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

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Предметный указатель

$17\beta$ -Hydroxysteroid dehydrogenase      67
-Dimethylamino-m-nitrobenzene (N, N-DMANB)      639—642
$\beta$ -Carboline      53 637—638
$\beta$ -Glycosidase      505—506 507
$\delta$ function      103
$\Delta^5$ -3-Ketosteroid isomerase      472 473
$\mathrm{Ca}^{2+}$ -ATPase, anisotropy decays      337
$\mathrm{Ca}^{2+}$ -ATPase, boundary lipid quenching      274
$\mathrm{Ca}^{2+}$ -ATPase, FD lifetime measurements      167—168
$\mathrm{Ca}^{2+}$ -ATPase, lifetime distributions      167—168
$\tau$       see “Lifetime”
1, 2, -bis(9, 10-Dibromooleyl)phosphatidyl cholme      274
1,6-Diphenyl-1,3,5-hexatriene      see “DPH”
1-Adamanatol      203
1-AminonaphUialene      196
1-AN (phenylnaphmylamine)      232—233
1-Anilinonaphthalene-8-sulfomc acid (ANS)      see “ANS”
1-Ethyl-4-carbomethoxypyridinium iodide      193
1-Ethylpyrene      246
1-Naphthoic acid      515
1-Phenylnaphthylamine (1-AN)      232—233
1-Pyrensulfonyl chloride      307
12-AS      312
2, 5-Diphenyl-1, 3, 4-oxadiazole (PPD)      102 645 646
2,2-Bipyridyl—3, 3-diol $[\mathrm{BP(OH_2)}]$       527
2,5-Diphenyloxazole (DPO)      205
2-Acetylanthracene      194 195
2-Aminonaphthalene      197 198
2-Aminopurine      77 78 650
2-Aminopurine, frequency-domain lifetime measurements      157—162
2-Aminopurine, mixture lifetime resolution      126—128
2-Aminopurine, time-domain lifetime measurements      124—126
2-AN (2-anilinonaphthalene)      194 195 215
2-Anilinonaphthalene (2-AN)      194 195 215
2-Memylanthracene      276
2-Memylharmine      637—638
2-Phenylindole      515 526—527
200-MHz fluorometers      147—149
3-Amino-N-methylphthalimide      231
3-Aminofluoranthrene (AFA)      176 178
3-Aminophthalimide      639 640 641 642
3-Hydroxyflavone      515 527
4-(Dicyanomethylene)-2-methyl-6-(4-dimethylaminostyryI)—4H-pyran      106
4-Dimethylamino-4-bromostilbene (DBS)      171—172 646—648
4-Dimethylamino-4-cyanostilbene (DCS)      646—648
4-Dirnethylamino-4-nitrostilbene (DMANS)      639—642
5, 6-Bertzoquinoline      238
5-Carboxyfluorescein      599 600
5-Carboxyrhodamine      599 600
5-Dimethylaimno-1-naphthalenesulfonic acid (Dansyl)      see “Dansyl groups”
5-Doxylstearate (5-NS)      275
5-Hydroxytryptophan (5HW)      477—479
6-(p-Tolnidinyl)naphthalene-2-snlfonic acid (TNS)      see “TNS”
6-Anilinonapnthalene-2-sulfonic acid (ANS)      205
7-(Dimethylamino)coumarin—4-acetate      224 226
7-Azaindofe      515 527 528
7-azaindole tautomerization      527
7-Azatryptophan      477—479
7-Hydroxycoumarin (umbelliferone)      3 79
8-Hydroxypyrene-1,3,6,8-trisulfonate      see “HPTS”
9, 10-Dimethylanthracene      354—355
9-AC (9-anthroxycholine)      202 203
9-Aminoacridinium      314
9-Anthroxycholino (9-AC)      202 203
9-Arylxanthyl cations      238
9-AS      306
9-Cyanoanthracene      174 230—231 649
9-Memylanthoate      197
Acetate quenching      451
Acetoxymethyl esters (AM esters)      556 557
Acousto-optic (AO) crystal      105
Acousto-optic (AO) deflector, laser      107
Acousto-optic (AO) modulators      149
Acridine orange      3 77 432—433
Acridine, DNA technology      605 608
Acridine, emission spectrum      9
Acridine, excited-state reactions      515 525
Acriflavine      176 178
Acrylamide quenching      238 239 244—246 250 251 252
Acrylamide quenching, absorption spectra      249
Acrylamide quenching, bimolecular quenching constants      252
Acrylamide quenching, covalent adduct formation      257
Acrylamide quenching, intensity decays      282 283
Acrylamide quenching, NATA      285
Acrylamide quenching, proteins      463
Acrylamide quenching, proteins, ethenoadenine-DNA-B helicase hexamer      257
Acrylamide quenching, proteins, metalloprotease      464—465
Acrylamide quenching, proteins, single-trp      462
Acrylamide quenching, proteins, tryptophan position and      467
Acrylamide quenching, quenching efficiency      241
Acrylamide quenching, transient effects      281—282
Acrylodan      67 200
Actin      201—202
Adduct formation, intramolecular quenching      257—258
Adenine and derivatives      15 239 247 248 257 388
Adenosine monophosphate      15
Adenosine, fluorescent analogs      81
ADMAN      205
Adrenocorticotropin (ACTH)      221—222 452 462 496.498
Albumin Blue 574      565
Alcohol dehydrogenase      333 508
Alcohols, dielectric relaxation times      225
Alkaline phosphatase      259
Alkylaminoanthracene derivatives, phosphate sensors      551 552
Allophycocyanin      83 392
Alpha helices      466—467
Aluminum phthalocyanine      76
Amines, fluorogenic probes      80
Amines, quenching by      238 541
Amino acids, phosphorescence quenching      259
Aminophthalamide      53 639 642
Aminopyridine      642
Analog-to-digital converter (ADC)      102
Analyte recognition probes      552—560 (see also “Specific elements”)
Analyte recognition probes, calcium and magnesium      556—559
Analyte recognition probes, cation probe specificity      552—553
Analyte recognition probes, glucose      542—543 559—560
Analyte recognition probes, sodium and potassium      554—556
Analyte recognition probes, theory of      553—554
Anion indicators      16
Anion sensors      551—552 (see also “Chloride probes”)
Anion sensors, chloride      539—541
Anion sensors, oxygen      536—538 539
Anisotropy      12 291—316
Anisotropy decay laws      328—331
Anisotropy decay laws, associated decays      331
Anisotropy decay laws, correlation time distributions      330—331
Anisotropy decay laws, hindered rotors      329
Anisotropy decay laws, nonspharical fluorophores      328—329
Anisotropy decay laws, segmental mobility of biopolyroer-bound fluorophore      329—330
Anisotropy decays      15 98—99 100 359—361 362—365
Anisotropy decays in frequency domain      498
Anisotropy decays, energy transfer      375—376
Anisotropy decays, melittin      497—498
Anisotropy decays, nucleic acids      338—341
Anisotropy decays, nucleic acids, DNA oligomer hydrodynamics      339—340
Anisotropy decays, nucleic acids, DNA segmental mobility      340—341
Anisotropy decays, proteins      496—498
Anisotropy decays, proteins, frequency-domain decays of      335—337
Anisotropy decays, proteins, frequency-domain decays of apomyoglobin, rigid rotor      334—336
Anisotropy decays, proteins, frequency-domain decays of melittin      336
Anisotropy decays, proteins, frequency-domain decays of oxytocin, picosecond rotational diffusion      336—337
Anisotropy decays, proteins, time-domain decays of      333—335
Anisotropy decays, proteins, time-domain decays of alcohol dehydrogenase      333
Anisotropy decays, proteins, time-domain decays of domain motions of immunoglobulins      334—335
Anisotropy decays, proteins, time-domain decays of free probe, effects of      335
Anisotropy decays, proteins, time-domain decays of phospholipase       334
Anisotropy decays, ribonuckase       493—496
Anisotropy decays, rotational motion measurement      98—99
Anisotropy decays, time-dependent      321—342

Anisotropy decays, time-dependent, analysis      321—328
Anisotropy decays, time-dependent, analysis, value      327
Anisotropy decays, time-dependent, analysis, frequency-domain decays      327—328
Anisotropy decays, time-dependent, analysis, time-domain decays      321—325
Anisotropy decays, time-dependent, laws governing      328—331
Anisotropy decays, time-dependent, laws governing, associated decays      331
Anisotropy decays, time-dependent, laws governing, correlation time distributions      330—331
Anisotropy decays, time-dependent, laws governing, hindered rotors      329
Anisotropy decays, time-dependent, laws governing, nonspherical fluorophores      328—329
Anisotropy decays, time-dependent, laws governing, segmental mobility of biopolymer-bound fluorophore      329—330
Anisotropy decays, time-dependent, long-lifetime roetal-ligand complexes      337—338
Anisotropy decays, time-dependent, membrane probe, characterization of      341—342
Anisotropy decays, time-dependent, membranes, hindered rotational diffusion in      331—333
Anisotropy decays, time-dependent, microsecond      337—338
Anisotropy decays, time-dependent, phosphorescence      337
Anisotropy for tryptophan      466—467
Anisotropy polarization, mulecular information from fluorescence      18—19
Anisotropy spectra, excitation      295—298 447—449
Anisotropy with multiphoton excitation      315—316
Anisotropy, advanced concepts      347—365
Anisotropy, advanced concepts, associated anisotropy decay      362—365
Anisotropy, advanced concepts, associated anisotropy decay, frequency-domain measurements      364—365
Anisotropy, advanced concepts, associated anisotropy decay, theory      363
Anisotropy, advanced concepts, associated anisotropy decay, time-domain measurements      364
Anisotropy, advanced concepts, DNA      361—362
Anisotropy, advanced concepts, ellipsoids of revolution      349—353
Anisotropy, advanced concepts, ellipsoids of revolution, oblate, intuitive description of      351
Anisotropy, advanced concepts, ellipsoids of revolution, rotational correction times      253—255
Anisotropy, advanced concepts, ellipsoids of revolution, simplified      349—351
Anisotropy, advanced concepts, ellipsoids of revolution, stick versus slip rotational diffusion      353
Anisotropy, advanced concepts, ellipsoids, anisotropy decay      348
Anisotropy, advanced concepts, global anisotropy decay analysis with collisional quenching      359—361
Anisotropy, advanced concepts, global anisotropy decay analysis with multiwavelength excitation      358—359
Anisotropy, advanced concepts, quenching application to protein anisotropy decays      360—361
Anisotropy, advanced concepts, rotational diffusion of ellipsoids, theory      354
Anisotropy, advanced concepts, rotational diffusion of nonspherical molecules      347—348
Anisotropy, advanced concepts, rotational diffusion, frequency-domain studies of      355—357 358
Anisotropy, advanced concepts, rotational diffusion, time-domain studies of      354—355
Anisotropy, definition      291—293
Anisotropy, electronic state resolution from polarization spectra      297—298
Anisotropy, emission wavelength and      312
Anisotropy, energy transfer and      373—374
Anisotropy, excitation anisotropy spectra      295—298 447—449
Anisotropy, excitation photoselection of fluorophores      294—295
Anisotropy, instrumentation      34—35
Anisotropy, lifetime-resolved      310—311
Anisotropy, measurement      298—303
Anisotropy, measurement, comparison of methods      300
Anisotropy, measurement, depolarization, trivial causes      302—303
Anisotropy, measurement, factors affecting anisotropy      303
Anisotropy, measurement, L-format or single-channel method      298—300
Anisotropy, measurement, magic-angle polarizer conditions      301
Anisotropy, measurement, membrane-bound probes      310
Anisotropy, measurement, polarizer alignment      300—301
Anisotropy, measurement, radiationless energy transfer effects      302
Anisotropy, measurement, T-format or two-channel method      299—300
Anisotropy, measurement, total intensity      301—302
Anisotropy, metal-ligand complexes      575—576
Anisotropy, Perrin equation, rotational diffusion effects      303—306
Anisotropy, Perrin equation, rotational diffusion effects, examples of Perrin plots      306
Anisotropy, Perrin equation, rotational diffusion effects, rotational motions of proteins      304—306
Anisotropy, Perrin plots of proteins      306—308
Anisotropy, Perrin plots, segmental motion effects      311
Anisotropy, photoselection      294—295
Anisotropy, polarization, molecular information from fluorescence      18—19
Anisotropy, principles      12—13
Anisotropy, proteins, association reactions      308—310
Anisotropy, proteins, folding and      473 474
Anisotropy, proteins, Perrin plots      306—308
Anisotropy, proteins, tryptophan position and      467
Anisotropy, rotational motion      98—99
Anisotropy, segmented motions      311
Anisotropy, Soleillet’s rule, depolarization factor multiplication      311—312
Anisotropy, theory      293—295
Anisotropy, transition moments      312—314
AnnexinV,      501—503
ANS (1-anilinonaphthalene-8-sulfonic acid)      71 202 203 205
ANS (1-anilinonaphthalene-8-sulfonic acid), anisotropy decay      364—365
ANS (1-anilinonaphthalene-8-sulfonic acid), excited-state reactions      515
ANS (1-anilinonaphthalene-8-sulfonic acid), protein studies      466
ANS (1-anilinonaphthalene-8-sulfonic acid), red-edge excitation      232
ANS (1-anilinonaphthalene-8-sulfonic acid), solvent effects      191
ANS (6-anilinonaphthalene-2-sulfonic acid)      205
ANS (6-anilinonaphthalene-2-sulfonic acid), Forster distances      388
ANS derivatives, solvent effects      192
Anthoylxanthyl cations, quenchers of      238
anthracene      3 541 649
Anthracene, emission spectrum      9
Anthracene, excited-state reactions      515
Anthracene, membrane probes      268
Anthracene, phase-sensitive detection      625 628—629
Anthracene, quenchers of      238
Anthracene, TOES and DAS comparison      230—231
Anthracene—9-carboxyIic acid      515
Anthranilic acid      650
Anthranilic acid, frequency-domain lifetime measurements      157—162
Anthranilic acid, mixture lifetime resolution      126—128
Anthranilic acid, time-domain lifetime measurements      124—126
Anthroyl fatty acid      72
Anthroyloxy fatty acids      238 239 388
Anthroyloxy fatty acids, 12-AS      312
Anthroyloxy fatty acids, 9-AS      306
Anthroyloxy fatty acids, accessibility      267—269
Anthroyloxy fatty acids, solvent relaxation      227—228
Anthroyloxy fatty acids, TOES      219—220
APC (allophyococyanin)      388
Apoazurin      453 462 493
Apomyoglobin      255 304 364—365
Apomyoglobin, anisotropy decay      334—336
Apomyoglobin, time-resolved emission spectra (TOES)      215—217
Apoperoxidase      304
Apparent distance distribution      415—416
Apparent phase and modulation lifetimes      177—178 523
APTRA      559
Arc lamps      26 31
Archaebacterial histone-like protein (HTa)      459—461
Argon-hydrogen flashlamps      108 109
Argon-ion lasers      37 104—105 601 602
Aromatic amino acids      see also “Phenylalanine” “Tryptophan” “Tyrosine”
Aromatic amino acids, intensity decays      488
Aromatic amino acids, quantum yield standards      53
Aromatic amino acids, spectral properties      445—452
Asparaginase      462
Aspartate transcarbamylase, noninteracting tryptophan      504—505
Associated anisotropy decays      362—365
Association reactions      465—469
Association reactions, anisotropy      308—310 449
Association reactions, anisotropy, melittin association detected from homotransfer      309—310
Association reactions, anisotropy, peptide-calmodulin binding      308—309
Association reactions, anisotropy, Trp repressor-DNA binding      309
Association reactions, calmodulin, tryptophan mutants, calcium binding site resolution      468—469
Association reactions, orientation of bound peptide      377—378
Association reactions, Prodan effects on emission spectra      202
Association reactions, quenching      255—257
Association reactions, quenching, specific binding reactions      255—256
Association reactions, quenching, substrate binding to ribozymes      256—257
Asymptotic standard errors (ASEs)      122—124
Azacrown ethers      559
Azatetrahydrochrysene      81 82
Azide      285
Azure B      76
Azurin      461 462 493 509
Azurin, emission spectra of molecules with one or two tryptophan      455—456
Azurin, site-directed mutagenesis of single-trypto-phan      454—455
BABAPH      229—230
BABP      229—230
Bamase      470—472
Bandpass filters      36
BAPTA      78 590
BAPTA-based probes      556—559

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