Lakowicz J.R. — Principles of Fluorescence Spectroscopy :: Электронная библиотека попечительского совета мехмата МГУ

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Lakowicz J.R. — Principles of Fluorescence Spectroscopy

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Название: Principles of Fluorescence Spectroscopy

Автор: Lakowicz J.R.

Аннотация:

In the second edition of Principles I have attempted to maintain the emphasis on basics, while updating the examples to include more recent results from the literature. There is a new chapter providing an overview of extrinisic fluorophores. The discussion of timeresolved measurements has been expanded to two chapters. Quenching has also been expanded in two chapters. Energy transfer and anisotropy have each been expanded to three chapters. There is also a new chapter on fluorescence sensing. To enhance the usefulness of this book as a textbook, most chapters are followed by a set of problems. Sections which describe advanced topics are indicated as such, to allow these sections to be skipped in an introduction course. Glossaries are provided for commonly used acronyms and mathematical symbols. For those wanting additional informtion, the final appendix contains a list of recommended books which expand on various specialized topics.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: 2nd

Год издания: 1999

Количество страниц: 725

Добавлена в каталог: 23.02.2007

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

BCECF, pH sensors      546—547 548
Beer-Lambert law, deviation from      56—57
Beer’s law, deviation from      57
Benzene, quenching of indole      453
Benzofluoranthene      541
Benzoic acid      515
Bimolecular quenching      252 258
Binding      see “Association reactions”
Biomolecules, energy transfer      see “Energy transfer”
Biomolecules, excited-state reactions      527—528
Biomolecules, fluorophores, principles      15—16 17
Biomolecules, frequency-domain lifetime measurements      163—169 172
Biomolecules, frequency-domain lifetime measurements, $\mathrm{Ca}^{2+}$ -ATPase lifetime distributions      167—168
Biomolecules, frequency-domain lifetime measurements, DNA, DAPl-labeled      164—165
Biomolecules, frequency-domain lifetime measurements, gigahertz data      172—173
Biomolecules, frequency-domain lifetime measurements, green fluorescent protein, one—and two-photon excitation      166
Biomolecules, frequency-domain lifetime measurements, melittin lifetime distributions, cross fitting of models      168—169
Biomolecules, frequency-domain lifetime measurements, moneliin, single tryptophan protein with three decay times      163
Biomolecules, frequency-domain lifetime measurements, NADH inteanity decay      169
Biomolecules, frequency-domain lifetime measurements, Quin-2      165
Biomolecules, frequency-domain lifetime measurements, recovery of lifetime distributions from data      166—167
Biomolecules, frequency-domain lifetime measurements, SPQ, collisional quenching      165
Biomolecules, frequency-domain lifetime measurements, staphylococcal nuclease and melittin, multiexponential decay      163
Biomolecules, literature references      654
Biomolecules, quenching, DNA-bound probe accessibility      246—247
Biomolecules, quenching, effects of quenchers on proteins      251
Biomolecules, quenching, ethenoadenine derivatives      247
Biomolecules, quenching, substrate binding to ribozymes      256—257
Biomolecules, quenching, Tet repressor      253—255
Biomolecules, solvent effects on emission spectra with Prodan      201—202
Biomolecules, solvent effects on emission spectra with solvent-sensitive probes      202—205
Biomolecules, solvent effects on emission spectra, calmodulin, hydrophobic surface exposure      202—203
Biomolecules, solvent effects on emission spectra, cyclodextrin binding using dansyl probe      203
Biomolecules, solvent effects on emission spectra, membrane binding site polarity      203—205
Biomolecules, structural analogs as fluorophores      81 82
Biomolecules, time-resolved emission spectra (TRES)      215—222
Biomolecules, time-resolved emission spectra (TRES), analysis      218—220
Biomolecules, time-resolved emission spectra (TRES), apomyoglobin      215—217
Biomolecules, time-resolved emission spectra (TRES), labeled membranes      217—219
Biomolecules, time-resolved emission spectra (TRES), proteins, spectral relaxation in      220—222
Biomolecules, tune-domain lifetime measurements, chlorphyll      134
Biomolecules, tune-domain lifetime measurements, erythrosyn B      133—134
Biomolecules, tune-domain lifetime measurements, FAD intensity decay      134—135
Biomolecules, tune-domain lifetime measurements, multiexponential or heterogeneous decays of      98—101
Biomolecules, tune-domain lifetime measurements, single-tryptophan protein      132—133
Biophysical applications, metal-tigand complexes      577—582
Biophysical applications, metal-tigand complexes, DNA dynamics      578—580
Biophysical applications, metal-tigand complexes, lipid probes      581—582
Biophysical applications, metal-tigand complexes, proteins, domain-to-domain motions in      580—581
Biopolymers, bound fluorophore segmental mobility      329—330
Biopolymers, diffusive motions in      416
Bis DNA stains      605—606
Blood gas sensors, energy-transfer mechanisms      541—542
Blood gas sensors, two-state, optical detection of      545—546
Blue shifted spectra      452 456
BODIPY      70 76
BODIPY, bomotranster      373
BODIPY, DNA technology      601
BODIPY, Forster distances      388
BODIPY, membrane probes      268
Bombesin      497
Boron-containing fluorophores      559—560
Bound fluorophore segmental mobility      329—330
Boundary lipid, membranes      273—274
Bovine cardiac troponin I      497
Bovine serum albumin      71—72 255 256 493
BPE (B-phycoerythrin)      388
Bromate, quenching by      238 239
Bromide      239 540
Bromo-phosphatidylcholines      270 271—271
Bromobenzene      238 239
Butanol, Stokes’ shift      189
Cadmium      239
Caffeine      256
Calcium Green      78 79 553 557 558
Calcium sensors      16 78 543 556—559
Calcium sensors, chelators      552 553
Calcium sensors, green fluorescent protein mutant-based      379—380 565 566
Calcium sensors, QUIN-2, fluorescence lifetime imaging microscopy      631 632
Calcium-binding proteins      580
Calibration of momochromators      35—36
Calmodulin      466—467
Calmodulin, energy transfer, calcium indicators      379—380
Calmodulin, energy transfer, MLCK binding and      377—378
Calmodulin, melittin binding      465
Calmodulin, peptide binding anisotropy      308—309
Calmodulin, solvent effects on emission spectra      202—203
Camphorquinones      538
Capillary zone electrophoresis      109
Carbazote      541
Carbazote, membrane probes      268
Carbazote, quenchers of      238 239
Carbon dioxide, blood gas measurement      545—546
Carbon dioxide, energy-transfer mechanisms      541—542
Carbon disulfide      259
Carbonic anhydrase      304
Carboxy SNARF-6      78 79
Carboxyhemoglobin      508
Carboxyl groups, quenching by      238
Cardiac troponin 1      497
Cascade Bine      614
CAT—16      278
CBQCA      80
CCD detectors      47—48
CD 220      554 555—556
Ceramide, NBD-labeled      270
Cesium      239
Chaperonin cpm 60 (GroEL)      307
Charge effects, quenching      245—247
Charge transfer, quenching      238—239
Charge transfer, solvent effects      186—187
Charge-transfer complex formation      9
Chelators      552 590
Chemical sensing probes      see “Analyte recognition probes” “Specific
Chicken pepsinogen      499
Chloride probes      16 78 539—541
Chloride, quenching by      238
Chloride-NERF      548
Chlorinated compounds, quenching by      238 239
Chlorinated hydrocarbons      541
Chloroform, quenching      255
Chloroform, Stokes’shift      189
Chlorophyll      134 238
Cholesterol      270 273
Cholesterol, analogs      81 527—538
Cholesterol, membrane bound, exposure of      527—528
Chymotrypsin      304
Clinical chemistry      20 21
Clinical chemistry, metal-ligand complexes      587—591
Clinical chemistry, sensors      531—532
Coaxial flashlamps      107 108
Cobalt, energy transfer      373
Cobalt, quenching by      238 269—270 273
Cofactors      15
Cofactors, intrinsic fluorescence      63—65
Cofactors, protein binding of NADH      65—66
Cofactors, quenching by adenine moiety      239
Cofactors, time-domain lifetime measurement      134—135
Colicin folding      251—252
Collisional frequency, fluorophone-quencher      241
Collisional quenching      11 238 239
Collisional quenching and excited state lifetime      222—224
Collisional quenching as sensor mechanisms      536—541
Collisional quenching as sensor mechanisms, chloride      539—541
Collisional quenching as sensor mechanisms, oxygen      536—538 539
Collisional quenching, anisotropy decay, ome-dependent      359—361
Collisional quenching, combined with static quenching      243
Collisional quenching, etbenoadenine-DNA-B helicase hexamer      257
Collisional quenching, examples      243—244
Collisional quenching, FD lifetime measurements      165

Collisional quenching, proteins      360—361 462
Collisional quenching, sensors      541
Collisional quenching, simulated intensity decay      99
Collisional quenching, theory of      239—242
Collisional quenching, theory of bimolecular quenching constant, interpretation of      241—242
Collisional quenching, theory of Stem — Volmer equation, derivation of      240—241
Color effects, frequency-domain lifetime measurements      152—153
Combination filters      38—39
Concanavalin A      542 543 559
Confidence intervals, FD lifetime measurements      156—157
Confidence intervals, TD lifetime measurements      122—124
Conformation      376 473—474
Conformation and quenching      462
Conformation, changes of      250 251—252
Conformation, heterogeneity, ribonuclease       493—496
Conformation, heterogeneity, rotational      see “Rotamers”
Conformational distance      see “Energy transfer time-resolved”
Constant fraction discriminators      109—110
Continuous spectral relaxation      212—213 226—230
Continuous wave output, laser      105
Convolution integral      103 179 409
COPA      341—342
copper      238 239 269
Coronene      86 87 247 248
Corrected emissions spectra      51 637
Correlation time distributions      330—331
Correlation times      304—306
Cortisol      563—564
Cosyntropin      497
Coumarin      388
Coumarin derivatives, quenching      243 244
Coumarin derivatives, solvent relaxation      224
Coumarin-based potassium probe      554 555—556
Covalent adduct formation, intramolecular quenching      257—258
CPM-CK      564
CRABP1 (retinal binding protein)      475 476
Creatine kinase      580
Cresyl violet      52
Cross-correlation method      148 150 151 152 180
Crown ethers      16 552 559 590
Cy5 (carboxvmethylindocyanine-N-hydroxy-succiunimidyl ester)      388
Cyan fluorescent protein (CFP)      566
Cyanine dyes      74—75 430
Cyanine dyes, immunoassays      562—563
Cyanine dyes, potassium sensors      544
Cyanonaphmalene      238 649
Cyclic AMP receptor protein (CRP)      250—251
Cyclic AMP-dependent protein kinase      378—379
Cyclodextrins and quenching      246
Cyclodextrins, phosphorescence of bound probes      258—259
Cyclodextrins, solvent effects      203
Cysteine      239 565
Danca      200 215—217
Dansyl groups      15 67 68 69 205 627 628
Dansyl groups, acceptor decay      416
Dansyl groups, creatine kinase immunoassay      564—565
Dansyl groups, energy transfer      372 374 375 384
Dansyl groups, excited-state reactions      515
Dansyl groups, Forster distances      388
Dansyl groups, solvent effects      203
DANZA      564—565
DAPI      76 77 164—165 629
Dapoxyl SEDA      206
Daproxyl probes      205
DAS      see “Decay-associated spectra”
Data analysis      97 98
Data analysis, cross-fitting, distance distribution      399—400
Data analysis, cross-fitting, melittin lifetime distributions      168—169
Data analysis, frequency-domain lifetime measurements      144—147
Data analysis, literature references      655
Data analysis, recovery of lifetime distributions      166—167
Data analysis, time-domain lifetime measurements      118—121
DBS (4-dimethylaroino-4-bromostilbene)      171—172 646—648
DCM      106
DCS (4-Dimethylamino-4-cyanostilbene)      646—648
Decay      154—155 169
Decay time      see “Lifetime”
Decay-associated spectra (DAS)      177 499—501
Decay-associated spectra (DAS), frequency-domain data for calculation of      527
Decay-associated spectra (DAS), TOES and DAS comparison      230—231
Decay-associated spectra (DAS), two-state model      519
Delay lines      110—111
Denatured proteins, emission spectra for      475 476
DENS      21 627 628
Deoxycytidine quenching      243 244
Deoxyhemoglobin      508
Depolarization factor multiplication      311—312
Depolarization, trivial causes      302—303
Deprotonation      515
Detectors, CCD      47—48
Detectors, higher-frequency measurements      170—171
Detectors, time-correlated single-photon counting      111—116
Detectors, time-correlated single-photon counting, color effects in      114—116
Detectors, time-correlated single-photon counting, dynode chain PMTs      113—114
Detectors, time-correlated single-photon counting, MCP PMTs      111—113
Detectors, time-correlated single-photon counting, photodiodes as      114
Detectors, time-correlated single-photon counting, timing effects on monochromators      116
Deuterium pulse lamps      107—108
Dextran      543
DHE, excited state tautomerization      527—528
Di-ASP      74
Dichloroacetanude      239
dielectric constant      187 188
Dielectric properties of solvents      225
Dielectric relaxation times      225—226
Diethylaniline      238 625 628—629
Differential-wavelength methods, excited-state reactions      520—521
Diffusion coefficients      427
Diffusion effects for linked D-A pairs      411—416
Diffusion effects for linked D-A pairs, apparent distance distribution      415—416
Diffusion effects for linked D-A pairs, experimental measurement      412—413
Diffusion effects for linked D-A pairs, goodness of fit surfaces and parameter resolution      413—415
Diffusion effects for linked D-A pairs, RET and diffusive motions in hiopolymers      416
Diffusion effects for linked D-A pairs, simalations of RET for flexible pair      411—412
Diffusion effects, anisotropy decay, nonspherical molecules      347—348
Diffusion effects, oxytocin      336—337
Diffusion effects, RET in rapid-diffusion limit      435—440
Diffusion effects, RET in rapid-diffusion limit, acceptor location in lipid vesicles      437
Diffusion effects, RET in rapid-diffusion limit, Forster transfer versus exchange interactions      439—440
Diffusion effects, RET in rapid-diffusion limit, retinal location in rhodopsin disc membranes      438—439
Diffusion effects, RET with unlinked donors und acceptors      428—429
Diffusion in membranes      276—278
Diffusion in membranes, lateral      278
Diffusion in membranes, quasi-three dimensional      276—278
Diffusion in membranes, rotational      331—333 (see also “Rotational diffusion”)
Diffusion, rotational      see “Rotational diffusion”
Diffusion-enhanced energy transfer in solution      387—388
Diffusion-limited quenching      255—256
Diffusive motions m biopolymers      416
Dihydro-4-diisothiocyanostilbene-2, 2-disul-fonic acid ()      540
Dihydroequilenin (DHE)      244 245—246
DilCt      430
Dimensionality effect, experimental RET      429—434
Dimensionality effect, experimental RET in one dimension      432—433
Dimensionality effect, experimental RET in two dimensions      430—432
Dimethoxy-4-5-dichloro-6-carboxyfiuorescein      599 600
Dimethyl-POPOP      645
Dimethylamino-4-cyanostilbene (DMS)      652 653 654
Dimethylaminostilbene      646
Dimethylanilme (DMA)      135 269 515
Dimethyldiazaperopyrenium (DMPP)      432—433
Dimethylformamide      238 239
Dimyristoy-1- $\alpha$ -phosphatidylcholine      see “DMPC”
Dinitrobenzenesulfenyl (DNBS)      388
Dioleolyl-1- $\alpha$ -phosphatidylchotine      see “DOPC”
Dipeptides      458
Diphenylanthracene (DPA)      52 155 637 638
Dipicolinate      435
Dipole interactions, energy transfer rates      439
Direct recording, TRES      213

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