRET 534 12.5.6 SOLID-PHASE QD-FRET 540 12.5.6.1 BIOMOLECULAR SURFACE TETHERS 542 12.5.6.2 CHEMICAL CONJUGATION TO AN INTERFACE 544 12.5.6.3 INTERFACIAL LIGAND EXCHANGE 545 12.5.6.4 ELECTROSTATIC IMMOBILIZATION 547 12.5.6.5 ADVANTAGES OF IMMOBILIZED QDS 548 12.5.7 PHOTODYNAMIC THERAPY 549 12.6 QUANTUM DOTS AS ACCEPTORS IN BIOLOGICAL APPLICATIONS 552 12.6.1 CHEMILUMINESCENCE RESONANCE ENERGY TRANSFER (CRET) 553 12.6.2 BIOLUMINESCENCE RESONANCE ENERGY TRANSFER (BRET) 555 12.6.3 LANTHANIDE DONORS 560 12.6.4 QUANTUM DOT DONORS (FOR QUANTUM DOT ACCEPTORS) 565 12.7 ENERGY TRANSFER BETWEEN QUANTUM DOTS AND OTHER NANOMATERIALS 569 12.7.1 GOLD NANOPARTICLES 569 12.7.2 CARBON NANOMATERIALS 575 12.7.2.1 GRAPHENE AND GRAPHENE OXIDE 575 12.7.2.2 CARBON NANOTUBES 577 12.8 NONBIOLOGICAL APPLICATIONS OF QUANTUM DOTS AND FRET 578 12.8.1 PHOTOVOLTAIC CELLS 580 12.8.2 LIGHT-EMITTING DIODES (LEDS) 582 12.9 SUMMARY 583 REFERENCES 584 13 MULTISTEP FRET AND NANOTECHNOLOGY 607 BO ALBINSSON AND JONAS K. HANNESTAD 13.1 INTRODUCTION 607 13.2 FUNDAMENTALS OF MULTISTEP FRET 608 13.2.1 HETERO-FRET 609 13.2.2 MULTICOLOR FRET AND ALTERNATING-LASER EXCITATION 611 13.2.3 HOMO-FRET 612 13.3 ENERGY TRANSFER IN PHOTOSYNTHESIS 615 13.4 PHOTONIC WIRES AND MULTISTEP FRET IN NANOTECHNOLOGY 617 13.4.1 PHOTONIC WIRES 617 13.4.2 BEYOND WIRES 628 CONTENTS \| XIII 13.4.3 LIGHT HARVESTING 632 13.4.4 FUNCTIONAL CONTROL 638 13.4.5 QUANTUM DOTS IN MULTISTEP FRET 641 13.4.6 POTENTIAL OUTPUTS AND USES FOR CHANNELED EXCITATION ENERGY 643 13.5 SUMMARY 647 13.6 NOTE ADDED IN PROOF 648 REFERENCES 648 PART FOUR SUPPORTING INFORMATION AND CONCLUSIONS 655 14 DATA 657 ALICE C. BYRNE, MATTHEW M. BYRNE, GEORGE COKER III, KELLY B. GEMMILL, CHRISTOPHER SPILLMANN, IGOR MEDINTZ, SETH L. SLOAN, AND B. WIEB VAN DER MEER 14.1 TABLES BEFORE 1987 658 14.2 INTRODUCTION TO THE TABLE OF TRADITIONAL CHROMOPHORES 658 14.3 FORSTER DISTANCES AND OTHER FRET DATA BEFORE 1994 703 14.4 FORSTER DISTANCES FOR TRADITIONAL PROBES MORE RECENT THAN 1993 703 14.5 FRET DATA ON FLUORESCENT PROTEINS 703 14.6 FRET DATA ON QUANTUM DOTS 742 14.7 DONOR-ACCEPTOR PAIRS WITH A FORSTER DISTANCE IN A GIVEN RANGE 742 14.8 TABLE-REFERENCE DIRECTORY 744 REFERENCES 745 . 15 OUTLOOK ON FRET: THE FUTURE OF RESONANCE ENERGY TRANSFER 757 15.1 A ROSY CRYSTAL BALL VIEW OF FRET 757 THOMAS M.JOVIN 15.2 DO NOT ASK WHAT FRET CAN DO FOR YOU, ASK WHAT YOU CAN DO FOR FRET 757 S. WIEB VAN DER MEER 15.3 FRET: FUTURE RESEARCH WITH AN EXCITING TECHNOLOGY 758 NIKO HILDEBRANDT 15.4 FUTURE OF FRET 760 KIM E. SAPSFORD 15.5 OUTLOOK ON SINGLE-MOLECULE FRET 760 THOMAS PONS 15.6 OUDOOK ON FRET WITH FLUORESCENT PROTEINS 761 ROBERT E. CAMPBELL 15.7 LUMINESCENT NANOPARTICLES: SCAFFOLDS FOR ASSEMBLING "SMARTER" FRET PROBES 762 W. RUSS ALGAR REFERENCES 764 INDEX 767
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genre_facet	Aufsatzsammlung
id	DE-604.BV041445061
illustrated	Illustrated
indexdate	2024-08-03T01:05:55Z
institution	BVB
isbn	3527328165 9783527328161 9783527656028
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-026891746
oclc_num	865030168
open_access_boolean
owner	DE-91G DE-BY-TUM DE-11 DE-355 DE-BY-UBR DE-703 DE-20 DE-19 DE-BY-UBM DE-384
owner_facet	DE-91G DE-BY-TUM DE-11 DE-355 DE-BY-UBR DE-703 DE-20 DE-19 DE-BY-UBM DE-384
physical	XXII, 791 Seiten Illustrationen, Diagramme 25 cm
publishDate	2014
publishDateSearch	2014
publishDateSort	2014
publisher	Wiley-VCH, Verlag GmbH & Co. KGaA
record_format	marc
spelling	FRET - Förster resonance energy transfer from theory to applications edited by Igor Medintz and Niko Hildebrandt Weinheim Wiley-VCH, Verlag GmbH & Co. KGaA 2014 XXII, 791 Seiten Illustrationen, Diagramme 25 cm txt rdacontent n rdamedia nc rdacarrier Literaturangaben Fluoreszenz-Resonanz-Energie-Transfer (DE-588)4773018-3 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Fluoreszenz-Resonanz-Energie-Transfer (DE-588)4773018-3 s DE-604 Medintz, Igor (DE-588)1044540923 edt Hildebrandt, Niko (DE-588)1215763700 edt Erscheint auch als Online-Ausgabe, EPUB 978-3-527-65604-2 Erscheint auch als Online-Ausgabe, MOBI 978-3-527-65603-5 Erscheint auch als Online-Ausgabe, PDF 978-3-527-65605-9 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=4329621&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026891746&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	FRET - Förster resonance energy transfer from theory to applications Fluoreszenz-Resonanz-Energie-Transfer (DE-588)4773018-3 gnd
subject_GND	(DE-588)4773018-3 (DE-588)4143413-4
title	FRET - Förster resonance energy transfer from theory to applications
title_auth	FRET - Förster resonance energy transfer from theory to applications
title_exact_search	FRET - Förster resonance energy transfer from theory to applications
title_full	FRET - Förster resonance energy transfer from theory to applications edited by Igor Medintz and Niko Hildebrandt
title_fullStr	FRET - Förster resonance energy transfer from theory to applications edited by Igor Medintz and Niko Hildebrandt
title_full_unstemmed	FRET - Förster resonance energy transfer from theory to applications edited by Igor Medintz and Niko Hildebrandt
title_short	FRET - Förster resonance energy transfer
title_sort	fret forster resonance energy transfer from theory to applications
title_sub	from theory to applications
topic	Fluoreszenz-Resonanz-Energie-Transfer (DE-588)4773018-3 gnd
topic_facet	Fluoreszenz-Resonanz-Energie-Transfer Aufsatzsammlung
url	http://deposit.dnb.de/cgi-bin/dokserv?id=4329621&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026891746&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT medintzigor fretforsterresonanceenergytransferfromtheorytoapplications AT hildebrandtniko fretforsterresonanceenergytransferfromtheorytoapplications

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