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.

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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

Steady-state amsotropy, DPH in DPMC vesicles      316
Steady-state amsotropy, proteins, tryptophan position and      467
Steady-state and time-resolved fluorescence principles      14—15
Steady-state data, distance distributions from      419—420
Steady-state intensity      14
Steady-state measurements, continuous relaxation model      227
Steady-state measurements, light sources      28—31
Steady-state measurements, relaxation rate information      222
Stellacyanin      463—464
Steric shielding, quenching      245—247 279 280
Stern — Volmer equation      239 243
Stern — Volmer equation, deviations from      244—245
Stern — Volmer plots      463—464
Stern — Volmer plots, modified      248—249
Stern — Volmer quenching      11
Stern — Volmer quenching constant      239
Steroid analogs      81
Steroid hinding protein (SBP)      246
Steroids, quenching      244 245—246
Stokes, G.G,      7
Stokes’ shift      6 114 189
Stokes’ shift, advanced solvent-sensitive probes      205 206
Stokes’ shift, dielectric constant and refractive index effects      187 188
Stokes’ shift, solvent effects      189 196—197 200
Stray light      34—35
Streak cameras      117—118
Stretched exponentials, time-domain lifetime measurements      131
Stroboscopic sampling      116—117
Structural analogs of biomolecules      81 82
Structure, protein      see “Conformation” “Protein
Structure, steric shielding and quenching      245—247
Subpicosecond intensity decays      135—136
Substrate binding to ribozymes      256—257
Subtiiisin      493 509
Succininude      238 239 241
Sulforhodamine 101 (SR 101)      541—542
Sulfur dioxide      541
Support materials, oxygen sensors      537 538
T-format anisotropy measurement      299—300
TAMRA      599 600
Temperature effects, excited state lifetime      222—223
Temperature effects, LE and 1CT states of Prodan      200—201
Temperature effects, room-temperature phosphorescence of proteins      509
Temperature effects, rotational motion of proteins      305
Temperature effects, solvent relaxation      198—201
Terbium probes      86 87
Terbium, DNA hybridization      420—421
Terbium, energy transfer      373 416 435
Terbium, Forster distances      388
Terbium, quenchers of      238
Terminal deoxynucleotide transferase      500
Tet repressor      134 253—255
Tetraethylorthosilicate      542
Tetramemylrhodamine      596 614
Tetramethyl-6-carboxyrhodamine      599 600
Tetramethylrhodamine isothiocyanates (TRITC)      67 69
Tetranethylrhodanune (TMR)      420—421
Tetraoctylanunonium hydroxide (TOAH)      542
Texas red      70 71 596 614
TexasRed-PE      72 73
Thallium      238
Theory      368—374
Theory, anisotropy      293—295
Theory, anisotropy decay      363
Theory, energy transfer, homotransfer and heterotransfer      373—374
Theory, energy transfer, orientation factor ( $\kappa^2$ )      371—373
Theory, energy transfer, transfer rate dependence on distance, overlap integral, and orientation factor      373
Theory, frequency-domain lifetime measurements      142—147
Theory, frequency-domain lifetime measurements, estimation of parameter uncertainties      146—147
Theory, frequency-domain lifetime measurements, global analysis of data      146
Theory, frequency-domain lifetime measurements, least squares analysis of intensity decays      144—146
Theory, literature references      654
Theory, phase-sensitive detection      619—627
Theory, phase-sensitive detection, emission spectra of two-component mix-tare      621—623
Theory, phase-sensitive detection, examples of PSDF and phase suppression      624—626
Theory, phase-sensitive detection, high-frequency or low-frequency      626—637
Theory, phase-sensitive detection, phase suppression      623—624
Theory, phase-sensitive detection, quenching      239—242
Theory, relaxation dynamics, time-dependent      224—225
Thermolystn      373
Thermophilic $\beta$ -glycosidase      505—506 507
Thiazole dyes, DNA technology      605 606
Thiazole orange      75 76
Thincyanate      238 540
Three-decay time model      155
Thymol blue      541—542
Thyrotropin      561
Thyroxine      563
Tifluoroacetamide (TEA)      238 247—248
Time-correlated single-photon counting (TCSPC)      100 101—103
Time-correlated single-photon counting (TCSPC), convolution integral      103
Time-correlated single-photon counting (TCSPC), detectors      111—116
Time-correlated single-photon counting (TCSPC), detectors, color effects in      114—116
Time-correlated single-photon counting (TCSPC), detectors, dynode chain PMTs      113—114
Time-correlated single-photon counting (TCSPC), detectors, MCP PMTs      111—113
Time-correlated single-photon counting (TCSPC), detectors, photodiodes as      114
Time-correlated single-photon counting (TCSPC), detectors, timing effects of monochromators      116
Time-correlated single-photon counting (TCSPC), electronics      109—111
Time-correlated single-photon counting (TCSPC), electronics, constant fraction discriminators      109—110
Time-correlated single-photon counting (TCSPC), electronics, delay lines      110—111
Time-correlated single-photon counting (TCSPC), electronics, multichannel analyzer (MCA)      110
Time-correlated single-photon counting (TCSPC), electronics, pulsepileup      111
Time-correlated single-photon counting (TCSPC), electronics, time-to-amplitude converter (TAC), standard and reversed      110
Time-correlated single-photon counting (TCSPC), examples of data      102—103
Time-correlated single-photon counting (TCSPC), light sources      103—109
Time-correlated single-photon counting (TCSPC), light sources, femtosecond titaniumrsapphire lasers      106—107
Time-correlated single-photon counting (TCSPC), light sources, flashlamps      107—108 109
Time-correlated single-photon counting (TCSPC), light sources, picosecond dye lasers      104—106
Time-correlated single-photon counting (TCSPC), light sources, solid-state lasers      109
Time-correlated single-photon counting (TCSPC), principles      101—102
Time-dependent solvent relaxation, theory of      224—225
Time-domain lifetime measurements      95—136
Time-domain lifetime measurements, alternative methods for time-resolved measurements      116—118
Time-domain lifetime measurements, alternative methods for time-resolved measurements, pulse sampling or gated detection      116—117
Time-domain lifetime measurements, alternative methods for time-resolved measurements, streak cameras      117—118
Time-domain lifetime measurements, alternative methods for time-resolved measurements, upconversioa methods      118
Time-domain lifetime measurements, biopolymers, nwltiexponential or heterogeneous decays of      98—101
Time-domain lifetime measurements, data analysis      118—121
Time-domain lifetime measurements, data analysis, assumptions of nonlinear least-squares method      119
Time-domain lifetime measurements, data analysis, autocorrelation function      121
Time-domain lifetime measurements, data analysis, goodness of fit ( $\chi^2_R$ )      120—121
Time-domain lifetime measurements, data analysis, least-squares analysis      119—120
Time-domain lifetime measurements, examples of time-domain and frequency-domain lifetimes      97—98
Time-domain lifetime measurements, examples of time-domain and frequency-domain lifetimes,lifetime or decay time, meaning of      96—97
Time-domain lifetime measurements, examples of time-domain and frequency-domain lifetimes,phase modulation lifetimes      97
Time-domain lifetime measurements, frequency-domain measurements      95—98
Time-domain lifetime measurements, global analysis      132
Time-domain lifetime measurements, intensity decay laws      129—132
Time-domain lifetime measurements, intensity decay laws, lifetime distributions      130—131
Time-domain lifetime measurements, intensity decay laws, multiexponential decay      129—130
Time-domain lifetime measurements, intensity decay laws, stretched exponentials      131
Time-domain lifetime measurements, intensity decay laws, transient effects      131
Time-domain lifetime measurements, multiexponential decays, analysis of      121—129
Time-domain lifetime measurements, multiexponential decays, analysis of, anthnnilic acid and 2-arninopurine      124—126
Time-domain lifetime measurements, multiexponential decays, analysis of, global analysts, muluwavekngth measurements      126
Time-domain lifetime measurements, multiexponential decays, analysis of, goodness of fit comparison, F-statistic      122
Time-domain lifetime measurements, multiexponential decays, analysis of, number of photon counts, effect of      124
Time-domain lifetime measurements, multiexponential decays, analysis of, p-terphenyl and indole      121—122
Time-domain lifetime measurements, multiexponential decays, analysis of, parameter uncertainty-confidence intervals      122—124
Time-domain lifetime measurements, multiexponential decays, analysis of, resolution of three closely spaced lifetimes      126—128
Time-domain lifetime measurements, representative intensity decays      132—136
Time-domain lifetime measurements, representative intensity decays, chlorphyll aggregates in hexane      134
Time-domain lifetime measurements, representative intensity decays, erythrosyn B, picosecond decay time      133—134
Time-domain lifetime measurements, representative intensity decays, FAD intensity decay      134—135
Time-domain lifetime measurements, representative intensity decays, green fluorescent protein, systematic data errors      133
Time-domain lifetime measurements, representative intensity decays, microsecond luminescence decays      135 573
Time-domain lifetime measurements, representative intensity decays, single-tryptophan protein      132—133
Time-domain lifetime measurements, representative intensity decays, subpicosecond intensity decays      135—136
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC)      101—103
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC) detectors      111—116

Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC) detectors, color effects in      114—116
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC) detectors, dynode chain PMTs      113—114
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC) detectors, MCPPMTs      111—113
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC) detectors, photodiodes as      114
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC) detectors, timing effects on monochromators      116
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC) electronics      109—111
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC) electronics, constant fraction discriminators      109—110
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC) electronics, delay tines      110—111
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC) electronics, multichannel analyzer (MCA)      110
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC) electronics, pulse pileup      111
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC) electronics, time-to-amplitude converter (TAC), standard and reversed      110
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC) light sources      103—109
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC) light sources, femtosecond titanium:sapphire lasers      106—107
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC) light sources, flashlamps      107—108 109
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC) light sources, picosecood dye lasers      104—106
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC) light sources, sobd-state lasers      109
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC), convolution integral      103
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC), examples of data      102—103
Time-domain lifetime measurements, time-correlated single-photon counting (TCSPC), principles      101—102
Time-domain lifetime standards      647 649
Time-domain measurements, anisotropy decay      304 354—355 364
Time-domain measurements, protein distance distributions from      409
Time-resolved emission spectra (TRES)      see also “Relaxation dynamics”
Time-resolved emission spectra (TRES), biochemical examples      215—222
Time-resolved emission spectra (TRES), biochemical examples, analysis      218—220
Time-resolved emission spectra (TRES), biochemical examples, apomyoglobin      215—217
Time-resolved emission spectra (TRES), biochemical examples, labeled membranes      217—218 219
Time-resolved emission spectra (TRES), biochemical examples, proteins, spectral relaxation in      220—222
Time-resolved emission spectra (TRES), frequency-domain data for calculation of      527
Time-resolved emission spectra (TRES), measurement      213—215
Time-resolved emission spectra (TRES), versus DAS      230—231
Time-resolved fluorescence, anisotropy decay      99 304
Time-resolved fluorescence, Forster distance determination      428
Time-resolved fluorescence, light sources      31
Time-resolved fluorescence, principles      14—15
Time-resolved fluorescence, protein      see “Protein fluorescence tune-resolved”
Time-resolved fluorescence, reasons for      15
Time-resolved fluorescence, reversible two-state model      518—519
Time-resolved immunoassays      560—562
Time-resolvod energy transfer      see “Energy transfer time-resolved”
Time-to-amplitude converter (TAQ      102 110
Tin      606 607
Tissue factor      470
Titaniunrsapphire lasers      106—107 480
TMA      412—415
TMA-DPH      72
TMR (tetramethylrhodaniine)      388
TNB (trinitrophenyl)      388
TNS [6-(p-tolindinyl)naphthalene—2-sulfonic acid]      17 71
TNS [6-(p-tolindinyl)naphthalene—2-sulfonic acid], excited-state reactions      219 515
TNS [6-(p-tolindinyl)naphthalene—2-sulfonic acid], phase-sensitive detection      621—624 625 626
TNS [6-(p-tolindinyl)naphthalene—2-sulfonic acid], protein studies      466
TNS [6-(p-tolindinyl)naphthalene—2-sulfonic acid], red-edge excitation      232
TNS [6-(p-tolindinyl)naphthalene—2-sulfonic acid], solvent effects      191
TNS [6-(p-tolindinyl)naphthalene—2-sulfonic acid], vesicles, TRES      219
TO      605 606
Toto      77 605 607
TOTTN      606—607
TR1TC (tetramethylrhodamine isothiocyanates)      67 69
Transient effects, time-domain lifetime measurements      131
Transit time spreads (TTS)      111—113
Transition metal-ligand complexes      see “Metal-ligand complexes” “Specific
Transition metals, quenching by      238 239
Transition moments, anisotropy      312—314
trans—4-Dimethylamino—4-(1-oxybutyl)-stilbene(DOS)      186
TRES      see “Time-resolved emission spectra”
Tricbloroethanol (TCE)      239 251
Trifluoroethanol (TFE)      255—256
Triphenylene      314
Tripropionin      354
tRNA binding to tRNA synthetase      306—307
Troponin 1      497
Troponin C      407—409 479—480
Trp repressor-DNA binding anisotropy      309
Trypsin      304
Tryptophan      12 15 64
Tryptophan analogs, protein fluorescence      476—479
Tryptophan quenching      238 239 244 461—465
Tryptophan quenching by phenylalanine      503—504
Tryptophan quenching, accessibility of quencher      18 250 463—464
Tryptophan quenching, emission maxima, effects of      461 —463 466—467
Tryptophan quenching, emission spectra resolution by      464—465
Tryptophan quenching, quenching constant      241—242 466—467
Tryptophan repressor, site-directed mutagenesis      504
Tryptophan, absorption and emission spectra      16
Tryptophan, acceptor decay      416
Tryptophan, aspartate transcarbamylase      504—505
Tryptophan, conformational changes and accessibility      250
Tryptophan, corrected emission spectra      642
Tryptophan, emission in apolar environment      454—456
Tryptophan, energy transfer      374 375
Tryptophan, excitation polarization spectra      447—449
Tryptophan, frequency-domain lifetime measurements      176—177
Tryptophan, intensity decays      489—491
Tryptophan, pH and      487 489
Tryptophan, quantum yield standards      52
Tryptophan, resonance energy transfer in proteins      456 457 458
Tryptophan, rotamers      488
Tryptophan, rotational correlation times      497
Tryptophan, simulated intensity decay      99
Tryptophan, solventeffects on emission spectra      449—450
Tryptophan, spectral properties      446 447
Tryptophan, structure      489
Tryptophan, TRES      220
TTCT (twisted internal charge transfer)      186—187 197 200 515 536
TU2D      412—415
Tune-dependent anisotropy decays      see “Anisotropy decays tune-dependent”
Twisted internal charge-transfer state (TTCT)      186—187 197 200 515 536
Two-channel method of anisotropy measurement      299—300
Two-component mixture, phase-sensitive detection      621—623
Two-emission spectra of Trp      176—177
Two-photon excitation anisotropy      315—316
Two-photon excitation, instrumentation      57—59
Two-state pH sensors      545—551
Two-state relaxation      212—213 226—230
Tyr- $\mathrm{NO_2}$       388
Tyr-Trp      458
Tyrosinate-like emissions      451
Tyrosine      64 650
Tyrosine proteins, genetically engineered      472—473
Tyrosine, corrected emission spectra      642
Tyrosine, dipeptides      458
Tyrosine, excitation polarization spectra      447—449
Tyrosine, excited-state ionization of      450—451
Tyrosine, ground-state complex formation by      451—452
Tyrosine, intensity decays      488 489—491
Tyrosine, quantum yield standards      52
Tyrosine, quenchers of      238
Tyrosine, resonance energy transfer in proteins      456 457 458
Tyrosine, spectral properties      446 447
Tyrosine, structure      489
Tyrosine, vasopressin      173
Tyrosyl transferase      469 470
Ultraviolet Oashlarnps      107—108
Ultraviolet standards      639 642
Umbelliferone (7-hydroxycoumarin)      3 79
Umbelliferyl phosphate      3 79
Underiabeling      416—417
Upoonversion methods, time-resolved measurements      118
Uridine quenching      243 244
Valinomycin      544
Vasopressin      172—173
Vesicles, Patman-labeled, TRES      217—218 219
Vesicles, Prodan      201
Vesicles, red-edge excitation      232—233
Vesicles, RET in rapid-diffusion limit      437
Vesicles, TNS-labeled, TRES      219
Vibrational structure of fluorophores      4
Viscosity and decay-associated spectra      501
Viscosity and rotational diffusion      304

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