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Section 54

EurekaMag Full Text Articles Chapter 53,268



References:

George, A.; Patonay, G. 1997: Fluorescence studies of carbocyanines using AOTF. Talanta 45(2): 285-289
Sharom, F.J.; Liu, R.; Vinepal, B. 2010: Fluorescence studies of drug binding and translocation by membrane transporters. Methods in Molecular Biology 637: 133-148
Pelton, J.T. 1991: Fluorescence studies of endothelin-1. Neurochemistry International 18(4): 485-489
Hu, X.; Cui, S.; Liu, J.q. 2010: Fluorescence studies of interaction between flavonol p-coumaroylglucoside tiliroside and bovine serum albumin. Spectrochimica Acta. Part a Molecular and Biomolecular Spectroscopy 77(2): 548-553
Abdullah, Z.; Tahir, N.M.; Abas, M.R.; Aiyub, Z.; Low, B.K. 2004: Fluorescence studies of selected 2-alkylaminopyrimidines. Molecules 9(7): 520-526
Deperasińska, I.; Zehnacker, A.; Lahmani, F.; Borowicz, P.; Sepioł, J. 2007: Fluorescence studies of terrylene in a supersonic jet: indication of a dark electronic state below the allowed transition. Journal of Physical Chemistry. a 111(20): 4252-4258
Maccoll, R. 1991: Fluorescence studies on R-phycoerythrin and C-phycoerythrin. Journal of Fluorescence 1(2): 135-140
Li, F.; Wang, J.; Tang, F.; Lin, J.; Zhang, Y.; Zhang, E.-Y.; Wei, C.; Shi, Y.-K.; Zhao, X. 2009: Fluorescence studies on a designed self-assembling peptide of RAD16-Ii as a potential carrier for hydrophobic drug. Journal of Nanoscience and Nanotechnology 9(2): 1611-1614
Castanheira, E.M.S.; Carvalho, M.S.D.; Soares, D.J.G.; Coutinho, P.J.G.; Calhelha, R.C.; Queiroz, M.-J.ão.R.P. 2011: Fluorescence studies on new potential antitumoral benzothienopyran-1-ones in solution and in liposomes. Journal of Fluorescence 21(3): 911-922
Okada, T.; Yamanaka, K.-i.; Hirose, Y.; Goto, Y.; Tani, T.; Inagaki, S. 2011: Fluorescence studies on phenylene moieties embedded in a framework of periodic mesoporous organosilica. Physical Chemistry Chemical Physics: Pccp 13(17): 7961-7967
Castanheira, E.M.S.; Abreu, A.S.; Carvalho, M.S.D.; Queiroz, M.-J.ão.R.P.; Ferreira, P.M.T. 2009: Fluorescence studies on potential antitumoral heteroaryl and heteroannulated indoles in solution and in lipid membranes. Journal of Fluorescence 19(3): 501-509
Cavatorta, P.; Favilla, R.; Mazzini, A.; Franzoni, L.; Spisni, A.; Szabo, A.G. 1993: Fluorescence studies on the conformation of litorin in solution and in the presence of model membranes. Journal of Fluorescence 3(4): 211-214
Damai, R.S.; Anbazhagan, V.; Rao, K.B.; Swamy, M.J. 2009: Fluorescence studies on the interaction of choline-binding domain B of the major bovine seminal plasma protein, PDC-109 with phospholipid membranes. Biochimica et Biophysica Acta 1794(12): 1725-1733
Tang, M.A.K.; Motoshima, H.; Watanabe, K. 2012: Fluorescence studies on the stability, flexibility and substrate-induced conformational changes of acetate kinases from psychrophilic and mesophilic bacteria. Protein Journal 31(4): 337-344
Khorasani-Motlagh, M.; Noroozifar, M.; Moodi, A.; Niroomand, S. 2013: Fluorescence studies, DNA binding properties and antimicrobial activity of a dysprosium(III) complex containing 1,10-phenanthroline. Journal of Photochemistry and Photobiology. B Biology 127: 192-201
Calce, E.; Monfregola, L.; Sandomenico, A.; Saviano, M.; De Luca, S. 2013: Fluorescence study for selecting specific ligands toward HER2 receptor: an example of receptor fragment approach. European Journal of Medicinal Chemistry 61: 116-121
Van Damme, M.; Hofkens, J.; De Schryver, F.C.; Ryan, T.G. 1991: Fluorescence study of a field-induced director reorientation in a liquid crystalline polyacrylate. Journal of Fluorescence 1(1): 69-76
Mizuguchi, C.; Hata, M.; Dhanasekaran, P.; Nickel, M.; Okuhira, K.; Phillips, M.C.; Lund-Katz, S.; Saito, H. 2014: Fluorescence study of domain structure and lipid interaction of human apolipoproteins E3 and E4. Biochimica et Biophysica Acta 1841(12): 1716-1724
Techen, A.; Hille, C.; Dosche, C.; Kumke, M.U. 2012: Fluorescence study of drug-carrier interactions in CTAB/PBS buffer model systems. Journal of Colloid and Interface Science 377(1): 251-261
Schäfer, J.; Breul, A.; Birckner, E.; Hager, M.D.; Schubert, U.S.; Popp, J.ür.; Dietzek, B. 2013: Fluorescence study of energy transfer in PMMA polymers with pendant oligo-phenylene-ethynylenes. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 14(1): 170-178
Hofkens, J.; Van Damme, M.; De Schryver, F.C.; Ryan, T.G. 1991: Fluorescence study of field-induced director reorientations in low mass liquid crystalline compounds. Journal of Fluorescence 1(3): 193-202
Chen, Y.; Luo, J.; Zhu, X.X. 2008: Fluorescence study of inclusion complexes between star-shaped cholic acid derivatives and polycyclic aromatic fluorescent probes and the size effects of host and guest molecules. Journal of Physical Chemistry. B 112(11): 3402-3409
Kutsenko, O.K.; Trusova, V.M.; Gorbenko, G.P.; Deligeorgiev, T.; Vasilev, A.; Kaloianova, S.; Lesev, N. 2011: Fluorescence study of lipid bilayer interactions of Eu(III) coordination complexes. Journal of Fluorescence 21(4): 1689-1695
Burel-Deschamps, L.; Mével, M.; Loizeau, D.; Ayadi, F.; Yaouanc, J.-J.; Clément, J.-C.; Jaffrès, P.-A.; Giamarchi, P. 2008: Fluorescence study of lipid-based DNA carriers properties: influence of cationic lipid chemical structure. Journal of Fluorescence 18(5): 835-841
Rabouan, S.; Delage, J.; Durand, W.; Prognon, P.; Barthes, D. 2000: Fluorescence study of some terbium-oligopeptide complexes in methanolic solution. Talanta 51(4): 787-797
Bogoeva, V.P.; Russev, G.C. 2008: Fluorescence study of steroid hormone binding activity of Helix pomatia agglutinin. Steroids 73(11): 1060-1065
Sahu, A.; Kasoju, N.; Bora, U. 2008: Fluorescence study of the curcumin-casein micelle complexation and its application as a drug nanocarrier to cancer cells. Biomacromolecules 9(10): 2905-2912
Sánchez-Martín, M.J.ús.; Amigo, J.é M.; Pujol, M.; Haro, I.; Alsina, M.A.ón.; Busquets, M.A. 2009: Fluorescence study of the dynamic interaction between E1(145-162) sequence of hepatitis GB virus C and liposomes. Analytical and Bioanalytical Chemistry 394(4): 1003-1010
Esquembre, R.ío.; Ferrer, M.ía.L.; Gutiérrez, M.ía.C.; Mallavia, R.; Mateo, C.R. 2007: Fluorescence study of the fluidity and cooperativity of the phase transitions of zwitterionic and anionic liposomes confined in sol-gel glasses. Journal of Physical Chemistry. B 111(14): 3665-3673
Sachl, R.; Stepánek, M.; Procházka, K.; Humpolícková, J.; Hof, M. 2008: Fluorescence study of the solvation of fluorescent probes prodan and laurdan in poly(epsilon-caprolactone)-block-poly(ethylene oxide) vesicles in aqueous solutions with tetrahydrofurane. Langmuir 24(1): 288-295
Trusova, V.M.; Gorbenko, G.P. 2012: Fluorescence study on aggregated lysozyme and lipid bilayer interactions. Journal of Photochemistry and Photobiology. B Biology 113: 51-55
Jagtap, S.; Rao, M. 2009: Fluorescence study on interactions of alpha-crystallin with the molten globule state of 1, 4-beta-D-glucan glucanohydrolase from Thermomonospora sp. induced by guanidine hydrochloride. Journal of Fluorescence 19(6): 967-973
Chen, Y.-M.; Guo, L.-H. 2009: Fluorescence study on site-specific binding of perfluoroalkyl acids to human serum albumin. Archives of Toxicology 83(3): 255-261
Youssef, T. 2009: Fluorescence study on the interaction between hypericin and lens protein "alpha-crystallin". Photochemistry and Photobiology 85(4): 921-926
Zhang, Y.-Z.; Zhou, B.; Liu, Y.-X.; Zhou, C.-X.; Ding, X.-L.; Liu, Y. 2008: Fluorescence study on the interaction of bovine serum albumin with p-aminoazobenzene. Journal of Fluorescence 18(1): 109-118
Liu, H.-k.; Wang, H.-y.; Wu, S.-s.; Zhang, Q.; Du, J.-f.; Gu, H.-b. 2009: Fluorescence study on the interaction of narrow distribution low polymerization degree chitooligosaccharides and human serum albumin. Guang Pu Xue Yu Guang Pu Fen Xi 29(9): 2523-2526
He, H.; Li, S.-S.; Lu, J.-R.; Gu, Y.; Chuong, P.-H. 2009: Fluorescence study on the interactions between G3.0 PAMAM dendrimers and bovine serum albumin. Guang Pu Xue Yu Guang Pu Fen Xi 29(10): 2782-2786
Li, S.-s.; He, H.; Chen, Z.; Zha, J.; Chuong, P.-H. 2010: Fluorescence study on the interactions between carbon nanotubes and bovine serum albumin. Guang Pu Xue Yu Guang Pu Fen Xi 30(10): 2689-2692
Kostamovaara, J.; Tenhunen, J.; Kögler, M.; Nissinen, I.; Nissinen, J.; Keränen, P. 2013: Fluorescence suppression in Raman spectroscopy using a time-gated CMOS SPAD. Optics Express 21(25): 31632-31645
Praveen, B.B.; Ashok, P.C.; Mazilu, M.; Riches, A.; Herrington, S.; Dholakia, K. 2012: Fluorescence suppression using wavelength modulated Raman spectroscopy in fiber-probe-based tissue analysis. Journal of Biomedical Optics 17(7): 077006
Cui, C.; Choi, H.; Lee, G.S.; Ahn, D.J. 2011: Fluorescence switch in red-phase polydiacetylene films and vesicles upon thermal cycles. Journal of Nanoscience and Nanotechnology 11(7): 5754-5760
Sutariya, P.G.; Pandya, A.; Lodha, A.; Menon, S.K. 2013: Fluorescence switch on-off-on receptor constructed of quinoline allied calix[4]arene for selective recognition of Cu2+ from blood serum and F- from industrial waste water. Analyst 138(9): 2531-2535
Hutt, J.T.; Jo, J.; Olasz, A.ás.; Chen, C.-H.; Lee, D.; Aron, Z.D. 2012: Fluorescence switching of imidazo[1,5-a]pyridinium ions: pH-sensors with dual emission pathways. Organic Letters 14(12): 3162-3165
Przybylo, M.; Borowik, T.; Langner, M. 2010: Fluorescence techniques for determination of the membrane potentials in high throughput screening. Journal of Fluorescence 20(6): 1139-1157
Stubbs, C.D.; Ho, C.; Slater, S.J. 1995: Fluorescence techniques for probing water penetration into lipid bilayers. Journal of Fluorescence 5(1): 19-28
Mocz, G.; Ross, J.A. 2013: Fluorescence techniques in analysis of protein-ligand interactions. Methods in Molecular Biology 1008: 169-210
Kathawala, M.H.; Khoo, S.P.K.; Sudhaharan, T.; Zhao, X.; Say Chye Loo, J.; Ahmed, S.; Woei Ng, K. 2015: Fluorescence techniques used to measure interactions between hydroxyapatite nanoparticles and epidermal growth factor receptors. Biotechnology Journal 10(1): 171-179
McIntosh, A.L.; Atshaves, B.P.; Huang, H.; Gallegos, A.M.; Kier, A.B.; Schroeder, F. 2008: Fluorescence techniques using dehydroergosterol to study cholesterol trafficking. Lipids 43(12): 1185-1208
Petrunkina, A.M.; Harrison, R.A.P. 2013: Fluorescence technologies for evaluating male gamete (dys)function. Reproduction in Domestic Animals 48(Suppl 1): 11-24
Deshayes, S.; Divita, G. 2013: Fluorescence technologies for monitoring interactions between biological molecules in vitro. Progress in Molecular Biology and Translational Science 113: 109-143
Zeng, Q.; Zhang, Y.; Sun, Y.; Liu, X.; Kong, X.; Zhao, J.; Zhang, H. 2010: Fluorescence thermal antiquenching of liposome encapsulated CdSe quantum dots. Journal of Nanoscience and Nanotechnology 10(11): 7311-7315
Gossage, H.E.; Melton, L.A. 1987: Fluorescence thermometers using intramolecular exciplexes. Applied Optics 26(11): 2256-2259
Toyli, D.M.; de las Casas, C.F.; Christle, D.J.; Dobrovitski, V.V.; Awschalom, D.D. 2013: Fluorescence thermometry enhanced by the quantum coherence of single spins in diamond. Proceedings of the National Academy of Sciences of the United States of America 110(21): 8417-8421
Pikin, O.; Filonenko, E.; Mironenko, D.; Vursol, D.; Amiraliev, A. 2012: Fluorescence thoracoscopy in the detection of pleural malignancy. European Journal of Cardio-Thoracic Surgery: Official Journal of the European Association for Cardio-Thoracic Surgery 41(3): 649-652
Laidevant, A.él.; Hervé, L.; Debourdeau, M.; Boutet, J.ér.ôm.; Grenier, N.; Dinten, J.-M. 2010: Fluorescence time-resolved imaging system embedded in an ultrasound prostate probe. Biomedical Optics Express 2(1): 194-206
Toseland, C.P. 2014: Fluorescence to study the ATPase mechanism of motor proteins. Experientia Supplementum 105: 67-86
Ge, J.; Erickson, S.J.; Godavarty, A. 2009: Fluorescence tomographic imaging using a handheld-probe-based optical imager: extensive phantom studies. Applied Optics 48(33): 6408-6416
Iglesias, I. 2010: Fluorescence tomographic microscopy by wavefront detection. Optics Letters 35(7): 1103-1105
Kepshire, D.; Davis, S.C.; Dehghani, H.; Paulsen, K.D.; Pogue, B.W. 2008: Fluorescence tomography characterization for sub-surface imaging with protoporphyrin IX. Optics Express 16(12): 8581-8593
Wu, B.; Gayen, S.K. 2014: Fluorescence tomography of targets in a turbid medium using non-negative matrix factorization. Physical Review. e Statistical Nonlinear and Soft Matter Physics 89(4): 042708
Bourayou, R.; Boeth, H.; Benav, H.; Betz, T.; Lindauer, U.; Nierhaus, T.; Klohs, J.; Wunder, A.; Dirnagl, U.; Steinbrink, J. 2008: Fluorescence tomography technique optimized for noninvasive imaging of the mouse brain. Journal of Biomedical Optics 13(4): 041311
St-Pierre, P.; McCluskey, K.; Shaw, E.; Penedo, J.C.; Lafontaine, D.A. 2014: Fluorescence tools to investigate riboswitch structural dynamics. Biochimica et Biophysica Acta 1839(10): 1005-1019
Toseland, C.P.; Webb, M.R. 2010: Fluorescence tools to measure helicase activity in real time. Methods 51(3): 259-268
Osburn, C.L.; Handsel, L.T.; Mikan, M.P.; Paerl, H.W.; Montgomery, M.T. 2012: Fluorescence tracking of dissolved and particulate organic matter quality in a river-dominated estuary. Environmental Science and Technology 46(16): 8628-8636
DeWitt, M.; Schenkel, T.; Yildiz, A. 2014: Fluorescence tracking of motor proteins in vitro. Experientia Supplementum 105: 211-234
Liu, Y.; Blair, S. 2004: Fluorescence transmission through 1-D and 2-D periodic metal films. Optics Express 12(16): 3686-3693
Baldridge, A.; Amador, A.; Tolbert, L.M. 2011: Fluorescence turn on by cholate aggregates. Langmuir 27(7): 3271-3274
Liu, W.-Y.; Shen, S.-L.; Li, H.-Y.; Miao, J.-Y.; Zhao, B.-X. 2013: Fluorescence turn-on chemodosimeter for rapid detection of mercury (II) ions in aqueous solution and blood from mice with toxicosis. Analytica Chimica Acta 791: 65-71
Lin, W.; Long, L.; Chen, B.; Tan, W.; Gao, W. 2010: Fluorescence turn-on detection of Cu2+ in water samples and living cells based on the unprecedented copper-mediated dihydrorosamine oxidation reaction. Chemical Communications 46(8): 1311-1313
Wang, M.; Zhang, D.; Zhang, G.; Tang, Y.; Wang, S.; Zhu, D. 2008: Fluorescence turn-on detection of DNA and label-free fluorescence nuclease assay based on the aggregation-induced emission of silole. Analytical Chemistry 80(16): 6443-6448
Lan, H.; Wen, Y.; Shi, Y.; Liu, K.; Mao, Y.; Yi, T. 2014: Fluorescence turn-on detection of Sn2+ in live eukaryotic and prokaryotic cells. Analyst 139(20): 5223-5229
Tang, D.; Liao, D.; Zhu, Q.; Wang, F.; Jiao, H.; Zhang, Y.; Yu, C. 2011: Fluorescence turn-on detection of a protein through the displaced single-stranded DNA binding protein binding to a molecular beacon. Chemical Communications 47(19): 5485-5487
Wang, B.; Yu, C. 2010: Fluorescence turn-on detection of a protein through the reduced aggregation of a perylene probe. Angewandte Chemie 49(8): 1485-1488
Liao, D.; Chen, J.; Li, W.; Zhang, Q.; Wang, F.; Li, Y.; Yu, C. 2013: Fluorescence turn-on detection of a protein using cytochrome c as a quencher. Chemical Communications 49(82): 9458-9460
Sun, J.; Yan, Y.; Sun, M.; Yu, H.; Zhang, K.; Huang, D.; Wang, S. 2014: Fluorescence turn-on detection of gaseous nitric oxide using ferric dithiocarbamate complex functionalized quantum dots. Analytical Chemistry 86(12): 5628-5632
Zhou, Y.; Li, J.-Y.; Chu, K.-H.; Liu, K.; Yao, C.; Li, J.-Y. 2012: Fluorescence turn-on detection of hypochlorous acid via HOCl-promoted dihydrofluorescein-ether oxidation and its application in vivo. Chemical Communications 48(39): 4677-4679
Chen, Y-Ming.; Cheng, T-Lu.; Tseng, W-Lung. 2009: Fluorescence turn-on detection of iodide, iodate and total iodine using fluorescein-5-isothiocyanate-modified gold nanoparticles. Analyst 134(10): 2106-2112
Chen, X.-t.; Xiang, Y.; Li, N.; Song, P.-S.; Tong, A.-j. 2010: Fluorescence turn-on detection of protamine based on aggregation-induced emission enhancement characteristics of 4-(6'-carboxyl)hexyloxysalicylaldehyde azine. Analyst 135(5): 1098-1105
Lee, K.-S.; Kim, T.-K.; Lee, J.H.; Kim, H.-J.; Hong, J.-I. 2008: Fluorescence turn-on probe for homocysteine and cysteine in water. Chemical Communications 46: 6173-6175
Lee, W.-E.; Jin, Y.-J.; Kim, S.-I.; Kwak, G.; Kim, J.H.; Sakaguchi, T.; Lee, C.-L. 2013: Fluorescence turn-on response of a conjugated polyelectrolyte with intramolecular stack structure to biomacromolecules. Chemical Communications 49(84): 9857-9859
Pu, K.-Y.; Liu, B. 2010: Fluorescence turn-on responses of anionic and cationic conjugated polymers toward proteins: effect of electrostatic and hydrophobic interactions. Journal of Physical Chemistry. B 114(9): 3077-3084
Sanji, T.; Shiraishi, K.; Nakamura, M.; Tanaka, M. 2010: Fluorescence turn-on sensing of lectins with mannose-substituted tetraphenylethenes based on aggregation-induced emission. Chemistry An Asian Journal 5(4): 817-824
Wang, K.-R.; An, H.-W.; Rong, R.-X.; Cao, Z.-R.; Li, X.-L. 2014: Fluorescence turn-on sensing of protein based on mannose functionalized perylene bisimides and its fluorescence imaging. Biosensors and Bioelectronics 58: 27-32
Lee, J.H.; Jeong, A.R.; Shin, I.-S.; Kim, H.-J.; Hong, J.-I. 2010: Fluorescence turn-on sensor for cyanide based on a cobalt(II)-coumarinylsalen complex. Organic Letters 12(4): 764-767
Kim, H.J.; Bhuniya, S.; Mahajan, R.K.; Puri, R.; Liu, H.; Ko, K.C.; Lee, J.Y.; Kim, J.S. 2009: Fluorescence turn-on sensors for HSO4-. Chemical Communications 46: 7128-7130
McNamara, L.E.; Dalby, M.J.; Riehle, M.O.; Burchmore, R. 2010: Fluorescence two-dimensional difference gel electrophoresis for biomaterial applications. Journal of the Royal Society Interface 7(Suppl 1): S107-S118
Nakamura, T.; Araki, Y.; Ito, O.; Takimiya, K.; Otsubo, T. 2008: Fluorescence up-conversion study of excitation energy transport dynamics in oligothiophene-fullerene linked dyads. Journal of Physical Chemistry. a 112(6): 1125-1132
Zhang, F.; Shi, Q.; Zhang, Y.; Shi, Y.; Ding, K.; Zhao, D.; Stucky, G.D. 2011: Fluorescence upconversion microbarcodes for multiplexed biological detection: nucleic acid encoding. Advanced Materials 23(33): 3775-3779
Xi, G.; Yang, Y.-J.; Lu, H. 2009: Fluorescence used to investigate the sensitivity of spinach chloroplast membrane to low intensity electromagnetic radiation. Guang Pu Xue Yu Guang Pu Fen Xi 29(7): 1920-1924
Shigeyasu, K.; Tazawa, H.; Hashimoto, Y.; Mori, Y.; Nishizaki, M.; Kishimoto, H.; Nagasaka, T.; Kuroda, S.; Urata, Y.; Goel, A.; Kagawa, S.; Fujiwara, T. 2015: Fluorescence virus-guided capturing system of human colorectal circulating tumour cells for non-invasive companion diagnostics. Gut 64(4): 627-635
Li, H.-W.; Ai, K.; Wu, Y. 2011: Fluorescence visual gel-separation of dansylated BSA-protected gold-nanoclusters. Chemical Communications 47(35): 9852-9854
Bhole, N.S.; Huang, F.; Maldarelli, C. 2010: Fluorescence visualization and modeling of a micelle-free zone formed at the interface between an oil and an aqueous micellar phase during interfacial surfactant transport. Langmuir 26(20): 15761-15778
You, X.; Yang, Y.C.; Ke, X.; Hong, S.L.; Hu, G.H. 2014: Fluorescence visualization screening for EBV-LMP1-targeted DNAzymes. Otolaryngology--Head and Neck Surgery: Official Journal of American Academy of Otolaryngology-Head and Neck Surgery 150(2): 251-258
Zheng, J.; Yang, Y.; Lei, M.; Yao, B.; Gao, P.; Ye, T. 2012: Fluorescence volume imaging with an axicon: simulation study based on scalar diffraction method. Applied Optics 51(30): 7236-7245
Niu, C.-G.; Guan, A.-L.; Zeng, G.-M.; Liu, Y.-G.; Li, Z.-W. 2006: Fluorescence water sensor based on covalent immobilization of chalcone derivative. Analytica Chimica Acta 577(2): 264-270
Oelkrug, D.; Egelhaaf, H.J.; Worrall, D.R.; Wilkinson, F. 1995: Fluorescence yields and molecular orientation of thin organic films: Vapor-Deposited Oligothiophenes α3T-α8T. Journal of Fluorescence 5(2): 165-170
Hosseini, M.; Vaezi, Z.; Ganjali, M.R.; Faridbod, F.; Abkenar, S.D. 2011: Fluorescence "Turn-On" chemosensor for the selective detection of beryllium. Spectrochimica Acta. Part a Molecular and Biomolecular Spectroscopy 83(1): 161-164
Nistico, L.; Gieseke, A.; Stoodley, P.; Hall-Stoodley, L.; Kerschner, J.E.; Ehrlich, G.D. 2009: Fluorescence "in situ" hybridization for the detection of biofilm in the middle ear and upper respiratory tract mucosa. Methods in Molecular Biology 493: 191-213
Adegoke, O.; Khene, S.; Nyokong, T. 2013: Fluorescence "switch on" of conjugates of CdTe@ZnS quantum dots with Al, Ni and Zn tetraamino-phthalocyanines by hydrogen peroxide: characterization and applications as luminescent nanosensors. Journal of Fluorescence 23(5): 963-974
Liu, L.; Zhang, G.; Xiang, J.; Zhang, D.; Zhu, D. 2008: Fluorescence "turn on" chemosensors for Ag+ and Hg2+ based on tetraphenylethylene motif featuring adenine and thymine moieties. Organic Letters 10(20): 4581-4584
Yuan, C.; Liu, B.; Liu, F.; Han, M.-Y.; Zhang, Z. 2014: Fluorescence "turn on" detection of mercuric ion based on bis(dithiocarbamato)copper(II) complex functionalized carbon nanodots. Analytical Chemistry 86(2): 1123-1130
Hosseini, M.; Vaezi, Z.; Ganjali, M.R.; Faridbod, F.; Abkenar, S.D.; Alizadeh, K.; Salavati-Niasari, M. 2010: Fluorescence "turn-on" chemosensor for the selective detection of zinc ion based on Schiff-base derivative. Spectrochimica Acta. Part a Molecular and Biomolecular Spectroscopy 75(3): 978-982
Sanji, T.; Nakamura, M.; Kawamata, S.; Tanaka, M.; Itagaki, S.; Gunji, T. 2012: Fluorescence "turn-on" detection of melamine with aggregation-induced-emission-active tetraphenylethene. Chemistry 18(48): 15254-15257
Kim, J.; Cho, J.; Lee, J.; Park, K.; Kim, J.-M. 2011: Fluorescence "turn-on" patterning with polymers having pendant triphenylmethane groups as fluorophore precursors. Macromolecular Rapid Communications 32(12): 870-875
Kim, D.-S.; Ahn, K.H. 2008: Fluorescence "turn-on" sensing of carboxylate anions with oligothiophene-based o-(carboxamido)trifluoroacetophenones. Journal of Organic Chemistry 73(17): 6831-6834
Compton, K.T.; Smyth, H.D. 1920: Fluorescence, Dissociation and Ionization in Iodine Vapor. Science 51(1327): 571-572
Lee, C.-Y.; Harbers, G.M.; Grainger, D.W.; Gamble, L.J.; Castner, D.G. 2007: Fluorescence, XPS, and TOF-SIMS surface chemical state image analysis of DNA microarrays. Journal of the American Chemical Society 129(30): 9429-9438
Vidal, B.d.C. 2014: Fluorescence, aggregation properties and FT-IR microspectroscopy of elastin and collagen fibers. Acta Histochemica 116(8): 1359-1366
Aldrovani, M.; Aparecida Guaraldo, A.M.; de Campos Vidal, B. 2007: Fluorescence, birefringence and confocal microscopy of the abdominal aorta from nonobese diabetic (NOD) mice. Acta Histochemica 109(3): 248-254
Neira, J.é L. 2013: Fluorescence, circular dichroism and mass spectrometry as tools to study virus structure. Sub-Cellular Biochemistry 68: 177-202
Figueroa, M.; González-Andrade, M.ín.; Sosa-Peinado, A.; Madariaga-Mazón, A.; Del Río-Portilla, F.; González, M.ía.D.C.; Mata, R. 2011: Fluorescence, circular dichroism, NMR, and docking studies of the interaction of the alkaloid malbrancheamide with calmodulin. Journal of Enzyme Inhibition and Medicinal Chemistry 26(3): 378-385
González-Alvarez, M.ía.J.é; Di Marino, A.; Mendicuti, F. 2009: Fluorescence, induced circular dichroism and molecular mechanics of 1-methyl naphthalenecarboxylate complexes with 2-hydroxypropyl cyclodextrins. Journal of Fluorescence 19(3): 449-462
Valli, H.; Sukhwani, M.; Dovey, S.L.; Peters, K.A.; Donohue, J.; Castro, C.A.; Chu, T.; Marshall, G.R.; Orwig, K.E. 2014: Fluorescence- and magnetic-activated cell sorting strategies to isolate and enrich human spermatogonial stem cells. Fertility and Sterility 102(2): 566-580.E7
Wollina, U.; Nelskamp, C.; Scheibe, A.; Fassler, D.; Schmidt, W.-D. 2007: Fluorescence--remission sensoring of skin tumours: preliminary results. Skin Research and Technology: Official Journal of International Society for Bioengineering and the Skin and International Society for Digital Imaging of Skin and International Society for Skin Imaging 13(4): 463-471
Crowley, T.E. 2011: Fluorescence-PCR assays and isolation of luminescent bacterial clones using an automated plate reader. Biochemistry and Molecular Biology Education: a Bimonthly Publication of the International Union of Biochemistry and Molecular Biology 39(2): 126-132
Dobson, J.T.; Da'as, S.; McBride, E.R.; Berman, J.N. 2009: Fluorescence-activated cell sorting (FACS) of whole mount in situ hybridization (WISH) labelled haematopoietic cell populations in the zebrafish. British Journal of Haematology 144(5): 732-735
Dingley, S.; Chapman, K.A.; Falk, M.J. 2012: Fluorescence-activated cell sorting analysis of mitochondrial content, membrane potential, and matrix oxidant burden in human lymphoblastoid cell lines. Methods in Molecular Biology 837: 231-239
Kalidasan, K.; Su, Y.; Wu, X.; Yao, S.Q.; Uttamchandani, M. 2013: Fluorescence-activated cell sorting and directed evolution of α-N-acetylgalactosaminidases using a quenched activity-based probe (qABP). Chemical Communications 49(65): 7237-7239
Evrard, A.; Bargmann, B.O.R.; Birnbaum, K.D.; Tester, M.; Baumann, U.; Johnson, A.A.T. 2012: Fluorescence-activated cell sorting for analysis of cell type-specific responses to salinity stress in Arabidopsis and rice. Methods in Molecular Biology 913: 265-276
Iyer-Pascuzzi, A.S.; Benfey, P.N. 2010: Fluorescence-activated cell sorting in plant developmental biology. Methods in Molecular Biology 655: 313-319
Kofler, K.; Ainoedhofer, H.; Höllwarth, M.E.; Saxena, A.K. 2010: Fluorescence-activated cell sorting of PCK-26 antigen-positive cells enables selection of ovine esophageal epithelial cells with improved viability on scaffolds for esophagus tissue engineering. Pediatric Surgery International 26(1): 97-104
Sugiyama, T.; Kim, S.K. 2008: Fluorescence-activated cell sorting purification of pancreatic progenitor cells. Diabetes Obesity and Metabolism 10(Suppl 4): 179-185
Katz, G.; Snow, A.L. 2013: Fluorescence-activated cell sorting-based quantitation of T cell receptor restimulation-induced cell death in activated, primary human T cells. Methods in Molecular Biology 979: 15-23
Baret, J.-C.; Miller, O.J.; Taly, V.; Ryckelynck, M.ël.; El-Harrak, A.; Frenz, L.; Rick, C.; Samuels, M.L.; Hutchison, J.B.; Agresti, J.J.; Link, D.R.; Weitz, D.A.; Griffiths, A.D. 2009: Fluorescence-activated droplet sorting (FADS): efficient microfluidic cell sorting based on enzymatic activity. Lab on a Chip 9(13): 1850-1858
Marion-Poll, L.; Montalban, E.; Munier, A.; Hervé, D.; Girault, J-Antoine. 2014: Fluorescence-activated sorting of fixed nuclei: a general method for studying nuclei from specific cell populations that preserves post-translational modifications. European Journal of Neuroscience 39(7): 1234-1244
Lennon, A.M.; Attin, T.; Martens, S.; Buchalla, W. 2009: Fluorescence-aided caries excavation (FACE), caries detector, and conventional caries excavation in primary teeth. Pediatric Dentistry 31(4): 316-319
Mohajerani, P.; Koch, M.; Thürmel, K.; Haller, B.; Rummeny, E.J.; Ntziachristos, V.; Meier, R. 2014: Fluorescence-aided tomographic imaging of synovitis in the human finger. Radiology 272(3): 865-874
Feng, F.; Duan, X.; Wang, S. 2009: Fluorescence-amplifying assay for irradiated DNA lesions using water-soluble conjugated polymers. Macromolecular Rapid Communications 30(3): 147-151
Adusumilli, P.S.; Gholami, S.; Chun, Y.S.; Mullerad, M.; Chan, M.K.; Yu, Z.; Ben-Porat, L.; Rusch, V.W.; Fong, Y. 2011: Fluorescence-assisted cytological testing (FACT): Ex Vivo viral method for enhancing detection of rare cancer cells in body fluids. Molecular Medicine 17(7-8): 628-634
Chen, S-Ching.; Wang, M-Che.; Wang, W-Hsin.; Lee, C-Chia.; Yang, T-Fen.; Lin, C-Fu.; Wang, J-To.; Liao, C-Hsiang.; Chang, C-Chang.; Chen, M-Hsiung.; Shih, Y-Hsin.; Hsu, S.P.C. 2015: Fluorescence-assisted visualization of facial nerve during mastoidectomy: A novel technique for preventing iatrogenic facial paralysis. Auris Nasus Larynx 42(2): 113-118
Dragan, A.; Graham, A.E.; Geddes, C.D. 2014: Fluorescence-based Broad Dynamic Range Viscosity Probes. Journal of Fluorescence 24(2): 397-402
Bassani, T.; Dias, P.; Branco, G.; Silva, W.J.d.; Vieira Neto, H.; Schneider, F.K. 2012: Fluorescence-based Lab-on-Chip spot design for improved signal detection. Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference 2012: 543-546
Jørgensen, S.; Johansen, T.H.; Dyhring, T. 2008: Fluorescence-based Tl(+)-influx assays as a novel approach for characterization of small-conductance Ca(2+)-activated K (+) channel modulators. Methods in Molecular Biology 491: 257-266
Zellner, M.; Babeluk, R.; Diestinger, M.; Pirchegger, P.; Skeledzic, S.; Oehler, R. 2008: Fluorescence-based Western blotting for quantitation of protein biomarkers in clinical samples. Electrophoresis 29(17): 3621-3627
McGouran, J.F.; Kramer, H.B.; Mackeen, M.M.; di Gleria, K.; Altun, M.; Kessler, B.M. 2012: Fluorescence-based active site probes for profiling deubiquitinating enzymes. Organic and Biomolecular Chemistry 10(17): 3379-3383
Yoshimoto, K.; Atsumi, H.; Saito, S.; Okuma, M.; Maeda, M.; Nagasaki, Y. 2007: Fluorescence-based affinity labeling of nucleobase by hydrogen-bond forming metal complex. Nucleic Acids Symposium Series 51: 303-304
Warren-Smith, S.C.; Heng, S.; Ebendorff-Heidepriem, H.; Abell, A.D.; Monro, T.M. 2011: Fluorescence-based aluminum ion sensing using a surface-functionalized microstructured optical fiber. Langmuir 27(9): 5680-5685
Blank, K.; De Cremer, G.; Hofkens, J. 2009: Fluorescence-based analysis of enzymes at the single-molecule level. Biotechnology Journal 4(4): 465-479
Boncompain, G.; Perez, F. 2013: Fluorescence-based analysis of trafficking in mammalian cells. Methods in Cell Biology 118: 179-194
Dal Pozzo, F.; Andrei, G.; Daelemans, D.; Winkler, M.; Piette, J.; De Clercq, E.; Snoeck, R. 2008: Fluorescence-based antiviral assay for the evaluation of compounds against vaccinia virus, varicella zoster virus and human cytomegalovirus. Journal of Virological Methods 151(1): 66-73
Chevillotte, M.; Schubert, A.; Mertens, T.; von Einem, J. 2009: Fluorescence-based assay for phenotypic characterization of human cytomegalovirus polymerase mutations regarding drug susceptibility and viral replicative fitness. Antimicrobial Agents and ChemoTherapy 53(9): 3752-3761
Tang, G.-Q.; Anand, V.S.; Patel, S.S. 2011: Fluorescence-based assay to measure the real-time kinetics of nucleotide incorporation during transcription elongation. Journal of Molecular Biology 405(3): 666-678
An, W.F. 2009: Fluorescence-based assays. Methods in Molecular Biology 486: 97-107
Leonardo, S.M.; Harnett, M.M.; Lerch-Gaggl, A.F.; Gauld, S.B. 2009: Fluorescence-based assays as tools for understanding immunologic processes. Annals of Allergy Asthma and Immunology: Official Publication of the American College of Allergy Asthma and Immunology 102(1): 84-90
Spessotto, P.; Lacrima, K.; Nicolosi, P.A.; Pivetta, E.; Scapolan, M.; Perris, R. 2009: Fluorescence-based assays for in vitro analysis of cell adhesion and migration. Methods in Molecular Biology 522: 221-250
Bechstedt, S.; Brouhard, G.J. 2013: Fluorescence-based assays for microtubule architecture. Methods in Cell Biology 115: 343-354
Bednarczyk, D. 2010: Fluorescence-based assays for the assessment of drug interaction with the human transporters OATP1B1 and OATP1B3. Analytical Biochemistry 405(1): 50-58
Guckenberger, D.J.; Berthier, E.; Young, E.W.K.; Beebe, D.J. 2014: Fluorescence-based assessment of plasma-induced hydrophilicity in microfluidic devices via Nile Red adsorption and depletion. Analytical Chemistry 86(15): 7258-7263
Farhan Ul Haque, M.; Nadalig, T.; Bringel, Fçoise.; Schaller, H.; Vuilleumier, Séphane. 2013: Fluorescence-based bacterial bioreporter for specific detection of methyl halide emissions in the environment. Applied and Environmental Microbiology 79(21): 6561-6567
Strianese, M.; Staiano, M.; Ruggiero, G.; Labella, T.; Pellecchia, C.; D'Auria, S. 2012: Fluorescence-based biosensors. Methods in Molecular Biology 875: 193-216
Anonymous 2013: Fluorescence-based biosensors from concepts to applications. Introduction. Progress in molecular biology and translational science 113: xv-xviii
Dudek, M.M.; Kent, N.; Gustafsson, K.M.; Lindahl, T.L.; Killard, A.J. 2011: Fluorescence-based blood coagulation assay device for measuring activated partial thromboplastin time. Analytical Chemistry 83(1): 319-328
Zawada, D.G.; Mazel, C.H. 2014: Fluorescence-based classification of Caribbean coral reef organisms and substrates. Plos one 9(1): E84570
Tamura, M.; Matsui, H.; Hyodo, I.; Tanaka, J.; Miwa, Y. 2014: Fluorescence-based co-culture of normal and cancerous cells as an indicator of therapeutic effects in cancer. European Journal of Pharmaceutical Sciences: Official Journal of the European Federation for Pharmaceutical Sciences 63: 1-7
Sempere, L.F.; Preis, M.; Yezefski, T.; Ouyang, H.; Suriawinata, A.A.; Silahtaroglu, A.; Conejo-Garcia, J.R.; Kauppinen, S.; Wells, W.; Korc, M. 2010: Fluorescence-based codetection with protein markers reveals distinct cellular compartments for altered MicroRNA expression in solid tumors. Clinical Cancer Research: An Official Journal of the American Association for Cancer Research 16(16): 4246-4255
Stojanovic, N.; Murphy, L.D.; Wagner, B.D. 2010: Fluorescence-based comparative binding studies of the supramolecular host properties of PAMAM dendrimers using anilinonaphthalene sulfonates: unusual host-dependent fluorescence titration behavior. Sensors 10(4): 4053-4070
Mondal, B.; Kumar, P.; Ghosh, P.; Kalita, A. 2011: Fluorescence-based detection of nitric oxide in aqueous and methanol media using a copper(II) complex. Chemical Communications 47(10): 2964-2966
Kim, T.; Noh, M.; Lee, H.; Joo, S.-W.; Lee, S.Y.; Lee, K. 2009: Fluorescence-based detection of point mutation in DNA sequences by CdS quantum dot aggregation. Journal of Physical Chemistry. B 113(43): 14487-14490
Pianowski, Z.L.; Winssinger, N. 2007: Fluorescence-based detection of single nucleotide permutation in DNA via catalytically templated reaction. Chemical Communications 37: 3820-3822
Petushkova, N.A.; Lisitsa, A.V.; Pozdnev, V.F.; Karuzina, I.I. 2010: Fluorescence-based determination of enzyme activity of recombinant CYPS1B1 (sterol 14alpha-demethylase) with coumarin derivatives. Biomeditsinskaia Khimiia 56(1): 132-137
Lacroix, L.; Séosse, A.él.; Mergny, J.-L. 2011: Fluorescence-based duplex-quadruplex competition test to screen for telomerase RNA quadruplex ligands. Nucleic Acids Research 39(4): E21
Steiner, S.; Pfannschmidt, T. 2009: Fluorescence-based electrophoretic mobility shift assay in the analysis of DNA-binding proteins. Methods in Molecular Biology 479: 273-289
Sakuma, S.; Yu, J.Y.H.; Quang, T.; Hiwatari, K.-I.; Kumagai, H.; Kao, S.; Holt, A.; Erskind, J.; McClure, R.; Siuta, M.; Kitamura, T.; Tobita, E.; Koike, S.; Wilson, K.; Richards-Kortum, R.; Liu, E.; Washington, K.; Omary, R.; Gore, J.C.; Pham, W. 2015: Fluorescence-based endoscopic imaging of Thomsen-Friedenreich antigen to improve early detection of colorectal cancer. International Journal of Cancer 136(5): 1095-1103
Naughton, B.J.; Han, D.D.; Gu, H.H. 2011: Fluorescence-based evaluation of shRNA efficacy. Analytical Biochemistry 417(1): 162-164
Guo, J.; Sachs, F.; Meng, F. 2014: Fluorescence-based force/tension sensors: a novel tool to visualize mechanical forces in structural proteins in live cells. Antioxidants and Redox Signaling 20(6): 986-999
Welsch, F.G.; Stöwe, K.; Maier, W.F. 2011: Fluorescence-based high throughput screening for noble metal-free and platinum-poor anode catalysts for the direct methanol fuel cell. Acs Combinatorial Science 13(5): 518-529
Ye, Y.; Stivers, J.T. 2010: Fluorescence-based high-throughput assay for human DNA (cytosine-5)-methyltransferase 1. Analytical Biochemistry 401(1): 168-172
Talwar, S.; Lynch, J.W.; Gilbert, D.F. 2013: Fluorescence-based high-throughput functional profiling of ligand-gated ion channels at the level of single cells. Plos one 8(3): E58479
Soikkeli, A.; Kurkela, M.; Hirvonen, J.; Yliperttula, M.; Finel, M. 2011: Fluorescence-based high-throughput screening assay for drug interactions with UGT1A6. Assay and Drug Development Technologies 9(5): 496-502
Podolska, K.; Sedlak, D.; Bartunek, P.; Svoboda, P. 2014: Fluorescence-based high-throughput screening of dicer cleavage activity. Journal of Biomolecular Screening 19(3): 417-426
Avalos Vizcarra, I.; Emge, P.; Miermeister, P.; Chabria, M.; Konradi, R.; Vogel, V.; Möller, J. 2013: Fluorescence-based in situ assay to probe the viability and growth kinetics of surface-adhering and suspended recombinant bacteria. Biointerphases 8(1): 22
Bowles, M.; Lally, J.; Fadden, A.J.; Mouilleron, S.; Hammonds, T.; McDonald, N.Q. 2012: Fluorescence-based incision assay for human XPF-ERCC1 activity identifies important elements of DNA junction recognition. Nucleic Acids Research 40(13): E101
Ashraf, S.; Carrillo-Carrion, C.; Zhang, Q.; Soliman, M.G.; Hartmann, R.; Pelaz, B.; Del Pino, P.; Parak, W.J. 2014: Fluorescence-based ion-sensing with colloidal particles. Current Opinion in Pharmacology 18: 98-103
Kreklywich, C.N.; Smith, P.P.; Jones, C.Baca.; Cornea, A.; Orloff, S.L.; Streblow, D.N. 2014: Fluorescence-based laser capture microscopy technology facilitates identification of critical in vivo cytomegalovirus transcriptional programs. Methods in Molecular Biology 1119: 217-237
Ma, X.; Chan, E.C.Y. 2010: Fluorescence-based liver microsomal assay for screening of pharmaceutical reactive metabolites using a glutathione conjugated 96-well plate. Bioconjugate Chemistry 21(1): 46-55
Pan, Z.; Zhao, X.; Brotto, M. 2012: Fluorescence-based measurement of store-operated calcium entry in live cells: from cultured cancer cell to skeletal muscle fiber. Journal of Visualized Experiments: Jove 2012(60)
Gurramkonda, C.; Mupparapu, K.; Abouzeid, R.; Kostov, Y.; Rao, G. 2014: Fluorescence-based method and a device for rapid detection of microbial contamination. PDA Journal of Pharmaceutical Science and Technology 68(2): 164-171
Liebert, A.; Milej, D.; Weigl, W.; Gerega, A.; Kacprzak, M.; Maniewski, R. 2013: Fluorescence-based method for assessment of blood-brain barrier disruption. Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference 2013: 3040-3042
Gimenez, T.; Braga, M.M.; Raggio, D.P.; Deery, C.; Ricketts, D.N.; Mendes, F.M. 2013: Fluorescence-based methods for detecting caries lesions: systematic review, meta-analysis and sources of heterogeneity. Plos one 8(4): E60421
Allali-Hassani, A.; Wasney, G.A.; Siarheyeva, A.; Hajian, T.; Arrowsmith, C.H.; Vedadi, M. 2012: Fluorescence-based methods for screening writers and readers of histone methyl marks. Journal of Biomolecular Screening 17(1): 71-84
Hernick, M. 2011: Fluorescence-based methods to assay inhibitors of lipopolysaccharide synthesis. Methods in Molecular Biology 739: 123-133
Sabulski, M.J.; Fura, J.M.; Pires, M.M. 2014: Fluorescence-based monitoring of PAD4 activity via a pro-fluorescence substrate analog. Journal of Visualized Experiments: Jove 93: E52114
Granstedt, A.E.; Szpara, M.L.; Kuhn, B.; Wang, S.S.-H.; Enquist, L.W. 2009: Fluorescence-based monitoring of in vivo neural activity using a circuit-tracing pseudorabies virus. Plos one 4(9): E6923
Jun, B.-H.; Kang, H.; Lee, Y.-S.; Jeong, D.H. 2012: Fluorescence-based multiplex protein detection using optically encoded microbeads. Molecules 17(3): 2474-2490
Tam, S.; Clavijo, A.; Engelhard, E.K.; Thurmond, M.C. 2009: Fluorescence-based multiplex real-time RT-PCR arrays for the detection and serotype determination of foot-and-mouth disease virus. Journal of Virological Methods 161(2): 183-191
McQuade, L.E.; Lippard, S.J. 2010: Fluorescence-based nitric oxide sensing by Cu(II) complexes that can be trapped in living cells. Inorganic Chemistry 49(16): 7464-7471
Sugawara, T.; Ito, K.; Shiroishi, M.; Tokuda, N.; Asada, H.; Yurugi-Kobayashi, T.; Shimamura, T.; Misaka, T.; Nomura, N.; Murata, T.; Abe, K.; Iwata, S.; Kobayashi, T. 2009: Fluorescence-based optimization of human bitter taste receptor expression in Saccharomyces cerevisiae. Biochemical and Biophysical Research Communications 382(4): 704-710
Lim, C.H.; Cho, H.M.; Choo, J.; Neff, S.; Jungbauer, A.; Kumada, Y.; Katoh, S.; Lee, E.K. 2009: Fluorescence-based peptide screening using ligand peptides directly conjugated to a thiolated glass surface. Biomedical Microdevices 11(3): 663-669
Duncan, L.M.; Timms, R.T.; Zavodszky, E.; Cano, F.; Dougan, G.; Randow, F.; Lehner, P.J. 2012: Fluorescence-based phenotypic selection allows forward genetic screens in haploid human cells. Plos one 7(6): E39651
De Jong, A.; Schuurman, K.G.; Rodenko, B.; Ovaa, H.; Berkers, C.R. 2012: Fluorescence-based proteasome activity profiling. Methods in Molecular Biology 803: 183-204
Böhringer, M.; Wiesmüller, L. 2010: Fluorescence-based quantification of pathway-specific DNA double-strand break repair activities: a powerful method for the analysis of genome destabilizing mechanisms. Sub-Cellular Biochemistry 50: 297-306
Menon, M.B.; Ronkina, N.; Schwermann, J.; Kotlyarov, A.; Gaestel, M. 2009: Fluorescence-based quantitative scratch wound healing assay demonstrating the role of MAPKAPK-2/3 in fibroblast migration. Cell Motility and the Cytoskeleton 66(12): 1041-1047
Fischer, M.; Friedrichs, G.; Lachnit, T. 2014: Fluorescence-based quasicontinuous and in situ monitoring of biofilm formation dynamics in natural marine environments. Applied and Environmental Microbiology 80(12): 3721-3728
Wu, H.; Zhou, Z.; Zhang, Y.; Chen, T.; Wang, H.; Lu, W. 2012: Fluorescence-based rapid assessment of the biological stability of landfilled municipal solid waste. Bioresource Technology 110: 174-183
Meder, H.é; Baumstummler, A.; Chollet, R.; Barrier, S.; Kukuczka, M.; Olivieri, F.éd.ér.; Welterlin, E.; Beguin, V.; Ribault, S.éb. 2012: Fluorescence-based rapid detection of microbiological contaminants in water samples. Thescientificworldjournal 2012: 234858
Ireno, I.C.; Baumann, C.; Stöber, R.; Hengstler, J.G.; Wiesmüller, L. 2014: Fluorescence-based recombination assay for sensitive and specific detection of genotoxic carcinogens in human cells. Archives of Toxicology 88(5): 1141-1159
Schiedel, M.; Marek, M.; Lancelot, J.; Karaman, B.; Almlöf, I.; Schultz, J.; Sippl, W.; Pierce, R.J.; Romier, C.; Jung, M. 2015: Fluorescence-based screening assays for the NAD⁺-dependent histone deacetylase smSirt2 from Schistosoma mansoni. Journal of Biomolecular Screening 20(1): 112-121
Donato, M.T.; Gómez-Lechón, M.J.é 2013: Fluorescence-based screening of cytochrome P450 activities in intact cells. Methods in Molecular Biology 987: 135-148
Charles, P.T.; Adams, A.A.; Howell, P.B.; Trammell, S.A.; Deschamps, J.R.; Kusterbeck, A.W. 2010: Fluorescence-based sensing of 2,4,6-trinitrotoluene (TNT) using a multi-channeled poly(methyl methacrylate) (PMMA) microimmunosensor. Sensors 10(1): 876-889
Warren-Smith, S.C.; Afshar, S.; Monro, T.M. 2010: Fluorescence-based sensing with optical nanowires: a generalized model and experimental validation. Optics Express 18(9): 9474-9485
Bozkurt, S.S.; Ayata, S.; Kaynak, I. 2009: Fluorescence-based sensor for Pb(II) using tetra-(3-bromo-4-hydroxyphenyl)porphyrin in liquid and immobilized medium. Spectrochimica Acta. Part a Molecular and Biomolecular Spectroscopy 72(4): 880-883
Van Wijk, S.J.L.; Fiskin, E.; Putyrski, M.; Pampaloni, F.; Hou, J.; Wild, P.; Kensche, T.; Grecco, H.E.; Bastiaens, P.; Dikic, I. 2012: Fluorescence-based sensors to monitor localization and functions of linear and K63-linked ubiquitin chains in cells. Molecular Cell 47(5): 797-809
Ohadi, K.; Aghamohseni, H.; Legge, R.L.; Budman, H.M. 2014: Fluorescence-based soft sensor for at situ monitoring of Chinese hamster ovary cell cultures. Biotechnology and Bioengineering 111(8): 1577-1586
Elshereef, R.; Budman, H.; Moresoli, C.; Legge, R.L. 2008: Fluorescence-based soft-sensor for monitoring beta-lactoglobulin and alpha-lactalbumin solubility during thermal aggregation. Biotechnology and Bioengineering 99(3): 567-577
Leppänen, A.; Cummings, R.D. 2010: Fluorescence-based solid-phase assays to study glycan-binding protein interactions with glycoconjugates. Methods in Enzymology 478: 241-264
Maric, D.; Barker, J.L. 2005: Fluorescence-based sorting of neural stem cells and progenitors. Current Protocols in Neuroscience Chapter 3: Unit 3.18
Wall, R.A.; Barton, J.K. 2012: Fluorescence-based surface magnifying chromoendoscopy and optical coherence tomography endoscope. Journal of Biomedical Optics 17(8): 086003
Duverger, J.E.; Béland, J.; Maguy, A.; Adegbindin, M.M.; Comtois, P. 2011: Fluorescence-based system for measurement of electrophysiological changes in stretched cultured cardiomyocytes. Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference 2011: 35-38
Donato, L.J.; Noy, N. 2010: Fluorescence-based technique for analyzing retinoic acid. Methods in Molecular Biology 652: 177-187
Sanford, L.N.; Wittwer, C.T. 2014: Fluorescence-based temperature control for polymerase chain reaction. Analytical Biochemistry 448: 75-81
Norwood, D.P.; Vinches, C.; Anderson, J.F.; Reed, W.F. 1997: Fluorescence-based test of fiber-optic continuity. Applied Optics 36(12): 2529-2532
Zhang, R.; Monsma, F. 2010: Fluorescence-based thermal shift assays. Current Opinion in Drug Discovery and Development 13(4): 389-402
Duarte, T.M.; Carrondo, M.J.; Alves, P.M.; Teixeira, A.P. 2011: Fluorescence-based tools to improve biopharmaceutical process development. Bmc Proceedings 5(Suppl 8): O5
Widengren, J. 2010: Fluorescence-based transient state monitoring for biomolecular spectroscopy and imaging. Journal of the Royal Society Interface 7(49): 1135-1144
Knapman, A.; Connor, M. 2015: Fluorescence-based, high-throughput assays for μ-opioid receptor activation using a membrane potential-sensitive dye. Methods in Molecular Biology 1230: 177-185
Dommisch, H.; Peus, K.; Kneist, S.; Krause, F.; Braun, A.; Hedderich, Jürgen.; Jepsen, Søren.; Eberhard, Jörg. 2008: Fluorescence-controlled Er:YAG laser for caries removal in permanent teeth: a randomized clinical trial. European Journal of Oral Sciences 116(2): 170-176
Cooper, J.; Harris, J.M. 2014: Fluorescence-correlation spectroscopy study of molecular transport within reversed-phase chromatographic particles compared to planar model surfaces. Analytical Chemistry 86(23): 11766-11772
Wang, H.; Bryant, C.; LeGros, M.; Wang, X.; Cramer, S.P. 2012: Fluorescence-detected X-ray magnetic circular dichroism of well-defined Mn(II) and Ni(II) doped in MgO crystals: credential evaluation for measurements on biological samples. Journal of Physical Chemistry. a 116(41): 10082-10089
Kingsbury, J.S.; Laue, T.M. 2011: Fluorescence-detected sedimentation in dilute and highly concentrated solutions. Methods in Enzymology 492: 283-304
Tekavec, P.F.; Lott, G.A.; Marcus, A.H. 2007: Fluorescence-detected two-dimensional electronic coherence spectroscopy by acousto-optic phase modulation. Journal of Chemical Physics 127(21): 214307
Oja, S.M.; Guerrette, J.P.; David, M.R.; Zhang, B. 2014: Fluorescence-enabled electrochemical microscopy with dihydroresorufin as a fluorogenic indicator. Analytical Chemistry 86(12): 6040-6048
Rodriguez-Lorenzo, L.; Fytianos, K.; Blank, F.; von Garnier, C.; Rothen-Rutishauser, B.; Petri-Fink, A. 2014: Fluorescence-encoded gold nanoparticles: library design and modulation of cellular uptake into dendritic cells. Small 10(7): 1341-1350
Feng, X.J.; Tian, P.Z.; Xu, Z.; Chen, S.F.; Wong, M.S. 2013: Fluorescence-enhanced chemosensor for metal cation detection based on pyridine and carbazole. Journal of Organic Chemistry 78(22): 11318-11325
Liu, Y.; Ai, K.; Yuan, Q.; Lu, L. 2011: Fluorescence-enhanced gadolinium-doped zinc oxide quantum dots for magnetic resonance and fluorescence imaging. Biomaterials 32(4): 1185-1192
Li, H.; Sun, X. 2011: Fluorescence-enhanced nucleic acid detection: using coordination polymer colloids as a sensing platform. Chemical Communications 47(9): 2625-2627
Zhang, P.; Wang, H.; Liu, H.; Li, M. 2010: Fluorescence-enhanced organogels and mesomorphic superstructure based on hydrazine derivatives. Langmuir 26(12): 10183-10190
Zhang, Y.; Tian, J.; Zhai, J.; Luo, Y.; Wang, L.; Li, H.; Sun, X. 2011: Fluorescence-enhanced potassium ions detection based on inherent quenching ability of deoxyguanosines and K(+)-induced conformational transition of G-rich ssDNA from duplex to G-quadruplex structures. Journal of Fluorescence 21(5): 1841-1846
Manny, T.B.; Hemal, A.K. 2014: Fluorescence-enhanced robotic radical cystectomy using unconjugated indocyanine green for pelvic lymphangiography, tumor marking, and mesenteric angiography: the initial clinical experience. Urology 83(4): 824-829
Manny, T.B.; Patel, M.; Hemal, A.K. 2014: Fluorescence-enhanced robotic radical prostatectomy using real-time lymphangiography and tissue marking with percutaneous injection of unconjugated indocyanine green: the initial clinical experience in 50 patients. European Urology 65(6): 1162-1168
Kunz, R.; Timpmann, Kõu.; Southall, J.; Cogdell, R.J.; Köhler, Jürgen.; Freiberg, A. 2013: Fluorescence-excitation and emission spectra from LH2 antenna complexes of Rhodopseudomonas acidophila as a function of the sample preparation conditions. Journal of Physical Chemistry. B 117(40): 12020-12029
Fong, S.M.B.; Lee, M.K.; Adusumilli, P.S.; Kelly, K.J. 2009: Fluorescence-expressing viruses allow rapid identification and separation of rare tumor cells in spiked samples of human whole blood. Surgery 146(3): 498-505
Pautke, C.; Bauer, F.; Tischer, T.; Kreutzer, K.; Weitz, J.; Kesting, M.; Hölzle, F.; Kolk, A.; Stürzenbaum, S.R.; Wolff, K-Dietrich. 2009: Fluorescence-guided bone resection in bisphosphonate-associated osteonecrosis of the jaws. Journal of Oral and Maxillofacial Surgery: Official Journal of the American Association of Oral and Maxillofacial Surgeons 67(3): 471-476
Pautke, C.; Bauer, F.; Otto, S.; Tischer, T.; Steiner, T.; Weitz, J.; Kreutzer, K.; Hohlweg-Majert, B.; Wolff, K-Dietrich.; Hafner, S.; Mast, G.; Ehrenfeld, M.; Stürzenbaum, S.R.; Kolk, A. 2011: Fluorescence-guided bone resection in bisphosphonate-related osteonecrosis of the jaws: first clinical results of a prospective pilot study. Journal of Oral and Maxillofacial Surgery: Official Journal of the American Association of Oral and Maxillofacial Surgeons 69(1): 84-91
Smith, L.G.F.; Nakano, I. 2012: Fluorescence-guided brain tumor surgery. World Neurosurgery 78(6): 559-564
Schlenker, B.; Gratzke, C.; Seitz, M.; Bader, M.J.; Reich, O.; Schneede, P.; Hungerhuber, E.; Stief, C.G.; Tilki, D. 2011: Fluorescence-guided laser therapy for penile carcinoma and precancerous lesions: long-term follow-up. Urologic Oncology 29(6): 788-793
Babu, R.; Adamson, D.Cory. 2012: Fluorescence-guided malignant glioma resections. Current Drug Discovery Technologies 9(4): 256-267
Prosst, R.L.; Weiss, J.; Hupp, L.; Willeke, F.; Post, S. 2010: Fluorescence-guided minimally invasive parathyroidectomy: clinical experience with a novel intraoperative detection technique for parathyroid glands. World Journal of Surgery 34(9): 2217-2222
Iftimia, N.; Iyer, A.K.; Hammer, D.X.; Lue, N.; Mujat, M.; Pitman, M.; Ferguson, R.D.; Amiji, M. 2012: Fluorescence-guided optical coherence tomography imaging for colon cancer screening: a preliminary mouse study. Biomedical Optics Express 3(1): 178-191
Cortnum, Søren.; Laursen, Ré.Johannes. 2012: Fluorescence-guided resection of gliomas. Danish Medical Journal 59(8): A4460
Su, X.; Huang, Q-Feng.; Chen, H-Lin.; Chen, J. 2014: Fluorescence-guided resection of high-grade gliomas: a systematic review and meta-analysis. Photodiagnosis and Photodynamic Therapy 11(4): 451-458
Tonn, Jörg-Christian.; Stummer, W. 2008: Fluorescence-guided resection of malignant gliomas using 5-aminolevulinic acid: practical use, risks, and pitfalls. Clinical Neurosurgery 55: 20-26
Utsuki, S.; Miyoshi, N.; Oka, H.; Miyajima, Y.; Shimizu, S.; Suzuki, S.; Fujii, K. 2007: Fluorescence-guided resection of metastatic brain tumors using a 5-aminolevulinic acid-induced protoporphyrin IX: pathological study. Brain Tumor Pathology 24(2): 53-55
Tykocki, T.; Michalik, Rław.; Bonicki, Wław.; Nauman, Pł. 2012: Fluorescence-guided resection of primary and recurrent malignant gliomas with 5-aminolevulinic acid. Preliminary results. Neurologia i Neurochirurgia Polska 46(1): 47-51
Bernal-García, L.M.; Cabezudo-Artero, J.M.; Ortega-Martínez, M.; Fernández-Portales, I.; Giménez-Pando, J.; Ugarriza-Echebarrieta, L.F.; Mata-Gómez, J.; Molina-Orozco, M.; Malca-Balcázar, J.F. 2010: Fluorescence-guided resection with 5-aminolevulinic acid of an intramedullary tumor. Neurocirugia 21(4): 312-316
Piquer, J.é; Llácer, J.L.; Rovira, V.; Riesgo, P.; Rodriguez, R.; Cremades, A. 2014: Fluorescence-guided surgery and biopsy in gliomas with an exoscope system. Biomed Research International 2014: 207974
Hefti, M. 2013: Fluorescence-guided surgery for brain tumors. Cns Oncology 2(1): 67-74
Miwa, S.; Hiroshima, Y.; Yano, S.; Zhang, Y.; Matsumoto, Y.; Uehara, F.; Yamamoto, M.; Kimura, H.; Hayashi, K.; Bouvet, M.; Tsuchiya, H.; Hoffman, R.M. 2014: Fluorescence-guided surgery improves outcome in an orthotopic osteosarcoma nude-mouse model. Journal of Orthopaedic Research: Official Publication of the Orthopaedic Research Society 32(12): 1596-1601
Hiroshima, Y.; Maawy, A.; Zhang, Y.; Sato, S.; Murakami, T.; Yamamoto, M.; Uehara, F.; Miwa, S.; Yano, S.; Momiyama, M.; Chishima, T.; Tanaka, K.; Bouvet, M.; Endo, I.; Hoffman, R.M. 2014: Fluorescence-guided surgery in combination with UVC irradiation cures metastatic human pancreatic cancer in orthotopic mouse models. Plos one 9(6): E99977
Belloch, J.é P.; Rovira, V.; Llácer, J.L.; Riesgo, P.A.; Cremades, A. 2014: Fluorescence-guided surgery in high grade gliomas using an exoscope system. Acta Neurochirurgica 156(4): 653-660
Okuda, T.; Kataoka, K.; Yabuuchi, T.; Yugami, H.; Kato, A. 2010: Fluorescence-guided surgery of metastatic brain tumors using fluorescein sodium. Journal of Clinical Neuroscience: Official Journal of the Neurosurgical Society of Australasia 17(1): 118-121
Miwa, S.; Matsumoto, Y.; Hiroshima, Y.; Yano, S.; Uehara, F.; Yamamoto, M.; Zhang, Y.; Kimura, H.; Hayashi, K.; Yamamoto, N.; Bouvet, M.; Sugimoto, N.; Tsuchiya, H.; Hoffman, R.M. 2014: Fluorescence-guided surgery of prostate cancer bone metastasis. Journal of Surgical Research 192(1): 124-133
Beez, T.; Sarikaya-Seiwert, S.; Steiger, H-Jakob.; Hänggi, D. 2014: Fluorescence-guided surgery with 5-aminolevulinic acid for resection of brain tumors in children--a technical report. Acta Neurochirurgica 156(3): 597-604
Cortnum, Søren.; Laursen, R. 2013: Fluorescence-guided surgery with 5-aminolevulinic acid for resection of malignant gliomas--a new treatment modality. Ugeskrift for Laeger 175(9): 570-573
Dunne, E.M.; Murad, C.; Sudigdoadi, S.; Fadlyana, E.; Tarigan, R.; Indriyani, S.Ayu.Kompiyang.; Pell, C.L.; Watts, E.; Satzke, C.; Hinds, J.; Dewi, N.Eka.; Yani, F.Fitry.; Rusmil, K.; Mulholland, E.Kim.; Kartasasmita, C. 2018: Carriage of Streptococcus pneumoniae, Haemophilus influenzae, Moraxella catarrhalis, and Staphylococcus aureus in Indonesian children: A cross-sectional study. Plos one 13(4): E0195098
Malmström, P-Uno.; Hedelin, H.; Thomas, Y.Kloster.; Thompson, G.J.; Durrant, H.; Furniss, J. 2009: Fluorescence-guided transurethral resection of bladder cancer using hexaminolevulinate: analysis of health economic impact in Sweden. Scandinavian Journal of Urology and Nephrology 43(3): 192-198
Hermann, G.G.; Mogensen, K.; Carlsson, S.; Marcussen, N.; Duun, S. 2011: Fluorescence-guided transurethral resection of bladder tumours reduces bladder tumour recurrence due to less residual tumour tissue in Ta/T1 patients: a randomized two-centre study. Bju International 108(8 Pt 2): E297-E303
Ho, C.C.K.; Tan, W.P.; Pathmanathan, R.; Tan, W.K.; Tan, H.M. 2013: Fluorescence-in-situ-hybridization in the surveillance of urothelial cancers: can use of cystoscopy or ureteroscopy be deferred?. Asian Pacific Journal of Cancer Prevention: Apjcp 14(7): 4057-4059
Sims, P.A.; Hardin, J.D. 2007: Fluorescence-integrated transmission electron microscopy images: integrating fluorescence microscopy with transmission electron microscopy. Methods in Molecular Biology 369: 291-308
Bordello, J.; Sánchez, M.I.; Vázquez, M.E.; Mascareñas, J.é L.; Al-Soufi, W.; Novo, M. 2015: Fluorescence-labeled bis-benzamidines as fluorogenic DNA minor-groove binders: photophysics and binding dynamics. Chemistry 21(4): 1609-1619
Hutchinson, C.L.; Troy, T.L.; Sevick-Muraca, E.M. 1996: Fluorescence-lifetime determination in tissues or other scattering media from measurement of excitation and emission kinetics. Applied Optics 35(13): 2325-2332
Nakajima, T.; Sano, K.; Sato, K.; Watanabe, R.; Harada, T.; Hanaoka, H.; Choyke, P.L.; Kobayashi, H. 2014: Fluorescence-lifetime molecular imaging can detect invisible peritoneal ovarian tumors in bloody ascites. Cancer Science 105(3): 308-314
Stefano, G.; Renna, L.; Brandizzi, F. 2012: Fluorescence-microscopy screening and next-generation sequencing: useful tools for the identification of genes involved in organelle integrity. Journal of Visualized Experiments: Jove 2012(62)
Daikoku, S.; Ono, Y.; Ohtake, A.; Hasegawa, Y.; Fukusaki, E.; Suzuki, K.; Ito, Y.; Goto, S.; Kanie, O. 2011: Fluorescence-monitored zero dead-volume nanoLC-microESI-QIT-TOF MS for analysis of fluorescently tagged glycosphingolipids. Analyst 136(5): 1046-1050
Singh, A.; Yip, W.-T.; Halterman, R.L. 2012: Fluorescence-on response via CB7 binding to viologen-dye pseudorotaxanes. Organic Letters 14(16): 4046-4049
Nomura, W.; Ohashi, N.; Okuda, Y.; Narumi, T.; Ikura, T.; Ito, N.; Tamamura, H. 2011: Fluorescence-quenching screening of protein kinase C ligands with an environmentally sensitive fluorophore. Bioconjugate Chemistry 22(5): 923-930
Rantanen, T.; Järvenpää, M.-L.; Vuojola, J.; Kuningas, K.; Soukka, T. 2008: Fluorescence-quenching-based enzyme-activity assay by using photon upconversion. Angewandte Chemie 47(20): 3811-3813
Vuojola, J.; Riuttamäki, T.; Kulta, E.; Arppe, R.; Soukka, T. 2012: Fluorescence-quenching-based homogeneous caspase-3 activity assay using photon upconversion. Analytica Chimica Acta 725: 67-73
Qian, J.; Jiang, L.; Cai, F.; Wang, D.; He, S. 2011: Fluorescence-surface enhanced Raman scattering co-functionalized gold nanorods as near-infrared probes for purely optical in vivo imaging. Biomaterials 32(6): 1601-1610
Tobimatsu, Y.; Davidson, C.L.; Grabber, J.H.; Ralph, J. 2011: Fluorescence-tagged monolignols: synthesis, and application to studying in vitro lignification. Biomacromolecules 12(5): 1752-1761
Roy, B.; Copenhaver, G.P.; von Arnim, A.G. 2011: Fluorescence-tagged transgenic lines reveal genetic defects in pollen growth--application to the eIF3 complex. Plos one 6(3): E17640
Chen, Y.; Qin, J.; Chen, Z.W. 2008: Fluorescence-topographic NSOM directly visualizes peak-valley polarities of GM1/GM3 rafts in cell membrane fluctuations. Journal of Lipid Research 49(10): 2268-2275
Es-Salah-Lamoureux, Z.; Fougere, R.; Xiong, P.Y.; Robertson, G.A.; Fedida, D. 2010: Fluorescence-tracking of activation gating in human ERG channels reveals rapid S4 movement and slow pore opening. Plos one 5(5): E10876
Sellix, M.T.; Currie, J.; Menaker, M.; Wijnen, H. 2010: Fluorescence/luminescence circadian imaging of complex tissues at single-cell resolution. Journal of Biological Rhythms 25(3): 228-232
Ciorba, S.; Fontana, F.; Ciancaleoni, G.; Caronna, T.; Mazzucato, U.; Spalletti, A. 2009: Fluorescence/photoisomerization competition in trans-aza-1,2-diarylethenes. Journal of Fluorescence 19(5): 759-768
Kovrigin, E.L. 2014: Fluorescence2D: software for accelerated acquisition and analysis of two-dimensional fluorescence spectra. Plos one 9(7): E101227
Alper, T. 1946: Fluorescene fatigue. Nature 158: 451
Swinburne, A.N.; Paterson, M.J.; Beeby, A.; Steed, J.W. 2010: Fluorescent 'twist-on' sensing by induced-fit anion stabilisation of a planar chromophore. Chemistry 16(9): 2714-2718
Moffat, J.R.; Smith, D.K. 2011: Fluorescent 'two-faced' polymer wafers with embedded pyrene-functionalised gelator nanofibres. Chemical Communications 47(43): 11864-11866
Seuánez, H.; Robinson, J.; Martin, D.E.; Short, R.V. 1976: Fluorescent (F) bodies in the spermatozoa of man and the great apes. Cytogenetics and Cell Genetics 17(6): 317-326
Silvestri, B.; Guarnieri, D.; Luciani, G.; Costantini, A.; Netti, P.A.; Branda, F. 2012: Fluorescent (rhodamine), folate decorated and doxorubicin charged, PEGylated nanoparticles synthesis. Journal of Materials Science. Materials in Medicine 23(7): 1697-1704
Zhao, L.; Xia, W.; Yang, C. 2014: Fluorescent 1:2 demultiplexer and half-subtractor based on the hydrolysis of N-salicylidene-3-aminopyridine. Spectrochimica Acta. Part a Molecular and Biomolecular Spectroscopy 117: 397-401
Park, Y.D.; Park, J.H.; Hur, M.G.; Kim, S.W.; Min, J.-J.; Park, S.-H.; Yoo, Y.J.; Yoon, Y.-J.; Yang, S.D. 2012: Fluorescent 2-styrylpyridazin-3(2H)-one derivatives as probes targeting amyloid-beta plaques in Alzheimer's disease. Bioorganic and Medicinal Chemistry Letters 22(12): 4106-4110
Nunes, A.; Podinovskaia, M.; Leite, A.; Gameiro, P.; Zhou, T.; Ma, Y.; Kong, X.; Schaible, U.E.; Hider, R.C.; Rangel, M. 2010: Fluorescent 3-hydroxy-4-pyridinone hexadentate iron chelators: intracellular distribution and the relevance to antimycobacterial properties. Journal of Biological Inorganic Chemistry: Jbic: a Publication of the Society of Biological Inorganic Chemistry 15(6): 861-877
Ishii, A.; Yamaguchi, Y.; Nakata, N. 2011: Fluorescent 3-methylene-2,3-dihydrochalcogenophenes incorporated in a rigid dibenzobarrelene skeleton. Organic Letters 13(14): 3702-3705
Vial, L.; Dumy, P. 2007: Fluorescent ADP sensing in physiological conditions based on cooperative inhibition of a miniature esterase. Journal of the American Chemical Society 129(16): 4884-4885
Guo, C.; Irudayaraj, J. 2011: Fluorescent Ag clusters via a protein-directed approach as a Hg(II) ion sensor. Analytical Chemistry 83(8): 2883-2889
Chew, K. 1980: Fluorescent Antibody Test for Rabies Screening is Questioned. Canadian Veterinary Journal 21(11): 321
Grinevich, V.; Kolleker, A.; Eliava, M.; Takada, N.; Takuma, H.; Fukazawa, Y.; Shigemoto, R.; Kuhl, D.; Waters, J.; Seeburg, P.H.; Osten, P. 2009: Fluorescent Arc/Arg3.1 indicator mice: a versatile tool to study brain activity changes in vitro and in vivo. Journal of Neuroscience Methods 184(1): 25-36
Ganguly, M.; Mondal, C.; Pal, J.; Pal, A.; Negishi, Y.; Pal, T. 2014: Fluorescent Au(I)@Ag₂/Ag₃ giant cluster for selective sensing of mercury(II) ion. Dalton Transactions 43(30): 11557-11565
Guha, S.; Roy, S.; Banerjee, A. 2011: Fluorescent Au@Ag core-shell nanoparticles with controlled shell thickness and Hg(II) sensing. Langmuir 27(21): 13198-13205
Wen, J.; Dong, L.; Tian, J.; Jiang, T.; Yang, Y.-Q.; Huang, Z.; Yu, X.-Q.; Hu, C.-W.; Hu, S.; Yang, T.-Z.; Wang, X.-L. 2013: Fluorescent BINOL-based sensor for thorium recognition and a density functional theory investigation. Journal of Hazardous Materials 263 Pt 2: 638-642
Ojida, A.; Sakamoto, T.; Inoue, M.-a.; Fujishima, S.-h.; Lippens, G.; Hamachi, I. 2009: Fluorescent BODIPY-based Zn(II) complex as a molecular probe for selective detection of neurofibrillary tangles in the brains of Alzheimer's disease patients. Journal of the American Chemical Society 131(18): 6543-6548
Mikhalyov, I.; Gretskaya, N.; Johansson, L.B.-A. 2009: Fluorescent BODIPY-labelled GM1 gangliosides designed for exploring lipid membrane properties and specific membrane-target interactions. Chemistry and Physics of Lipids 159(1): 38-44
Anonymous 1881: Fluorescent Bodies. Science 2(36): 94
Manderville, R.A.; Omumi, A.; Rankin née Schlitt, K.M.; Wilson, K.A.; Millen, A.L.; Wetmore, S.D. 2012: Fluorescent C-linked C8-aryl-guanine probe for distinguishing syn from anti structures in duplex DNA. Chemical Research in Toxicology 25(6): 1271-1282
Haas, A.K.; von Schwerin, C.; Matscheko, D.; Brinkmann, U. 2010: Fluorescent Citrine-IgG fusion proteins produced in mammalian cells. Mabs 2(6): 648-661
Wagenknecht, H.-A. 2008: Fluorescent DNA base modifications and substitutes: multiple fluorophore labeling and the DETEQ concept. Annals of the new York Academy of Sciences 1130: 122-130
Koo, C.-K.; Wang, S.; Gaur, R.L.; Samain, F.; Banaei, N.; Kool, E.T. 2011: Fluorescent DNA chemosensors: identification of bacterial species by their volatile metabolites. Chemical Communications 47(41): 11435-11437
Guo, W.; Orbach, R.; Mironi-Harpaz, I.; Seliktar, D.; Willner, I. 2013: Fluorescent DNA hydrogels composed of nucleic acid-stabilized silver nanoclusters. Small 9(22): 3748-3752
Ozhalici-Unal, H.; Armitage, B.A. 2009: Fluorescent DNA nanotags based on a self-assembled DNA tetrahedron. Acs Nano 3(2): 425-433
Stadler, A.L.; Delos Santos, J.O.; Stensrud, E.S.; Dembska, A.; Silva, G.L.; Liu, S.; Shank, N.I.; Kunttas-Tatli, E.; Sobers, C.J.; Gramlich, P.M.E.; Carell, T.; Peteanu, L.A.; McCartney, B.M.; Armitage, B.A. 2011: Fluorescent DNA nanotags featuring covalently attached intercalating dyes: synthesis, antibody conjugation, and intracellular imaging. Bioconjugate Chemistry 22(8): 1491-1502
Dai, N.; Kool, E.T. 2011: Fluorescent DNA-based enzyme sensors. Chemical Society Reviews 40(12): 5756-5770
Tang, H.; Duan, X.; Feng, X.; Liu, L.; Wang, S.; Li, Y.; Zhu, D. 2009: Fluorescent DNA-poly(phenylenevinylene) hybrid hydrogels for monitoring drug release. Chemical Communications 6: 641-643
Turkewitsch, P.; Wandelt, B.; Darling, G.D.; Powell, W.S. 1998: Fluorescent Functional Recognition Sites through Molecular Imprinting. a Polymer-Based Fluorescent Chemosensor for Aqueous cAMP. Analytical Chemistry 70(13): 2771
Kuder, K.J.; Kieć-Kononowicz, K. 2014: Fluorescent GPCR ligands as new tools in pharmacology-update, years 2008-early 2014. Current Medicinal Chemistry 21(34): 3962-3975
Chai, F.; Wang, T.; Li, L.; Liu, H.; Zhang, L.; Su, Z.; Wang, C. 2010: Fluorescent Gold Nanoprobes for the Sensitive and Selective Detection for Hg. Nanoscale Research Letters 5(11): 1856-1860
Tomasch, M.; Schwed, J.S.; Kuczka, K.; Meyer Dos Santos, S.; Harder, S.; Nüsing, R.M.; Paulke, A.; Stark, H. 2012: Fluorescent Human EP3 Receptor Antagonists. Acs Medicinal Chemistry Letters 3(9): 774-779
Farias, P.M.A.; Santos, B.S.; Thomaz, A.é A.d.; Ferreira, R.; Menezes, F.D.; Cesar, C.L.; Fontes, A. 2008: Fluorescent II-Vi semiconductor quantum dots in living cells: nonlinear microspectroscopy in an optical tweezers system. Journal of Physical Chemistry. B 112(9): 2734-2737
Luria, Y.; Raichlin, D.; Benhar, I. 2012: Fluorescent IgG fusion proteins made in E. coli. Mabs 4(3): 373-384
Geurts, R.é; de Jong, H. 2013: Fluorescent in Situ Hybridization (FISH) on pachytene chromosomes as a tool for genome characterization. Methods in Molecular Biology 1069: 15-24
Strepparava, N.; Wahli, T.; Segner, H.; Polli, B.; Petrini, O. 2012: Fluorescent in Situ hybridization: a new tool for the direct identification and detection of F. psychrophilum. Plos one 7(11): E49280
Mai, K.T.; Ahmed, I.; Levac, J.; Nguyen, B.N. 2011: Fluorescent In-situ Hybridization Study of Non-papillary Oncocytic/Eosinophilic Renal Cell Carcinoma. Applied Immunohistochemistry and Molecular Morphology: Aimm 19(1): 82-91
Kaiser, T.E.; Stepanenko, V.; Würthner, F. 2009: Fluorescent J-aggregates of core-substituted perylene bisimides: studies on structure-property relationship, nucleation-elongation mechanism, and sergeants-and-soldiers principle. Journal of the American Chemical Society 131(19): 6719-6732
McElroy, M.; Hayashi, K.; Garmy-Susini, B.; Kaushal, S.; Varner, J.A.; Moossa, A.R.; Hoffman, R.M.; Bouvet, M. 2009: Fluorescent LYVE-1 antibody to image dynamically lymphatic trafficking of cancer cells in vivo. Journal of Surgical Research 151(1): 68-73
Zhang, J.; Fu, Y.; Lakowicz, J.R. 2011: Fluorescent Metal Nanoshells: Lifetime-Tunable Molecular Probes in Fluorescent Cell Imaging. Journal of Physical Chemistry. C Nanomaterials and Interfaces 115(15): 7255-7260
Devi, G.S.; Arora, N.; Rajkumar, S.V.; Edison, E.S.; Srivastava, A.; Jayandharan, G.R. 2013: Fluorescent PCR-based gene dose analysis for detection of deletion mutations in carriers of haemophilia. Haemophilia: the Official Journal of the World Federation of Hemophilia 19(6): E377-E380
De Silva, A.P.; Moody, T.S.; Wright, G.D. 2009: Fluorescent PET (photoinduced electron transfer) sensors as potent analytical tools. Analyst 134(12): 2385-2393
Zhang, Q.; Mochalin, V.N.; Neitzel, I.; Knoke, I.Y.; Han, J.; Klug, C.A.; Zhou, J.G.; Lelkes, P.I.; Gogotsi, Y. 2011: Fluorescent PLLA-nanodiamond composites for bone tissue engineering. Biomaterials 32(1): 87-94
Maurin, M.; Vurth, L.; Vial, J.-C.; Baldeck, P.; Marder, S.R.; Van der Sanden, B.; Stephan, O. 2009: Fluorescent Pluronic nanodots for in vivo two-photon imaging. Nanotechnology 20(23): 235102
Raut, S.; Rich, R.; Akopova, I.; Thyrhaug, E.; Shtoyko, T.; Shumilov, D.; Gryczynski, Z.; Gryczynski, I. 2012: Fluorescent Polyelectrolyte Capped Silver Nanoclusters: Optimization and Spectroscopic Evaluation. Chemical Physics Letters 549: 72-76
Wu, J.; Shen, Q.; Wang, Y.; Zhao, D.; Peng, C.; Li, J.-X. 2014: Fluorescent Probes for Subcellular Localization during Osteclast Formation. Acs Medicinal Chemistry Letters 5(8): 911-914
Anonymous 1961: Fluorescent Protein and Antibody Tracing. Canadian Medical Association Journal 85(21): 1158-1159
Crump, D.; Chiu, S.; Trudeau, V.L.; Kennedy, S.W. 2008: Fluorescent RNA arbitrarily primed polymerase chain reaction. a new differential display approach to detect contaminant-induced alterations of gene expression in wildlife species. Methods in Molecular Biology 410: 15-27
Sharma, A.K.; Plant, J.J.; Rangel, A.E.; Meek, K.N.; Anamisis, A.J.; Hollien, J.; Heemstra, J.M. 2014: Fluorescent RNA labeling using self-alkylating ribozymes. Acs Chemical Biology 9(8): 1680-1684
Kallifatidis, B.; Borovička, J.; Stránská, J.; Drábek, J.ří; Mills, D.K. 2014: Fluorescent Random Amplified Microsatellites (F-RAMS) analysis of mushrooms as a forensic investigative tool. Forensic Science International. Genetics 9: 25-32
Terahara, K.; Yamamoto, T.; Mitsuki, Y-Ya.; Shibusawa, K.; Ishige, M.; Mizukoshi, F.; Kobayashi, K.; Tsunetsugu-Yokota, Y. 2011: Fluorescent Reporter Signals, EGFP, and DsRed, Encoded in HIV-1 Facilitate the Detection of Productively Infected Cells and Cell-Associated Viral Replication Levels. Frontiers in Microbiology 2: 280
Huang, X.; Aguilar, Z.P.; Li, H.; Lai, W.; Wei, H.; Xu, H.; Xiong, Y. 2013: Fluorescent Ru(phen)3(2+)-doped silica nanoparticles-based ICTS sensor for quantitative detection of enrofloxacin residues in chicken meat. Analytical Chemistry 85(10): 5120-5128
Hedgethorne, K.; Webb, M.R. 2012: Fluorescent SSB as a reagentless biosensor for single-stranded DNA. Methods in Molecular Biology 922: 219-233
Simpson, R.J. 2006: Fluorescent Staining of Proteins with SYPRO Ruby. Csh Protocols 2006(5)
Cheong, W.-L.; Tsang, M.-S.; So, P.-K.; Chung, W.-H.; Leung, Y.-C.; Chan, P.-H. 2014: Fluorescent TEM-1 β-lactamase with wild-type activity as a rapid drug sensor for in vitro drug screening. Bioscience Reports 34(5)
Minto, W.L. 1956: Fluorescent Thorium Mineral. Science 123(3193): 419
Kochubey, V.I.; Volkova, E.K.; Konyukhova, J.G. 2014: Fluorescent ZnCdS nanoparticles for glucose sensing. Journal of Biomedical Optics 19(1): 011020
Martí-Centelles, V.; Burguete, M.I.; Galindo, F.; Izquierdo, M.A.; Kumar, D.K.; White, A.J.P.; Luis, S.V.; Vilar, R.ón. 2012: Fluorescent acridine-based receptors for H2PO4(-). Journal of Organic Chemistry 77(1): 490-500
Lee, W.-E.; Jin, Y.-J.; Park, L.-S.; Kwak, G. 2012: Fluorescent actuator based on microporous conjugated polymer with intramolecular stack structure. Advanced Materials 24(41): 5604-5609
Raposeiras-Roubín, S.; Rodiño-Janeiro, B.K.; Paradela-Dobarro, B.; Grigorian-Shamagian, L.; García-Acuña, J.é M.; Aguiar-Souto, P.; Jacquet-Hervet, M.; Reino-Maceiras, M.ía.V.; González-Juanatey, J.é R.; Álvarez, E. 2013: Fluorescent advanced glycation end products and their soluble receptor: the birth of new plasmatic biomarkers for risk stratification of acute coronary syndrome. Plos one 8(9): E74302
Sexton, K.; Tichauer, K.; Samkoe, K.S.; Gunn, J.; Hoopes, P.J.; Pogue, B.W. 2013: Fluorescent affibody peptide penetration in glioma margin is superior to full antibody. Plos one 8(4): E60390
Mouillac, B.; Manning, M.; Durroux, T. 2008: Fluorescent agonists and antagonists for vasopressin/oxytocin G protein-coupled receptors: usefulness in ligand screening assays and receptor studies. Mini Reviews in Medicinal Chemistry 8(10): 996-1005
Ikeda, H.; Ueno, A. 2009: Fluorescent alpha-cyclodextrin as a chemosensor for halomethanes. Chemical Communications 28: 4281-4283
Zhou, W.; Zhang, S.; Li, G.; Zhao, Y.; Shi, Z.; Liu, H.; Li, Y. 2009: Fluorescent alteration on a bistable molecular shuttle. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 10(12): 2066-2072
Aguilà, J.F. 1967: Fluorescent aluminium indicators derived from substituted coumarins. Talanta 14(10): 1195-1196
Sholokh, M.; Zamotaiev, O.M.; Das, R.; Postupalenko, V.Y.; Richert, L.; Dujardin, D.; Zaporozhets, O.A.; Pivovarenko, V.G.; Klymchenko, A.S.; Mély, Y. 2015: Fluorescent amino acid undergoing excited state intramolecular proton transfer for site-specific probing and imaging of peptide interactions. Journal of Physical Chemistry. B 119(6): 2585-2595
Katritzky, A.R.; Narindoshvili, T. 2009: Fluorescent amino acids: advances in protein-extrinsic fluorophores. Organic and Biomolecular Chemistry 7(4): 627-634
Wu, L.; Burgess, K. 2008: Fluorescent amino- and thiopyronin dyes. Organic Letters 10(9): 1779-1782
Paira, T.K.; Saha, A.; Banerjee, S.; Das, T.; Das, P.; Jana, N.R.; Mandal, T.K. 2014: Fluorescent amphiphilic PEG-peptide-PEG triblock conjugate micelles for cell imaging. Macromolecular Bioscience 14(7): 929-935
Wang, X.; Guo, Y.; Li, D.; Chen, H.; Sun, R.-c. 2012: Fluorescent amphiphilic cellulose nanoaggregates for sensing trace explosives in aqueous solution. Chemical Communications 48(45): 5569-5571
Amar, C. 2014: Fluorescent amplified fragment length polymorphism (fAFLP) analysis of Listeria monocytogenes. Methods in Molecular Biology 1157: 95-101
Desai, M. 2007: Fluorescent amplified fragment length polymorphism genotyping of bacterial species. Methods in Molecular Biology 396: 407-418
Yamada, R.; Takeshita, T.; Hiraizumi, M.; Shinohe, D.; Ohta, Y.; Sakurai, K. 2014: Fluorescent analog of OSW-1 and its cellular localization. Bioorganic and Medicinal Chemistry Letters 24(7): 1839-1842
Sinkeldam, R.W.; Greco, N.J.; Tor, Y. 2010: Fluorescent analogs of biomolecular building blocks: design, properties, and applications. Chemical Reviews 110(5): 2579-2619
Hentschel, F.; Sasse, F.; Lindel, T. 2012: Fluorescent analogs of the marine natural product psammaplin A: synthesis and biological activity. Organic and Biomolecular Chemistry 10(35): 7120-7133
Lesner, A.; Karna, N.; Psurski, M.; Lęgowska, A.; Wysocka, M.; Guzow, K.; Sieradzan, A.; Sieńczyk, M.; Trzonkowski, P.; Pikuła, M.ł; Zieliński, M.; Kosikowska, P.; Łukajtis, R.ła.ł; Łęgowska, M.; Dębowski, D.; Wiczk, W.ła.; Rolka, K. 2014: Fluorescent analogs of trypsin inhibitor SFTI-1 isolated from sunflower seeds--synthesis and applications. Biopolymers 102(1): 124-135
New, E.J.; Roche, C.éc.; Madawala, R.; Zhang, J.Z.; Hambley, T.W. 2009: Fluorescent analogues of quinoline reveal amine ligand loss from cis and trans platinum(II) complexes in cancer cells. Journal of Inorganic Biochemistry 103(8): 1120-1125
Takada, T.; Tanaka, C.; Nakamura, M.; Yamana, K. 2010: Fluorescent analysis of excess electron transfer through DNA. Bioorganic and Medicinal Chemistry Letters 20(3): 994-996
Simakova, O.; Arispe, N.J. 2011: Fluorescent analysis of the cell-selective Alzheimer's disease aβ Peptide surface membrane binding: influence of membrane components. International Journal of Alzheimer's Disease 2011: 917629
Date, A.; Pasini, P.; Daunert, S. 2010: Fluorescent and bioluminescent cell-based sensors: strategies for their preservation. Advances in Biochemical Engineering/Biotechnology 117: 57-75
Vidi, P-Alexandre.; Watts, V.J. 2009: Fluorescent and bioluminescent protein-fragment complementation assays in the study of G protein-coupled receptor oligomerization and signaling. Molecular Pharmacology 75(4): 733-739
Fegade, U.; Tayade, S.; Chaitanya, G.K.; Attarde, S.; Kuwar, A. 2014: Fluorescent and chromogenic receptor bearing amine and hydroxyl functionality for iron (III) detection in aqueous solution. Journal of Fluorescence 24(3): 675-681
Zhou, Y.; Xu, Z.; Yoon, J. 2011: Fluorescent and colorimetric chemosensors for detection of nucleotides, FAD and NADH: highlighted research during 2004-2010. Chemical Society reviews 40(5): 2222-2235
Wang, W.; Zhang, Y.; Yang, Q.; Sun, M.; Fei, X.; Song, Y.; Zhang, Y.; Li, Y. 2013: Fluorescent and colorimetric magnetic microspheres as nanosensors for Hg2+ in aqueous solution prepared by a sol-gel grafting reaction and host-guest interaction. Nanoscale 5(11): 4958-4965
Chen, X.; Zhou, Y.; Peng, X.; Yoon, J. 2010: Fluorescent and colorimetric probes for detection of thiols. Chemical Society Reviews 39(6): 2120-2135
Cheng, X.; Li, S.; Jia, H.; Zhong, A.; Zhong, C.; Feng, J.; Qin, J.; Li, Z. 2012: Fluorescent and colorimetric probes for mercury(II): tunable structures of electron donor and π-conjugated bridge. Chemistry 18(6): 1691-1699
Kim, H.N.; Ren, W.X.; Kim, J.S.; Yoon, J. 2012: Fluorescent and colorimetric sensors for detection of lead, cadmium, and mercury ions. Chemical Society Reviews 41(8): 3210-3244
Zeng, Z.; Torriero, A.A.J.; Bond, A.M.; Spiccia, L. 2010: Fluorescent and electrochemical sensing of polyphosphate nucleotides by ferrocene functionalised with two Zn(II)(TACN)(pyrene) complexes. Chemistry 16(30): 9154-9163
Shi, D.; Sfintes, G.; Laursen, B.W.; Simonsen, J.B. 2012: Fluorescent and highly stable unimodal DMPC based unilamellar vesicles formed by spontaneous curvature. Langmuir 28(23): 8608-8615
Josan, J.S.; De Silva, C.R.; Yoo, B.; Lynch, R.M.; Pagel, M.D.; Vagner, J.; Hruby, V.J. 2011: Fluorescent and lanthanide labeling for ligand screens, assays, and imaging. Methods in Molecular Biology 716: 89-126
Chen, X.; Tian, X.; Shin, I.; Yoon, J. 2011: Fluorescent and luminescent probes for detection of reactive oxygen and nitrogen species. Chemical Society Reviews 40(9): 4783-4804
Paek, K.; Chung, S.; Cho, C-Hee.; Kim, B.J. 2011: Fluorescent and pH-responsive diblock copolymer-coated core-shell CdSe/ZnS particles for a color-displaying, ratiometric pH sensor. Chemical Communications 47(37): 10272-10274
Tallury, P.; Santra, S.; Sharma, P.; Matos, B.Maria.De.Castro.; Bengtsson, N.; Biswas, S.; Saha, A.K.; Walter, G.A.; Scott, E.A.; Moudgil, B.M. 2011: Fluorescent and paramagnetic chitosan nanoparticles that exhibit high magnetic resonance relaxivity: synthesis, characterization and in vitro studies. Journal of Biomedical Nanotechnology 7(5): 724-729
Zeng, Y.; Liao, S.; Dai, J.; Fu, Z. 2012: Fluorescent and photochromic bifunctional molecular switch based on a stable crystalline metal-viologen complex. Chemical Communications 48(95): 11641-11643
Yuan, H.; Cho, H.; Chen, H.H.; Panagia, M.; Sosnovik, D.E.; Josephson, L. 2013: Fluorescent and radiolabeled triphenylphosphonium probes for imaging mitochondria. Chemical Communications 49(88): 10361-10363
Durgadas, C.V.; Sharma, C.P.; Sreenivasan, K. 2011: Fluorescent and superparamagnetic hybrid quantum clusters for magnetic separation and imaging of cancer cells from blood. Nanoscale 3(11): 4780-4787
Liu, Y.; Jiang, X.; Yang, Z.; Zheng, X.; Liu, J.; Zhou, T. 2010: Fluorescent and ultraviolet-visible spectroscopy studies on the antioxidation and DNA binding properties of binuclear Tb(III) complexes. Applied Spectroscopy 64(9): 980-985
Hoffman, R.M. 2014: Fluorescent angiogenesis models using gelfoam® implanted in transgenic mice expressing fluorescent proteins. Methods in Molecular Biology 1135: 213-222
Abromson, D.; Bickel, W.S. 1991: Fluorescent angular scattering emissions from dye-filled fibers. Applied Optics 30(21): 2980-2984
Sridharan, R.; Zuber, J.; Connelly, S.M.; Mathew, E.; Dumont, M.E. 2014: Fluorescent approaches for understanding interactions of ligands with G protein coupled receptors. Biochimica et Biophysica Acta 1838(1 Part A): 15-33
Li, M.; Zhou, X.; Ding, W.; Guo, S.; Wu, N. 2013: Fluorescent aptamer-functionalized graphene oxide biosensor for label-free detection of mercury(II). Biosensors and Bioelectronics 41: 889-893
Li, X.; Ma, K.; Zhu, S.; Yao, S.; Liu, Z.; Xu, B.; Yang, B.; Tian, W. 2014: Fluorescent aptasensor based on aggregation-induced emission probe and graphene oxide. Analytical Chemistry 86(1): 298-303
Xu, Z.; Sato, Y.; Nishizawa, S.; Teramae, N. 2011: Fluorescent aptasensors based on conformational adaptability of abasic site-containing aptamers in combination with abasic site-binding ligands. Biosensors and Bioelectronics 26(12): 4733-4738
Wang, Z.; Zheng, S.; Cai, J.; Wang, P.; Feng, J.; Yang, X.; Zhang, L.; Ji, M.; Wu, F.; He, N.; Wan, N. 2013: Fluorescent artificial enzyme-linked immunoassay system based on Pd/C nanocatalyst and fluorescent chemodosimeter. Analytical Chemistry 85(23): 11602-11609
Mariscal, A.; Lopez-Gigosos, R.M.; Carnero-Varo, M.; Fernandez-Crehuet, J. 2009: Fluorescent assay based on resazurin for detection of activity of disinfectants against bacterial biofilm. Applied Microbiology and Biotechnology 82(4): 773-783
Despotovic, D.; Vojcic, L.; Prodanovic, R.; Martinez, R.; Maurer, K.-H.; Schwaneberg, U. 2012: Fluorescent assay for directed evolution of perhydrolases. Journal of Biomolecular Screening 17(6): 796-805
Liu, Y.; Wang, Y.; Jin, J.; Wang, H.; Yang, R.; Tan, W. 2009: Fluorescent assay of DNA hybridization with label-free molecular switch: reducing background-signal and improving specificity by using carbon nanotubes. Chemical Communications 6: 665-667
Cox, D.P.; White, C.C.; Kavanagh, T.J. 2011: Fluorescent assessment of intracellular calcium in individual cells. Methods in Molecular Biology 758: 239-251
Deka, S.; Falqui, A.; Bertoni, G.; Sangregorio, C.; Poneti, G.; Morello, G.; De Giorgi, M.; Giannini, C.; Cingolani, R.; Manna, L.; Cozzoli, P.Davide. 2009: Fluorescent asymmetrically cobalt-tipped CdSe@CdS core@shell nanorod heterostructures exhibiting room-temperature ferromagnetic behavior. Journal of the American Chemical Society 131(35): 12817-12828
Sakamoto, R.; Kusaka, S.; Kitagawa, Y.; Kishida, M.-a.; Hayashi, M.; Takara, Y.; Tsuchiya, M.; Kakinuma, J.; Takeda, T.; Hirata, K.; Ogino, T.; Kawahara, K.; Yagi, T.; Ikehira, S.; Nakamura, T.; Isomura, M.; Toyama, M.; Ichikawa, S.; Okumura, M.; Nishihara, H. 2012: Fluorescent azadipyrrinato zinc(II) complex: hybridisation with a dipyrrinato ligand. Dalton Transactions 41(46): 14035-14037
Yoshino, J.; Kano, N.; Kawashima, T. 2013: Fluorescent azobenzenes and aromatic aldimines featuring an N-B interaction. Dalton Transactions 42(45): 15826-15834
Grabowska-Joachimiak, A.; Kwolek, D.; Kula, A.; Marciniuk, P. 2012: Fluorescent banding pattern and species-specific DNA marker in Rumex thyrsiflorus Fingerh. Cytogenetic and Genome Research 137(1): 70-77
Wattenburg, B. 1994: Fluorescent barriers to infiltration. Science 265(5176): 1184-1185
Golde, T.; Schuldt, C.; Schnauß, J.ör.; Strehle, D.; Glaser, M.; Käs, J. 2013: Fluorescent beads disintegrate actin networks. Physical Review. e Statistical Nonlinear and Soft Matter Physics 88(4): 044601
Rohacova, J.; Marín, M.L.; Martinez-Romero, A.; Diaz, L.; O'Connor, J.é-E.; Gomez-Lechon, M.J.; Donato, M.T.; Castell, J.é V.; Miranda, M.A. 2009: Fluorescent benzofurazan-cholic acid conjugates for in vitro assessment of bile acid uptake and its modulation by drugs. Chemmedchem 4(3): 466-472
E, Y.; Ma, X.; Zhang, Y.; Zhang, Y.; Duan, R.; Ji, H.; Li, J.; Che, Y.; Zhao, J. 2014: Fluorescent bilayer nanocoils assembled from an asymmetric perylene diimide molecule with ultrasensitivity for amine vapors. Chemical Communications 50(88): 13596-13599
Zhang, D.; Carr, D.J.; Alocilja, E.C. 2009: Fluorescent bio-barcode DNA assay for the detection of Salmonella enterica serovar Enteritidis. Biosensors and Bioelectronics 24(5): 1377-1381
Miwa, Y.; Tanaka, J.; Yoshida, N. 2007: Fluorescent bioimaging using degraton probes. Tanpakushitsu Kakusan Koso. Protein Nucleic Acid Enzyme 52(13 Suppl): 1563-1567
Huang, S.; Li, R.; Qu, Y.; Shen, J.; Liu, J. 2009: Fluorescent biological label for recognizing human ovarian tumor cells based on fluorescent nanoparticles. Journal of Fluorescence 19(6): 1095-1101
Fillafer, C.; Friedl, D.S.; Wirth, M.; Gabor, F. 2008: Fluorescent bionanoprobes to characterize cytoadhesion and cytoinvasion. Small 4(5): 627-633
Hong, Y.; Xiong, H.; Lam, J.W.Y.; Häussler, M.; Liu, J.; Yu, Y.; Zhong, Y.; Sung, H.H.Y.; Williams, I.D.; Wong, K.S.; Tang, B.Z. 2010: Fluorescent bioprobes: structural matching in the docking processes of aggregation-induced emission fluorogens on DNA surfaces. Chemistry 16(4): 1232-1245
Morris, M.C. 2013: Fluorescent biosensors - probing protein kinase function in cancer and drug discovery. Biochimica et Biophysica Acta 1834(7): 1387-1395
Prével, C.; Kurzawa, L.; Van, T.Nhu.Ngoc.; Morris, M.C. 2014: Fluorescent biosensors for drug discovery new tools for old targets--screening for inhibitors of cyclin-dependent kinases. European Journal of Medicinal Chemistry 88: 74-88
Prével, C.; Pellerano, M.; Van, T.N.N.; Morris, M.C. 2014: Fluorescent biosensors for high throughput screening of protein kinase inhibitors. Biotechnology Journal 9(2): 253-265
Aye-Han, N-Nwe.; Ni, Q.; Zhang, J. 2009: Fluorescent biosensors for real-time tracking of post-translational modification dynamics. Current Opinion in Chemical Biology 13(4): 392-397
Martins, I.; Kepp, O.; Menger, L.; Michaud, M.äe.; Adjemian, S.; Sukkurwala, A.Q.; Vacchelli, E.; Galluzzi, L.; Kroemer, G. 2013: Fluorescent biosensors for the detection of HMGB1 release. Methods in Molecular Biology 1004: 43-56
Morris, M.C. 2010: Fluorescent biosensors of intracellular targets from genetically encoded reporters to modular polypeptide probes. Cell Biochemistry and Biophysics 56(1): 19-37
Webb, M.R. 2010: Fluorescent biosensors to investigate helicase activity. Methods in Molecular Biology 587: 13-27
Kunzelmann, S.; Solscheid, C.; Webb, M.R. 2014: Fluorescent biosensors: design and application to motor proteins. Experientia Supplementum 105: 25-47
Chen, S.; Fahmi, N.E.; Bhattacharya, C.; Wang, L.; Jin, Y.; Benkovic, S.J.; Hecht, S.M. 2013: Fluorescent biphenyl derivatives of phenylalanine suitable for protein modification. Biochemistry 52(47): 8580-8589
He, Y.; Wang, X.; Sun, J.; Jiao, S.; Chen, H.; Gao, F.; Wang, L. 2014: Fluorescent blood glucose monitor by hemin-functionalized graphene quantum dots based sensing system. Analytica Chimica Acta 810: 71-78
Parkin, S.; Coomber, R. 2010: Fluorescent blue lights, injecting drug use and related health risk in public conveniences: findings from a qualitative study of micro-injecting environments. Health and Place 16(4): 629-637
Galbraith, E.; Fyles, T.M.; Marken, F.; Davidson, M.G.; James, T.D. 2008: Fluorescent boron bis(phenolate) with association response to chloride and dissociation response to fluoride. Inorganic Chemistry 47(14): 6236-6244
Frath, D.; Poirel, A.; Ulrich, G.; De Nicola, A.; Ziessel, R. 2013: Fluorescent boron(III) iminocoumarins (Boricos). Chemical Communications 49(43): 4908-4910
Xu, Z.; Uddin, K.Mohammad.Ahsan.; Kamra, T.; Schnadt, J.; Ye, L. 2014: Fluorescent boronic acid polymer grafted on silica particles for affinity separation of saccharides. Acs Applied Materials and Interfaces 6(3): 1406-1414
Xu, Z.; Deng, P.; Tang, S.; Li, J. 2014: Fluorescent boronic acid terminated polymer grafted silica particles synthesized via click chemistry for affinity separation of saccharides. Materials Science and Engineering. C Materials for Biological Applications 40: 228-234
Ghormade, V.; Gholap, H.; Kale, S.; Kulkarni, V.; Bhat, S.; Paknikar, K. 2015: Fluorescent cadmium telluride quantum dots embedded chitosan nanoparticles: a stable, biocompatible preparation for bio-imaging. Journal of Biomaterials Science. Polymer Edition 26(1): 42-56
Atta, S.; Jana, A.; Ananthakirshnan, R.; Narayana Dhuleep, P.S. 2010: Fluorescent caged compounds of 2,4-dichlorophenoxyacetic acid (2,4-d): photorelease technology for controlled release of 2,4-D. Journal of Agricultural and Food Chemistry 58(22): 11844-11851
Hiscock, J.R.; Caltagirone, C.; Light, M.E.; Hursthouse, M.B.; Gale, P.A. 2009: Fluorescent carbazolylurea anion receptors. Organic and Biomolecular Chemistry 7(9): 1781-1783
Wang, G.; Pan, X.; Gu, L.; Ren, W.; Cheng, W.; Kumar, J.N.; Liu, Y. 2014: Fluorescent carbon dot (C-dot) nanoclusters. Nanotechnology 25(37): 375601
Gonçalves, H.; Esteves da Silva, J.C.G. 2010: Fluorescent carbon dots capped with PEG200 and mercaptosuccinic acid. Journal of Fluorescence 20(5): 1023-1028
Dekaliuk, M.O.; Viagin, O.; Malyukin, Y.V.; Demchenko, A.P. 2014: Fluorescent carbon nanomaterials: "quantum dots" or nanoclusters?. Physical Chemistry Chemical Physics: Pccp 16(30): 16075-16084
Jeong, C.Jin.; Roy, A.Kumer.; Kim, S.Han.; Lee, J-Eun.; Jeong, J.Hoon.; In, I.; Park, S.Young. 2014: Fluorescent carbon nanoparticles derived from natural materials of mango fruit for bio-imaging probes. Nanoscale 6(24): 15196-15202
Guo, Y.; Zhang, L.; Zhang, S.; Yang, Y.; Chen, X.; Zhang, M. 2015: Fluorescent carbon nanoparticles for the fluorescent detection of metal ions. Biosensors and Bioelectronics 63: 61-71
Kumar, V.; Toffoli, G.; Rizzolio, F. 2013: Fluorescent carbon nanoparticles in medicine for cancer therapy. Acs Medicinal Chemistry Letters 4(11): 1012-1013
Nakao, H.; Tokonami, S.; Yamamoto, Y.; Shiigi, H.; Takeda, Y. 2014: Fluorescent carbon nanowires made by pyrolysis of DNA nanofibers and plasmon-assisted emission enhancement of their fluorescence. Chemical Communications 50(80): 11887-11890
Ruan, S.; Qian, J.; Shen, S.; Chen, J.; Zhu, J.; Jiang, X.; He, Q.; Yang, W.; Gao, H. 2014: Fluorescent carbonaceous nanodots for noninvasive glioma imaging after angiopep-2 decoration. Bioconjugate Chemistry 25(12): 2252-2259
Qian, J.; Ruan, S.; Cao, X.; Cun, X.; Chen, J.; Shen, S.; Jiang, X.; He, Q.; Zhu, J.; Gao, H. 2014: Fluorescent carbonaceous nanospheres as biological probe for noninvasive brain imaging. Journal of Colloid and Interface Science 436: 227-233
Faucon, A.; Lenk, R.; Hémez, J.; Gautron, E.; Jacquemin, D.; Le Questel, J-Yves.; Graton, Jérôme.; Brosseau, A.; Ishow, Eéna. 2013: Fluorescent carboxylic and phosphonic acids: comparative photophysics from solution to organic nanoparticles. Physical Chemistry Chemical Physics: Pccp 15(30): 12748-12756
Detter, C.; Wipper, S.; Russ, D.; Iffland, A.; Burdorf, L.; Thein, E.; Wegscheider, K.; Reichenspurner, H.; Reichart, B. 2007: Fluorescent cardiac imaging: a novel intraoperative method for quantitative assessment of myocardial perfusion during graded coronary artery stenosis. Circulation 116(9): 1007-1014
Michael, D.J.; Tapechum, S.; Rohan, J.G.; Johnson, J.M.; Chow, R.H. 2009: Fluorescent cargo proteins in peptidergic endocrine cells: cell type determines secretion kinetics at exocytosis. Annals of the new York Academy of Sciences 1152: 7-17
Kupcho, K.R.; Bruinsma, R.; Hallis, T.M.; Lasky, D.A.; Somberg, R.L.; Turek-Etienne, T.; Vogel, K.W.; Huwiler, K.G. 2008: Fluorescent cascade and direct assays for characterization of RAF signaling pathway inhibitors. Current Chemical Genomics 1: 43-53
Wu, L.; Loudet, A.; Barhoumi, R.; Burghardt, R.C.; Burgess, K. 2009: Fluorescent cassettes for monitoring three-component interactions in vitro and in living cells. Journal of the American Chemical Society 131(26): 9156-9157
Stam, J.; Abdulahad, W.; Huitema, M.G.; Roozendaal, C.; Limburg, P.C.; van Stuijvenberg, M.; Schölvinck, E.H. 2011: Fluorescent cell barcoding as a tool to assess the age-related development of intracellular cytokine production in small amounts of blood from infants. Plos one 6(10): E25690
Krutzik, P.O.; Clutter, M.R.; Trejo, A.; Nolan, G.P. 2011: Fluorescent cell barcoding for multiplex flow cytometry. Current Protocols in Cytometry Chapter 6: 6.31.1-6.31.15
Fritzsche, M.; Mandenius, C.-F. 2010: Fluorescent cell-based sensing approaches for toxicity testing. Analytical and Bioanalytical Chemistry 398(1): 181-191
Zhanga, H.; Changb, C-Hsuan.; Lü, F.; Su, A.; Lee, D-Jong.; He, P-Jing.; Shao, L-Ming. 2009: Fluorescent characteristics of estrogenic compounds in landfill leachate. Environmental Technology 30(9): 953-961
Zapata, F.; Caballero, A.; White, N.G.; Claridge, T.D.W.; Costa, P.J.; Félix, V.ít.; Beer, P.D. 2012: Fluorescent charge-assisted halogen-bonding macrocyclic halo-imidazolium receptors for anion recognition and sensing in aqueous media. Journal of the American Chemical Society 134(28): 11533-11541
Hu, M.; Fan, J.; Li, H.; Song, K.; Wang, S.; Cheng, G.; Peng, X. 2011: Fluorescent chemodosimeter for Cys/Hcy with a large absorption shift and imaging in living cells. Organic and Biomolecular Chemistry 9(4): 980-983
Lee, K.-S.; Kim, H.-J.; Kim, G.-H.; Shin, I.; Hong, J.-I. 2008: Fluorescent chemodosimeter for selective detection of cyanide in water. Organic Letters 10(1): 49-51
Du, J.; Hu, M.; Fan, J.; Peng, X. 2012: Fluorescent chemodosimeters using "mild" chemical events for the detection of small anions and cations in biological and environmental media. Chemical Society Reviews 41(12): 4511-4535
Singh, T.S.; Paul, P.C.; Pramanik, H.A.R. 2014: Fluorescent chemosensor based on sensitive Schiff base for selective detection of Zn2+. Spectrochimica Acta. Part a Molecular and Biomolecular Spectroscopy 121: 520-526
Lee, J.-J.; Noll, B.C.; Smith, B.D. 2008: Fluorescent chemosensor for chloroalkanes. Organic Letters 10(9): 1735-1738
Liu, Y.; Tang, Y.; Barashkov, N.N.; Irgibaeva, I.S.; Lam, J.W.Y.; Hu, R.; Birimzhanova, D.; Yu, Y.; Tang, B.Z. 2010: Fluorescent chemosensor for detection and quantitation of carbon dioxide gas. Journal of the American Chemical Society 132(40): 13951-13953
Lee, J.-J.; Smith, B.D. 2009: Fluorescent chemosensor for reactive organohalides in micellar solution with an example of autocatalysis. Chemical Communications 15: 1962-1963
Chen, X.; Pradhan, T.; Wang, F.; Kim, J.S.; Yoon, J. 2012: Fluorescent chemosensors based on spiroring-opening of xanthenes and related derivatives. Chemical Reviews 112(3): 1910-1956
Xu, Z.; Yoon, J.; Spring, D.R. 2010: Fluorescent chemosensors for Zn(2+). Chemical Society Reviews 39(6): 1996-2006
Brunetti, E.; Picron, J.-F.ço.; Flidrova, K.; Bruylants, G.; Bartik, K.; Jabin, I. 2014: Fluorescent chemosensors for anions and contact ion pairs with a cavity-based selectivity. Journal of Organic Chemistry 79(13): 6179-6188
Obare, S.O.; De, C.; Guo, W.; Haywood, T.L.; Samuels, T.A.; Adams, C.P.; Masika, N.O.; Murray, D.H.; Anderson, G.A.; Campbell, K.; Fletcher, K. 2010: Fluorescent chemosensors for toxic organophosphorus pesticides: a review. Sensors 10(7): 7018-7043
Tan, L.; Wan, A.; Li, H. 2013: Fluorescent chitosan complex nanosphere diazeniumdiolates as donors and sensitive real-time probes of nitric oxide. Analyst 138(3): 879-886
Kaewsaneha, C.; Jangpatarapongsa, K.; Tangchaikeeree, T.; Polpanich, D.; Tangboriboonrat, P. 2014: Fluorescent chitosan functionalized magnetic polymeric nanoparticles: Cytotoxicity and in vitro evaluation of cellular uptake. Journal of Biomaterials Applications 29(5): 761-768
Moser, S.; Müller, T.; Holzinger, A.; Lütz, C.; Jockusch, S.; Turro, N.J.; Kräutler, B. 2009: Fluorescent chlorophyll catabolites in bananas light up blue halos of cell death. Proceedings of the National Academy of Sciences of the United States of America 106(37): 15538-15543
Ishizawa, T.; Bandai, Y.; Hasegawa, K.; Kokudo, N. 2010: Fluorescent cholangiography during laparoscopic cholecystectomy: indocyanine green or new fluorescent agents?. World Journal of Surgery 34(10): 2505-2506
Ishizawa, T.; Bandai, Y.; Ijichi, M.; Kaneko, J.; Hasegawa, K.; Kokudo, N. 2010: Fluorescent cholangiography illuminating the biliary tree during laparoscopic cholecystectomy. British Journal of Surgery 97(9): 1369-1377
Garden, O.J. 2010: Fluorescent cholangiography illuminating the biliary tree during laparoscopic cholecystectomy (Br J Surg 2010; 97: 1369-1377). British Journal of Surgery 97(9): 1378
Ishizawa, T.; Bandai, Y.; Kokudo, N. 2009: Fluorescent cholangiography using indocyanine green for laparoscopic cholecystectomy: an initial experience. Archives of Surgery 144(4): 381-382
Berndl, S.; Wagenknecht, H-Achim. 2009: Fluorescent color readout of DNA hybridization with thiazole orange as an artificial DNA base. Angewandte Chemie 48(13): 2418-2421
Sato, T.; Pandey, R.K.; Higuchi, M. 2013: Fluorescent colour modulation in Zn(II)-based metallo-supramolecular polymer films by electronic-state control of the ligand. Dalton Transactions 42(45): 16036-16042
Cohen, E.; Levy, G.J.; Borisover, M. 2014: Fluorescent components of organic matter in wastewater: efficacy and selectivity of the water treatment. Water Research 55: 323-334
Lee, J.H.; Kang, S.; Jaworski, J.; Kwon, K.-Y.; Seo, M.L.; Lee, J.Y.; Jung, J.H. 2012: Fluorescent composite hydrogels of metal-organic frameworks and functionalized graphene oxide. Chemistry 18(3): 765-769
Chu, Y.; Wang, D.; Wang, K.; Liu, Z.L.; Weston, B.; Wang, B. 2013: Fluorescent conjugate of sLe(x)-selective bisboronic acid for imaging application. Bioorganic and Medicinal Chemistry Letters 23(23): 6307-6309
Schütze, F.; Stempfle, B.; Jüngst, C.; Wöll, D.; Zumbusch, A.; Mecking, S. 2012: Fluorescent conjugated block copolymer nanoparticles by controlled mixing. Chemical Communications 48(15): 2104-2106
Zhao, Z.; Li, J.-H.; Chen, X.; Lu, P.; Yang, Y. 2008: Fluorescent conjugated dendrimers with fluorinated terminal groups: nanofiber formation and electroluminescence properties. Organic Letters 10(14): 3041-3044
Chen, Q.; Cui, Y.; Zhang, T.-L.; Cao, J.; Han, B.-H. 2010: Fluorescent conjugated polyfluorene with pendant lactopyranosyl ligands for studies of Ca(2+)-mediated carbohydrate-carbohydrate interaction. Biomacromolecules 11(1): 13-19
Baier, M.C.; Huber, J.; Mecking, S. 2009: Fluorescent conjugated polymer nanoparticles by polymerization in miniemulsion. Journal of the American Chemical Society 131(40): 14267-14273
Batabyal, S.K.; Leong, W.L.; Vittal, J.J. 2010: Fluorescent coordination polymeric gel from tartaric acid-assisted self-assembly. Langmuir 26(10): 7464-7468
Pascu, S.I.; Waghorn, P.A.; Kennedy, B.W.C.; Arrowsmith, R.L.; Bayly, S.R.; Dilworth, J.R.; Christlieb, M.; Tyrrell, R.M.; Zhong, J.; Kowalczyk, R.M.; Collison, D.; Aley, P.K.; Churchill, G.C.; Aigbirhio, F.I. 2010: Fluorescent copper(II) bis(thiosemicarbazonates): synthesis, structures, electron paramagnetic resonance, radiolabeling, in vitro cytotoxicity and confocal fluorescence microscopy studies. Chemistry An Asian Journal 5(3): 506-519
Wu, C.; Hong, J.; Guo, X.; Huang, C.; Lai, J.; Zheng, J.; Chen, J.; Mu, X.; Zhao, Y. 2008: Fluorescent core-shell silica nanoparticles as tunable precursors: towards encoding and multifunctional nano-probes. Chemical Communications 2008(6): 750-752
Feng, C.L.; Yin, M.; Zhang, D.; Zhu, S.; Caminade, A.M.; Majoral, J.P.; Müllen, K. 2011: Fluorescent core-shell star polymers based bioassays for ultrasensitive DNA detection by surface plasmon fluorescence spectroscopy. Macromolecular Rapid Communications 32(8): 679-683
Yin, M.; Shen, J.; Gropeanu, R.; Pflugfelder, G.O.; Weil, T.; Müllen, K. 2008: Fluorescent core/shell nanoparticles for specific cell-nucleus staining. Small 4(7): 894-898
Jain, A.; Rao, K.V.; Kulkarni, C.; George, A.; George, S.J. 2012: Fluorescent coronene monoimide gels via H-bonding induced frustrated dipolar assembly. Chemical Communications 48(10): 1467-1469
Leroux, C.-E.; Monnier, S.; Wang, I.èn.; Cappello, G.; Delon, A. 2014: Fluorescent correlation spectroscopy measurements with adaptive optics in the intercellular space of spheroids. Biomedical Optics Express 5(10): 3730-3738
Phatangare, K.R.; Lanke, S.K.; Sekar, N. 2014: Fluorescent coumarin derivatives with viscosity sensitive emission--synthesis, photophysical properties and computational studies. Journal of Fluorescence 24(4): 1263-1274
Reddie, K.G.; Humphries, W.H.; Bain, C.P.; Payne, C.K.; Kemp, M.L.; Murthy, N. 2012: Fluorescent coumarin thiols measure biological redox couples. Organic Letters 14(3): 680-683
Ulff, E.; Maroti, M.; Serup, J.ör. 2013: Fluorescent cream used as an educational intervention to improve the effectiveness of self-application by patients with atopic dermatitis. Journal of Dermatological Treatment 24(4): 268-271
Sonawane, S.L.; Asha, S.K. 2013: Fluorescent cross-linked polystyrene perylenebisimide/oligo(p-phenylenevinylene) microbeads with controlled particle size, tunable colors, and high solid state emission. Acs Applied Materials and Interfaces 5(22): 12205-12214
Salverda, J.M.; Patil, A.V.; Mizzon, G.; Kuznetsova, S.; Zauner, G.; Akkilic, N.; Canters, G.W.; Davis, J.J.; Heering, H.A.; Aartsma, T.J. 2010: Fluorescent cyclic voltammetry of immobilized azurin: direct observation of thermodynamic and kinetic heterogeneity. Angewandte Chemie 49(33): 5776-5779
Yenugonda, V.M.; Deb, T.B.; Grindrod, S.C.; Dakshanamurthy, S.; Yang, Y.; Paige, M.; Brown, M.L. 2011: Fluorescent cyclin-dependent kinase inhibitors block the proliferation of human breast cancer cells. Bioorganic and Medicinal Chemistry 19(8): 2714-2725
Brunelli, M.; Gobbo, S.; Cossu-Rocca, P.; Cheng, L.; Ficarra, V.; Novara, G.; Menestrina, F.; Chilosi, M.; Martignoni, G. 2008: Fluorescent cytogenetics of renal cell neoplasms. Pathologica 100(6): 454-460
Payne, C.K. 2013: Fluorescent dendritic nanoprobes: a new class of fluorescent probes for biological applications. Biophysical Journal 104(7): 1394
Lee, J.; Park, S.; Lohani, C.R.; Lee, K.-H.; Kim, C. 2012: Fluorescent dendron-cyclodextrin nanotubes with surface peptide spacer as a recyclable sensory platform. Chemistry 18(24): 7351-7356
Daval, S.B.; Valant, C.él.; Bonnet, D.; Kellenberger, E.; Hibert, M.; Galzi, J.-L.; Ilien, B. 2012: Fluorescent derivatives of AC-42 to probe bitopic orthosteric/allosteric binding mechanisms on muscarinic M1 receptors. Journal of Medicinal Chemistry 55(5): 2125-2143
Kaberniuk, A.A.; Labyntsev, A.I.; Kolybo, D.V.; Oliĭnyk, O.S.; Redchuk, T.A.; Korotkevych, N.V.; Horchev, V.F.; Karakhim, S.O.; Komisarenko, S.V. 2009: Fluorescent derivatives of diphtheria toxin subunit B and their interaction with Vero cells. Ukrains'kyi Biokhimichnyi Zhurnal 81(1): 67-77
Abate, C.; Hornick, J.R.; Spitzer, D.; Hawkins, W.G.; Niso, M.; Perrone, R.; Berardi, F. 2011: Fluorescent derivatives of σ receptor ligand 1-cyclohexyl-4-[3-(5-methoxy-1,2,3,4-tetrahydronaphthalen-1-yl)propyl]piperazine (PB28) as a tool for uptake and cellular localization studies in pancreatic tumor cells. Journal of Medicinal Chemistry 54(16): 5858-5867
Michels, D.A.; Brady, L.J.; Guo, A.; Balland, A. 2007: Fluorescent derivatization method of proteins for characterization by capillary electrophoresis-sodium dodecyl sulfate with laser-induced fluorescence detection. Analytical Chemistry 79(15): 5963-5971
Odo, J.; Sogawa, Y.; Inoguchi, M.; Hirai, A. 2011: Fluorescent derivatization of xanthurenic acid and nicotinic acid with horseradish peroxidase in the presence of excess hydrogen peroxide. Analytical Sciences: the International Journal of the Japan Society for Analytical Chemistry 27(1): 105-109
Rice, M.C.; Kmiec, E.B. 2004: Fluorescent detection and isolation of DNA variants using stabilized RecA-coated oligonucleotides. Discovery Medicine 4(21): 96-98
Ramirez-Sanchez, I.; Maya, L.; Ceballos, G.; Villarreal, F. 2010: Fluorescent detection of (-)-epicatechin in microsamples from cacao seeds and cocoa products: Comparison with Folin-Ciocalteu method. Journal of Food Composition and Analysis: An Official Publication of the United Nations University International Network of Food Data Systems 23(8): 790-793
Wang, Y.; Wang, Y.; Liu, B. 2008: Fluorescent detection of ATP based on signaling DNA aptamer attached silica nanoparticles. Nanotechnology 19(41): 415605
Zhao, L.; Chu, Y.; He, C.; Duan, C. 2014: Fluorescent detection of RDX within DHPA-containing metal-organic polyhedra. Chemical Communications 50(26): 3467-3469
Yang, X.; Wang, J.; Su, D.; Xia, Q.; Chai, F.; Wang, C.; Qu, F. 2014: Fluorescent detection of TNT and 4-nitrophenol by BSA au nanoclusters. Dalton Transactions 43(26): 10057-10063
Akagawa, M.; Suyama, K.; Uchida, K. 2009: Fluorescent detection of alpha-aminoadipic and gamma-glutamic semialdehydes in oxidized proteins. Free Radical Biology and Medicine 46(6): 701-706
Ma, B.; Zeng, F.; Zheng, F.; Wu, S. 2011: Fluorescent detection of an anthrax biomarker based on PVA film. Analyst 136(18): 3649-3655
Mondal, A.; Jana, N.R. 2012: Fluorescent detection of cholesterol using β-cyclodextrin functionalized graphene. Chemical Communications 48(58): 7316-7318
Zhou, L.; Shen, Q.; Zhao, P.; Xiang, B.; Nie, Z.; Huang, Y.; Yao, S. 2013: Fluorescent detection of copper(II) based on DNA-templated click chemistry and graphene oxide. Methods 64(3): 299-304
Gall, L.; Stan, R.C.; Kress, A.; Hertel, B.; Thiel, G.; Meckel, T. 2010: Fluorescent detection of fluid phase endocytosis allows for in vivo estimation of endocytic vesicle sizes in plant cells with sub-diffraction accuracy. Traffic 11(4): 548-559
Ling, Y.; Zhang, N.; Qu, F.; Wen, T.; Gao, Z.F.; Li, N.B.; Luo, H.Q. 2014: Fluorescent detection of hydrogen peroxide and glucose with polyethyleneimine-templated Cu nanoclusters. Spectrochimica Acta. Part a Molecular and Biomolecular Spectroscopy 118: 315-320
Yuan, L.; Lin, W.; Xie, Y.; Chen, B.; Song, J. 2012: Fluorescent detection of hypochlorous acid from turn-on to FRET-based ratiometry by a HOCl-mediated cyclization reaction. Chemistry 18(9): 2700-2706
Wu, Y-Shiuan.; Huang, F-Feng.; Lin, Y-Wei. 2013: Fluorescent detection of lead in environmental water and urine samples using enzyme mimics of catechin-synthesized Au nanoparticles. Acs Applied Materials and Interfaces 5(4): 1503-1509
Rainey, R.Patrick.; Gillman, I.Gene.; Shi, X.; Cheng, T.; Stinson, A.; Gietl, D.; Albino, A.P. 2009: Fluorescent detection of lipid peroxidation derived protein adducts upon in-vitro cigarette smoke exposure. Toxicology Mechanisms and Methods 19(6-7): 401-409
Yang, Y.-K.; Ko, S.-K.; Shin, I.; Tae, J. 2009: Fluorescent detection of methylmercury by desulfurization reaction of rhodamine hydrazide derivatives. Organic and Biomolecular Chemistry 7(22): 4590-4593
Germain, M.E.; Vargo, T.R.; Khalifah, P.G.; Knapp, M.J. 2007: Fluorescent detection of nitroaromatics and 2,3-dimethyl 2,3-dinitrobutane (DMNB) by a zinc complex: (salophen)Zn. Inorganic Chemistry 46(11): 4422-4429
Santra, M.; Ko, S.-K.; Shin, I.; Ahn, K.H. 2010: Fluorescent detection of palladium species with an O-propargylated fluorescein. Chemical Communications 46(22): 3964-3966
Kondo, Y.; Murayama, Y.; Konishi, H.; Morimura, R.; Komatsu, S.; Shiozaki, A.; Kuriu, Y.; Ikoma, H.; Kubota, T.; Nakanishi, M.; Ichikawa, D.; Fujiwara, H.; Okamoto, K.; Sakakura, C.; Takahashi, K.; Inoue, K.; Nakajima, M.; Otsuji, E. 2014: Fluorescent detection of peritoneal metastasis in human colorectal cancer using 5-aminolevulinic acid. International Journal of Oncology 45(1): 41-46
Saeed, M.A.; Powell, D.R.; Hossain, M.A. 2010: Fluorescent detection of phosphate anion by a highly selective chemosensor in water. Tetrahedron Letters 51(37): 4904-4907
Umezawa, N.; Higuchi, T. 2007: Fluorescent detection of protein kinase activity: methodology to visualize "phosphate". Tanpakushitsu Kakusan Koso. Protein Nucleic Acid Enzyme 52(13 Suppl): 1601-1607
Lu, G.; Tan, P.; Lei, C.; Nie, Z.; Huang, Y.; Yao, S. 2014: Fluorescent detection of protein kinase based on positively charged gold nanoparticles. Talanta 128: 360-365
Tan, P.; Lei, C.; Liu, X.; Qing, M.; Nie, Z.; Guo, M.; Huang, Y.; Yao, S. 2013: Fluorescent detection of protein kinase based on zirconium ions-immobilized magnetic nanoparticles. Analytica Chimica Acta 780: 89-94
Asher, S.A.; Peters, G.E.; Pehler, S.F.; Zinn, K.; Newman, J.R.; Rosenthal, E.L. 2008: Fluorescent detection of rat parathyroid glands via 5-aminolevulinic acid. Laryngoscope 118(6): 1014-1018
Zhang, H.; Wang, M.; Gao, Q.; Qi, H.; Zhang, C. 2011: Fluorescent detection of single nucleotide polymorphism utilizing a hairpin DNA containing a nucleotide base analog pyrrolo-deoxycytidine as a fluorescent probe. Talanta 84(3): 771-776
Bohoyo Gil, D.; Rodriguez-Cáceres, M.ía.I.; Hurtado-Sánchez, M.ía.d.C.; Muñoz de la Peña, A. 2010: Fluorescent determination of Hg2+ in water and fish samples using a chemodosimeter based in a Rhodamine 6G derivative and a portable fiber-optic spectrofluorimeter. Applied Spectroscopy 64(5): 520-527
Tzerkovsky, D.A.; Osharin, V.V.; Istomin, Y.P.; Alexandrova, E.N.; Vozmitel, M.A. 2014: Fluorescent diagnosis and photodynamic therapy for C6 glioma in combination with antiangiogenic therapy in subcutaneous and intracranial tumor models. Experimental Oncology 36(2): 85-89
Szygula, M.; Wojciechowski, B.; Adamek, M.; Pietrusa, A.; Kawczyk-Krupka, A.; Cebula, W.; Zieleznik, W.; Biniszkiewicz, T.; Duda, W.; Sieroń, A. 2004: Fluorescent diagnosis of urinary bladder cancer-a comparison of two diagnostic modalities. Photodiagnosis and Photodynamic Therapy 1(1): 23-26
Rusakov, I.G.; Sokolov, V.V.; Bulgakova, N.N.; Ul'ianov, R.V.; Teplov, A.A. 2008: Fluorescent diagnostic methods and superficial cancer of the urinary bladder: current status. Urologiia 3: 67-68; 70-72
Lin, P.-H.; Leclère, M.; Long, J.ér.ôm.; Burchell, T.J.; Korobkov, I.; Clérac, R.; Murugesu, M. 2010: Fluorescent dialdehyde ligand for the encapsulation of dinuclear luminescent lanthanide complexes. Dalton Transactions 39(24): 5698-5704
Miyasaka, M.; Fukushima, A.; Satoh, T.; Hirano, K.; Miura, M. 2009: Fluorescent diarylindoles by palladium-catalyzed direct and decarboxylative arylations of carboxyindoles. Chemistry 15(15): 3674-3677
Görg, A.; Drews, O.; Weiss, W. 2006: Fluorescent difference gel electrophoresis. Csh Protocols 2006(1)
Bonomo, M.G.; Sico, M.A.; Grieco, S.; Salzano, G. 2010: Fluorescent differential display analysis of Lactobacillus sakei strains under stress conditions. Journal of Microbiological Methods 82(1): 28-35
He, C.; Wang, J.; Wu, P.; Jia, L.; Bai, Y.; Zhang, Z.; Duan, C. 2012: Fluorescent differentiation and quantificational detection of free tryptophan in serum within a confined metal-organic tetrahedron. Chemical Communications 48(97): 11880-11882
Li, X.D.; O'Leary, M.A.; Boas, D.A.; Chance, B.; Yodh, A.G. 1996: Fluorescent diffuse photon density waves in homogeneous and heterogeneous turbid media: analytic solutions and applications. Applied Optics 35(19): 3746-3758
Díaz de Greñu, B.; Moreno, D.; Torroba, T.ás.; Berg, A.; Gunnars, J.; Nilsson, T.; Nyman, R.; Persson, M.; Pettersson, J.; Eklind, I.; Wästerby, P.är. 2014: Fluorescent discrimination between traces of chemical warfare agents and their mimics. Journal of the American Chemical Society 136(11): 4125-4128
Rodriguez, P.C.; Pereira, D.B.; Borgkvist, A.; Wong, M.Y.; Barnard, C.; Sonders, M.S.; Zhang, H.; Sames, D.; Sulzer, D. 2013: Fluorescent dopamine tracer resolves individual dopaminergic synapses and their activity in the brain. Proceedings of the National Academy of Sciences of the United States of America 110(3): 870-875
Matsubayashi, Y.; Iwai, L.; Kawasaki, H. 2008: Fluorescent double-labeling with carbocyanine neuronal tracing and immunohistochemistry using a cholesterol-specific detergent digitonin. Journal of Neuroscience Methods 174(1): 71-81
Topete, A.; Alatorre-Meda, M.; Iglesias, P.; Villar-Alvarez, E.M.; Barbosa, S.; Costoya, J.é A.; Taboada, P.; Mosquera, V.íc. 2014: Fluorescent drug-loaded, polymeric-based, branched gold nanoshells for localized multimodal therapy and imaging of tumoral cells. Acs Nano 8(3): 2725-2738
Niederstätter, H.; Parson, W. 2009: Fluorescent duplex allele-specific PCR and amplicon melting for rapid homogeneous mtDNA haplogroup H screening and sensitive mixture detection. Plos one 4(12): E8374
McHedlov-Petrossyan, N.O.; Vodolazkaya, N.A.; Bezkrovnaya, O.N.; Yakubovskaya, A.G.; Tolmachev, A.V.; Grigorovich, A.V. 2008: Fluorescent dye N,N'-dioctadecylrhodamine as a new interfacial acid-base indicator. Spectrochimica Acta. Part A Molecular and Biomolecular Spectroscopy 69(4): 1125-1129
Navarro, S.; Ventura, S. 2014: Fluorescent dye ProteoStat to detect and discriminate intracellular amyloid-like aggregates in Escherichia coli. Biotechnology Journal 9(10): 1259-1266
Er, J.C.; Vendrell, M.; Tang, M.K.; Zhai, D.; Chang, Y.-T. 2013: Fluorescent dye cocktail for multiplex drug-site mapping on human serum albumin. Acs Combinatorial Science 15(9): 452-457
Wang, H.; Wingett, D.; Engelhard, M.H.; Feris, K.; Reddy, K.M.; Turner, P.; Layne, J.; Hanley, C.; Bell, J.; Tenne, D.; Wang, C.; Punnoose, A. 2009: Fluorescent dye encapsulated ZnO particles with cell-specific toxicity for potential use in biomedical applications. Journal of Materials Science. Materials in Medicine 20(1): 11-22
Barns, G.L.; Wilson, R.D.; Thornton, S.F. 2012: Fluorescent dye imaging of the volume sampled by single well forced-gradient tracer tests evaluated in a laboratory-scale aquifer physical model. Journal of Contaminant Hydrology 128(1-4): 58-70
Gupta, S.; Charakana, C.; Sreelakshmi, Y.; Sharma, R. 2011: Fluorescent dye labeled DNA size standards for molecular mass detection in visible/infrared range. Bmc Research Notes 4: 12
Jang, E.Soon.; Lee, S.Yong.; Cha, E-Joon.; Sun, I-Cheol.; Kwon, I.Chan.; Kim, D.; Kim, Y.Il.; Kim, K.; Ahn, C-Hee. 2014: Fluorescent dye labeled iron oxide/silica core/shell nanoparticle as a multimodal imaging probe. Pharmaceutical Research 31(12): 3371-3378
Van Rossum, F.; Stiers, I.; Van Geert, A.; Triest, L.; Hardy, O.J. 2011: Fluorescent dye particles as pollen analogues for measuring pollen dispersal in an insect-pollinated forest herb. Oecologia 165(3): 663-674
Bae, S.Won.; Tan, W.; Hong, J-In. 2012: Fluorescent dye-doped silica nanoparticles: new tools for bioapplications. Chemical Communications 48(17): 2270-2282
Dsouza, R.N.; Pischel, U.; Nau, W.M. 2011: Fluorescent dyes and their supramolecular host/guest complexes with macrocycles in aqueous solution. Chemical Reviews 111(12): 7941-7980
Zhang, L.; Dong, S.; Zhu, L. 2007: Fluorescent dyes of the esculetin and alizarin families respond to zinc ions ratiometrically. Chemical Communications 19: 1891-1893
Klymchenko, A.S.; Mely, Y. 2013: Fluorescent environment-sensitive dyes as reporters of biomolecular interactions. Progress in Molecular Biology and Translational Science 113: 35-58
Grandl, J.ör.; Sakr, E.; Kotzyba-Hibert, F.; Krieger, F.; Bertrand, S.; Bertrand, D.; Vogel, H.; Goeldner, M.; Hovius, R. 2007: Fluorescent epibatidine agonists for neuronal and muscle-type nicotinic acetylcholine receptors. Angewandte Chemie 46(19): 3505-3508
Sheikh, K.D.; Banerjee, P.P.; Jagadeesh, S.; Grindrod, S.C.; Zhang, L.; Paige, M.; Brown, M.L. 2010: Fluorescent epigenetic small molecule induces expression of the tumor suppressor ras-association domain family 1A and inhibits human prostate xenograft. Journal of Medicinal Chemistry 53(6): 2376-2382
Mota, C.M.; Ferreira, M.D.; Costa, L.ço.F.; Barros, P.íc.S.C.; Silva, M.V.; Santiago, F.M.; Mineo, J.é R.; Mineo, T.W.P. 2014: Fluorescent ester dye-based assays for the in vitro measurement of Neospora caninum proliferation. Veterinary Parasitology 205(1-2): 14-19
Oh, W-Kyu.; Jeong, Y.Seon.; Song, J.; Jang, J. 2011: Fluorescent europium-modified polymer nanoparticles for rapid and sensitive anthrax sensors. Biosensors and Bioelectronics 29(1): 172-177
Clardy, S.M.; Keliher, E.J.; Mohan, J.F.; Sebas, M.; Benoist, C.; Mathis, D.; Weissleder, R. 2014: Fluorescent exendin-4 derivatives for pancreatic β-cell analysis. Bioconjugate Chemistry 25(1): 171-177
Gubernator, N.G.; Zhang, H.; Staal, R.G.W.; Mosharov, E.V.; Pereira, D.B.; Yue, M.; Balsanek, V.; Vadola, P.A.; Mukherjee, B.; Edwards, R.H.; Sulzer, D.; Sames, D. 2009: Fluorescent false neurotransmitters visualize dopamine release from individual presynaptic terminals. Science 324(5933): 1441-1444
Viktorova, E.G.; Ford-Siltz, L.A.; Nchoutmboube, J.; Belov, G.A. 2014: Fluorescent fatty acid analogs as a tool to study development of the picornavirus replication organelles. Journal of Virological Methods 200: 15-21
Elmadhoun, B.M.; Swairjo, M.A.; Burczynski, F.J. 2012: Fluorescent fatty acid transfer from bovine serum albumin to phospholipid vesicles: collision or diffusion mediated uptake. Journal of Pharmacy and Pharmaceutical Sciences: a Publication of the Canadian Society for Pharmaceutical Sciences Societe Canadienne des Sciences Pharmaceutiques 15(3): 420-432
Kim, S-Eun.; Ahn, K-Young.; Park, J-Seung.; Kim, K.Rim.; Lee, K.Eun.; Han, S-Sik.; Lee, J. 2011: Fluorescent ferritin nanoparticles and application to the aptamer sensor. Analytical Chemistry 83(15): 5834-5843
Gao, L.; Lü, F.; Xia, H.; Ding, L.; Fang, Y. 2011: Fluorescent film sensor for copper ion based on an assembled monolayer of pyrene moieties. Spectrochimica Acta. Part a Molecular and Biomolecular Spectroscopy 79(3): 437-442
Zhang, S.; Ding, L.; Lü, F.; Liu, T.; Fang, Y. 2012: Fluorescent film sensors based on SAMs of pyrene derivatives for detecting nitroaromatics in aqueous solutions. Spectrochimica Acta. Part a Molecular and Biomolecular Spectroscopy 97: 31-37
Liu, K.; Liu, T.; Chen, X.; Sun, X.; Fang, Y. 2013: Fluorescent films based on molecular-gel networks and their sensing performances. Acs Applied Materials and Interfaces 5(19): 9830-9836
Roldán, M.; Ascaso, C.; Wierzchos, J. 2014: Fluorescent fingerprints of endolithic phototrophic cyanobacteria living within halite rocks in the Atacama Desert. Applied and Environmental Microbiology 80(10): 2998-3006
Haase, T.; Haase, N.; Kraehling, J.R.; Behrends, S. 2010: Fluorescent fusion proteins of soluble guanylyl cyclase indicate proximity of the heme nitric oxide domain and catalytic domain. Plos one 5(7): E11617
Arrowsmith, R.L.; Waghorn, P.A.; Jones, M.W.; Bauman, A.; Brayshaw, S.K.; Hu, Z.; Kociok-Köhn, G.; Mindt, T.L.; Tyrrell, R.M.; Botchway, S.W.; Dilworth, J.R.; Pascu, S.I. 2011: Fluorescent gallium and indium bis(thiosemicarbazonates) and their radiolabelled analogues: synthesis, structures and cellular confocal fluorescence imaging investigations. Dalton Transactions 40(23): 6238-6252
Palui, G.; Banerjee, A. 2008: Fluorescent gel from a self-assembling new chromophoric moiety containing azobenzene based tetraamide. Journal of Physical Chemistry. B 112(33): 10107-10115
Smurthwaite, C.A.; Hilton, B.J.; O'Hanlon, R.; Stolp, Z.D.; Hancock, B.M.; Abbadessa, D.; Stotland, A.; Sklar, L.A.; Wolkowicz, R. 2014: Fluorescent genetic barcoding in mammalian cells for enhanced multiplexing capabilities in flow cytometry. CYTOMETRY. Part A: the Journal of the International Society for Analytical Cytology 85(1): 105-113
Park, S.; Sung, J.-W.; Shin, I. 2009: Fluorescent glycan derivatives: their use for natural glycan microarrays. Acs Chemical Biology 4(9): 699-701
Song, X.; Lasanajak, Y.; Xia, B.; Smith, D.F.; Cummings, R.D. 2009: Fluorescent glycosylamides produced by microscale derivatization of free glycans for natural glycan microarrays. Acs Chemical Biology 4(9): 741-750
Durgadas, C.V.; Sharma, C.P.; Sreenivasan, K. 2011: Fluorescent gold clusters as nanosensors for copper ions in live cells. Analyst 136(5): 933-940
Lemke, K.; Prietzel, C.; Koetz, J. 2013: Fluorescent gold clusters synthesized in a poly(ethyleneimine) modified reverse microemulsion. Journal of Colloid and Interface Science 394: 141-146
Wang, H.-H.; Lin, C.-A.J.; Lee, C.-H.; Lin, Y.-C.; Tseng, Y.-M.; Hsieh, C.-L.; Chen, C.-H.; Tsai, C.-H.; Hsieh, C.-T.; Shen, J.-L.; Chan, W.-H.; Chang, W.H.; Yeh, H.-I. 2011: Fluorescent gold nanoclusters as a biocompatible marker for in vitro and in vivo tracking of endothelial cells. Acs Nano 5(6): 4337-4344
Zhang, J.; Tu, L.; Zhao, S.; Liu, G.; Wang, Y.; Wang, Y.; Yue, Z. 2015: Fluorescent gold nanoclusters based photoelectrochemical sensors for detection of H2O2 and glucose. Biosensors and Bioelectronics 67: 296-302
Chen, L.-Y.; Wang, C.-W.; Yuan, Z.; Chang, H.-T. 2015: Fluorescent gold nanoclusters: recent advances in sensing and imaging. Analytical Chemistry 87(1): 216-229
Chen, W.; Tu, X.; Guo, X. 2009: Fluorescent gold nanoparticles-based fluorescence sensor for Cu2+ ions. Chemical Communications 2009(13): 1736-1738
Yamamoto, K.; An, Z.; Saito, N.; Yamaguchi, M. 2013: Fluorescent gold nanoparticles: synthesis of composite materials of two-component disulfide gels and gold nanoparticles. Chemistry 19(32): 10580-10588
Moore, M.Brittain.; Vanderstoep, E.M.; Wende, R.D.; Knox, J.M. 1963: Fluorescent gonococcal antibody technique in gonorrhea in the male. Public Health Reports 78(1): 90-92
Mei, Q.; Jiang, C.; Guan, G.; Zhang, K.; Liu, B.; Liu, R.; Zhang, Z. 2012: Fluorescent graphene oxide logic gates for discrimination of iron (3+) and iron (2+) in living cells by imaging. Chemical Communications 48(60): 7468-7470
Wang, B.; Zhuo, S.; Chen, L.; Zhang, Y. 2014: Fluorescent graphene quantum dot nanoprobes for the sensitive and selective detection of mercury ions. Spectrochimica Acta. Part a Molecular and Biomolecular Spectroscopy 131: 384-387
Li, Y.-H.; Zhang, L.; Huang, J.; Liang, R.-P.; Qiu, J.-D. 2013: Fluorescent graphene quantum dots with a boronic acid appended bipyridinium salt to sense monosaccharides in aqueous solution. Chemical Communications 49(45): 5180-5182
Oh, H.; Kim, J.; Rameshbabu, K.; Do, J.; Kim, E. 2008: Fluorescent grating patterns of photopolymer film containing ethylene glycol phenyl ether acrylate. Journal of Nanoscience and Nanotechnology 8(9): 4616-4620
Li, X.; Chance, B.; Yodh, A.G. 1998: Fluorescent heterogeneities in turbid media: limits for detection, characterization, and comparison with absorption. Applied Optics 37(28): 6833-6844
Avellaneda, A.; Hollis, C.A.; He, X.; Sumby, C.J. 2012: Fluorescent hexaaryl- and hexa-heteroaryl[3]radialenes: Synthesis, structures, and properties. Beilstein Journal of Organic Chemistry 8: 71-80
Grandl, M.; Schmitz, G. 2010: Fluorescent high-content imaging allows the discrimination and quantitation of E-LDL-induced lipid droplets and Ox-LDL-generated phospholipidosis in human macrophages. CYTOMETRY. Part A: the Journal of the International Society for Analytical Cytology 77(3): 231-242
Nelson, T.J. 2011: Fluorescent high-performance liquid chromatography assay for lipophilic alcohols. Analytical Biochemistry 419(1): 40-45
Wang, T-Ting.; Chai, F.; Wang, C-Gang.; Li, L.; Liu, H-Yan.; Zhang, L-Yu.; Su, Z-Min.; Liao, Y. 2011: Fluorescent hollow/rattle-type mesoporous Au@SiO2 nanocapsules for drug delivery and fluorescence imaging of cancer cells. Journal of Colloid and Interface Science 358(1): 109-115
Heyduk, E.; Heyduk, T. 2010: Fluorescent homogeneous immunosensors for detecting pathogenic bacteria. Analytical Biochemistry 396(2): 298-303
Liu, A.; Han, S.; Che, H.; Hua, L. 2010: Fluorescent hybrid with electron acceptor methylene viologen units inside the pore walls of mesoporous MCM-48 silica. Langmuir 26(5): 3555-3561
Guo, J.; Ju, J.; Turro, N.J. 2012: Fluorescent hybridization probes for nucleic acid detection. Analytical and Bioanalytical Chemistry 402(10): 3115-3125
Martí, A.A.; Jockusch, S.; Stevens, N.; Ju, J.; Turro, N.J. 2007: Fluorescent hybridization probes for sensitive and selective DNA and RNA detection. Accounts of Chemical Research 40(6): 402-409
Griffith, A.; Bandy, T.J.; Light, M.; Stulz, E. 2013: Fluorescent hydrogel formation from carboxyphenyl-terpyridine. Chemical Communications 49(7): 731-733
Semenov, S.N.; Postma, S.G.J.; Vialshin, I.N.; Huck, W.T.S. 2014: Fluorescent hydrogels for studying Ca(2+)-dependent reaction-diffusion processes. Chemical Communications 50(23): 3089-3092
Ahn, J.; Park, S.; Lee, J.H.; Jung, S.H.; Moon, S.-J.; Jung, J.H. 2013: Fluorescent hydrogels formed by CH-π and π-π interactions as the main driving forces: an approach toward understanding the relationship between fluorescence and structure. Chemical Communications 49(21): 2109-2111
Song, S.; Song, A.; Feng, L.; Wei, G.; Dong, S.; Hao, J. 2014: Fluorescent hydrogels with tunable nanostructure and viscoelasticity for formaldehyde removal. Acs Applied Materials and Interfaces 6(20): 18319-18328
Hu, A-Ling.; Liu, Y-Huan.; Deng, H-Hua.; Hong, G-Lin.; Liu, A-Lin.; Lin, X-Hua.; Xia, X-Hua.; Chen, W. 2014: Fluorescent hydrogen peroxide sensor based on cupric oxide nanoparticles and its application for glucose and L-lactate detection. Biosensors and Bioelectronics 61: 374-378
Baumstark, D.; Wagenknecht, H.-A. 2008: Fluorescent hydrophobic zippers inside duplex DNA: interstrand stacking of perylene-3,4:9,10-tetracarboxylic acid bisimides as artificial DNA base dyes. Chemistry 14(22): 6640-6645
Wu, T.-H.; Liu, C.-P.; Chien, C.-T.; Lin, S.-Y. 2013: Fluorescent hydroxylamine derived from the fragmentation of PAMAM dendrimers for intracellular hypochlorite recognition. Chemistry 19(35): 11672-11675
Wang, X.; Du, Y.; Li, Y.; Li, D.; Sun, R. 2011: Fluorescent identification and detection of Staphylococcus aureus with carboxymethyl chitosan/CdS quantum dots bioconjugates. Journal of Biomaterials Science. Polymer Edition 22(14): 1881-1893
Hamly, D.H. 1948: Fluorescent illumination for teaching laboratories using microscopes. Illuminating Engineering 43(5): 515-527
Son, T.; Han, B.; Jung, B.; Nelson, J.S. 2008: Fluorescent image analysis for evaluating the condition of facial sebaceous follicles. Skin Research and Technology: Official Journal of International Society for Bioengineering and the Skin and International Society for Digital Imaging of Skin and International Society for Skin Imaging 14(2): 201-207
Soriano, M.; Garcia, L.; Saloma, C. 2001: Fluorescent image classification by major color histograms and a neural network. Optics Express 8(5): 271-277
Nikolova, B.; Kostadinova, A.; Dimitrov, B.; Zhelev, Z.; Bakalova, R.; Aoki, I.; Saga, T.; Tsoneva, I. 2013: Fluorescent imaging for assessment of the effect of combined application of electroporation and rifampicin on HaCaT cells as a new therapeutic approach for psoriasis. Sensors 13(3): 3625-3634
Lu, X. 2013: Fluorescent imaging of Drosophila melanogaster sperm in the reproductive tract: a new model of flagellar motility. Methods in Enzymology 525: 131-148
Wang, Y.; Feng, G.-S.; Tian, H.; Zhang, Z.-H.; Xiong, T. 2007: Fluorescent imaging of angiogenesis and spontaneous metastasis in transplanted hepatoma: experiment with mice. Zhonghua Yi Xue Za Zhi 87(46): 3307-3309
Paveley, R.A.; Aynsley, S.A.; Cook, P.C.; Turner, J.D.; Mountford, A.P. 2009: Fluorescent imaging of antigen released by a skin-invading helminth reveals differential uptake and activation profiles by antigen presenting cells. Plos Neglected Tropical Diseases 3(10): E528
Ignatius, M.S.; Langenau, D.M. 2011: Fluorescent imaging of cancer in zebrafish. Methods in Cell Biology 105: 437-459
Bu, L.; Shen, B.; Cheng, Z. 2014: Fluorescent imaging of cancerous tissues for targeted surgery. Advanced Drug Delivery Reviews 76: 21-38
Niu, G.; Sapoznik, E.; Lu, P.; Criswell, T.; Mohs, A.M.; Wang, G.; Lee, S.-J.; Xu, Y.; Soker, S. 2016: Fluorescent imaging of endothelial cells in bioengineered blood vessels: the impact of crosslinking of the scaffold. Journal of Tissue Engineering and Regenerative Medicine 10(11): 955-966
Nishizawa, K.; Nishiyama, H.; Oishi, S.; Tanahara, N.; Kotani, H.; Mikami, Y.; Toda, Y.; Evans, B.J.; Peiper, S.C.; Saito, R.; Watanabe, J.; Fujii, N.; Ogawa, O. 2010: Fluorescent imaging of high-grade bladder cancer using a specific antagonist for chemokine receptor CXCR4. International Journal of Cancer 127(5): 1180-1187
Wei, Q.; Qi, H.; Luo, W.; Tseng, D.; Ki, S.Jung.; Wan, Z.; Göröcs, Zán.; Bentolila, L.A.; Wu, T-Ting.; Sun, R.; Ozcan, A. 2013: Fluorescent imaging of single nanoparticles and viruses on a smart phone. Acs Nano 7(10): 9147-9155
Scroggie, D.L.; Jones, C. 2014: Fluorescent imaging of the biliary tract during laparoscopic cholecystectomy. Annals of Surgical Innovation and Research 8: 5
Vinkenborg, J.L.; Koay, M.S.; Merkx, M. 2010: Fluorescent imaging of transition metal homeostasis using genetically encoded sensors. Current Opinion in Chemical Biology 14(2): 231-237
Jacoby, J.; Kreitzer, M.A.; Alford, S.; Malchow, R.Paul. 2014: Fluorescent imaging reports an extracellular alkalinization induced by glutamatergic activation of isolated retinal horizontal cells. Journal of Neurophysiology 111(5): 1056-1064
Ahmed, N.; Shirinfar, B.; Geronimo, I.; Kim, K.S. 2011: Fluorescent imidazolium-based cyclophane for detection of guanosine-5'-triphosphate and I(-) in aqueous solution of physiological pH. Organic Letters 13(20): 5476-5479
Urbanová, N.; Kádár, M.ál.; Tóth, K.ár.; Bogáti, B.; Andruch, V.; Bitter, I.án. 2008: Fluorescent iminodiacetamide derivatives as potential ionophores for optical zinc ion-selective sensors. Analytical Sciences: the International Journal of the Japan Society for Analytical Chemistry 24(6): 727-733
Boulesteix, C.; Beaujean, N. 2015: Fluorescent immunodetection of epigenetic modifications on preimplantation mouse embryos. Methods in Molecular Biology 1222: 113-126
Wang, X.; Ge, S.; Crooks, G.M. 2009: Fluorescent immunohistochemistry and in situ hybridization analysis of pancreas. Methods in Molecular Biology 560: 191-201
Zdobnova, T.A.; Dorofeev, S.G.; Tananaev, P.N.; Vasiliev, R.B.; Balandin, T.G.; Edelweiss, E.F.; Stremovskiy, O.A.; Balalaeva, I.V.; Turchin, I.V.; Lebedenko, E.N.; Zlomanov, V.P.; Deyev, S.M. 2009: Fluorescent immunolabeling of cancer cells by quantum dots and antibody sc Fv fragment. Journal of Biomedical Optics 14(2): 021004
Cebrián, C. 2012: Fluorescent immunolabeling of embryonic kidney samples. Methods in Molecular Biology 886: 251-259
Zhu, Y-Di.; Peng, J.; Jiang, L-Ping.; Zhu, J-Jie. 2014: Fluorescent immunosensor based on CuS nanoparticles for sensitive detection of cancer biomarker. Analyst 139(3): 649-655
Yang, A.; Zheng, Y.; Long, C.; Chen, H.; Liu, B.; Li, X.; Yuan, J.; Cheng, F. 2014: Fluorescent immunosorbent assay for the detection of alpha lactalbumin in dairy products with monoclonal antibody bioconjugated with CdSe/ZnS quantum dots. Food Chemistry 150: 73-79
Nguyen, T.H.; Ansell, R.J. 2009: Fluorescent imprinted polymer sensors for chiral amines. Organic and Biomolecular Chemistry 7(6): 1211-1220
Müller-Lucks, A.; Bock, S.; Wu, B.; Beitz, E. 2012: Fluorescent in situ folding control for rapid optimization of cell-free membrane protein synthesis. Plos one 7(7): E42186
Bettio, D.; Venci, A.; Cariboni, U.; Di Rocco, M.; Infante, M. 2011: Fluorescent in situ hybridization (FISH) in the differential diagnosis of ground-glass opacities in the lung. Lung Cancer 71(3): 319-322
Pimpinelli, S.; Bonaccorsi, S.; Fanti, L.; Gatti, M. 2010: Fluorescent in situ hybridization (FISH) of mitotic chromosomes from Drosophila larval brain. Cold Spring Harbor Protocols 3: Pdb.Prot 5391
Catanese, M.; Popovici, C.; Proust, H.él.èn.; Hoffart, L.; Matonti, F.éd.ér.; Cochereau, I.; Conrath, J.; Gabison, E.E. 2011: Fluorescent in situ hybridization (FISH) on corneal impression cytology specimens (CICS): study of epithelial cell survival after keratoplasty. Investigative Ophthalmology and Visual Science 52(2): 1009-1013
Blattes, R.; Käs, E. 2009: Fluorescent in situ hybridization (FISH) on diploid nuclei and mitotic chromosomes from Drosophila melanogaster larval tissues. Cold Spring Harbor Protocols 9: Pdb.Prot 5290
Nagasaka, T.; Gunji, M.; Hosokai, N.; Hayashi, K.; Fujino, M.; Ikeda, H.; Ito, M.; Inao, S. 2010: Fluorescent in situ hybridization 1p/19q deletion/imbalance analysis of low-grade and atypical meningiomas. Neurologia Medico-Chirurgica 50(1): 27-32; Discussion 32
Sheldon, S. 2001: Fluorescent in situ hybridization : evaluation for ploidy and gene amplification. Methods in Molecular Medicine 49: 81-91
Pfisterer, W.K.; Hendricks, W.P.; Scheck, A.C.; Nieman, R.A.; Birkner, T.H.; Krampla, W.W.; Preul, M.C. 2007: Fluorescent in situ hybridization and ex vivo 1H magnetic resonance spectroscopic examinations of meningioma tumor tissue: is it possible to identify a clinically-aggressive subset of benign meningiomas?. Neurosurgery 61(5): 1048-59; Discussion 1060-1
García-Peláez, B.; Trias, I.; Román, R.; Pubill, C.; Banús, J.M.; Puig, X. 2013: Fluorescent in situ hybridization as a predictor of relapse in urothelial carcinoma. Actas Urologicas Espanolas 37(7): 395-400
Arena, V.; Pennacchia, I.; Monego, G.; Carbone, A.; Capelli, A. 2010: Fluorescent in situ hybridization as a primary test for HER2 status in breast cancer: controversies. Journal of Clinical Oncology: Official Journal of the American Society of Clinical Oncology 28(5): E83
Jin, G.-N.; Zou, P.; Chen, W.-X.; Ding, Z.-Y.; Zhou, H. 2013: Fluorescent in situ hybridization diagnosis of extramedullary nodal blast crisis. Diagnostic Cytopathology 41(3): 253-256
Burrough, E.R.; Wilberts, B.L.; Bower, L.P.; Jergens, A.E.; Schwartz, K.J. 2013: Fluorescent in situ hybridization for detection of "Brachyspira hampsonii" in porcine colonic tissues. Journal of Veterinary Diagnostic Investigation: Official Publication of the American Association of Veterinary Laboratory Diagnosticians Inc 25(3): 407-412
Arena, V.; Pennacchia, I.; Carbone, A.; Capelli, A. 2009: Fluorescent in situ hybridization for human epidermal growth factor receptor 2 assessment in breast cancer: is it applicable as a primary test?. Journal of clinical oncology: official journal of the American Society of Clinical Oncology 27(19): e8; author reply e9-10
Tojo, M.; Couso, E.; Vázquez-Boquete, A.; Pérez-Becerra, R.; García-Caballero, T.ás.; Forteza, J.ón.; Fraga, M.áx. 2010: Fluorescent in situ hybridization heating pretreatment: the key is temperature control. Pathology International 60(12): 792-794
Cannizzaro, L.A. 2013: Fluorescent in situ hybridization of DNA probes in the interphase and metaphase stages of the cell cycle. Methods in Molecular Biology 946: 61-83
Nguyen, J.; Tetzlaff, M.T.; Zhang, P.J.; Xu, X.; Hexner, E.; Rosenbach, M. 2011: Fluorescent in situ hybridization of a skin biopsy: an adjunctive tool to support a diagnosis of graft-versus-host disease. Journal of the American Academy of Dermatology 64(6): E113-E114
Alán, L.áš; Zelenka, J.; Ježek, J.; Dlasková, A.; Ježek, P. 2010: Fluorescent in situ hybridization of mitochondrial DNA and RNA. Acta Biochimica Polonica 57(4): 403-408
Zhang, W.I.; Röhse, H.; Rizzoli, S.O.; Opazo, F. 2014: Fluorescent in situ hybridization of synaptic proteins imaged with super-resolution STED microscopy. Microscopy Research and Technique 77(7): 517-527
Timoshevskiy, V.A.; Sharma, A.; Sharakhov, I.V.; Sharakhova, M.V. 2012: Fluorescent in situ hybridization on mitotic chromosomes of mosquitoes. Journal of Visualized Experiments: Jove 67: E4215
Lécuyer, E.; Parthasarathy, N.; Krause, H.M. 2008: Fluorescent in situ hybridization protocols in Drosophila embryos and tissues. Methods in Molecular Biology 420: 289-302
Yuregir, O.O.; Sahin, F.I.; Yilmaz, Z.; Kizilkilic, E.; Karakus, S.; Ozdogu, H. 2009: Fluorescent in situ hybridization studies in multiple myeloma. Hematology 14(2): 90-94
Watakabe, A.; Komatsu, Y.; Ohsawa, S.; Yamamori, T. 2010: Fluorescent in situ hybridization technique for cell type identification and characterization in the central nervous system. Methods 52(4): 367-374
Chapman, W.C. 2010: Fluorescent in situ hybridization testing in primary sclerosing cholangitis: useful testing or a random chance result?. Hepatology 51(1): 16-19
Xu, W.; Li, J.-y.; Li, L.; Yu, H.; Shen, Q.-d.; Fan, L.; Qiao, C.; Hong, M.; Qian, S.-x.; Qiu, H.-x. 2008: Fluorescent in situ hybridization with a panel of probes detects molecular cytogenetic abnormalities in patients with chronic lymphocytic leukemia. Zhonghua Yi Xue Za Zhi 88(36): 2537-2540
Nowicka, A.; Grzebelus, E.; Grzebelus, D. 2012: Fluorescent in situ hybridization with arbitrarily amplified DNA fragments differentiates carrot (Daucus carota L.) chromosomes. Genome 55(3): 205-213
Ariano, M.A. 2001: Fluorescent in situ transcription in cells and tissues. Current Protocols in Neuroscience Chapter 5: Unit 5.13
Yang, Z.; Sullivan, B.M.; Allen, C.D.C. 2012: Fluorescent in vivo detection reveals that IgE(+) B cells are restrained by an intrinsic cell fate predisposition. Immunity 36(5): 857-872
Ali, A.; Thomsen, P.D.; Babar, M.E. 2009: Fluorescent in-situ hybridization of cattle and sheep chromosomes with cloned human fragile-X DNA. Molecular Biology Reports 36(3): 619-622
Zhang, J.; Umemoto, S.; Nakatani, K. 2010: Fluorescent indicator displacement assay for ligand-RNA interactions. Journal of the American Chemical Society 132(11): 3660-3661
Murata, A.; Harada, Y.; Fukuzumi, T.; Nakatani, K. 2013: Fluorescent indicator displacement assay of ligands targeting 10 microRNA precursors. Bioorganic and Medicinal Chemistry 21(22): 7101-7106
Boens, N.ël.; Leen, V.; Dehaen, W. 2012: Fluorescent indicators based on BODIPY. Chemical Society Reviews 41(3): 1130-1172
Watanabe, S. 2007: Fluorescent indicators for Ca2+ based on green fluorescent proteins and calmodulin. Tanpakushitsu Kakusan Koso. Protein Nucleic Acid Enzyme 52(13 Suppl): 1770-1771
Han, J.; Burgess, K. 2010: Fluorescent indicators for intracellular pH. Chemical Reviews 110(5): 2709-2728
Pertsemlidis, D. 2009: Fluorescent indocyanine green for imaging of bile ducts during laparoscopic cholecystectomy. Archives of Surgery 144(10): 978
O'Connor, N.J.; Bartsch, D.U.; Freeman, W.J.; Mueller, A.J.; Holmes, T.J. 1998: Fluorescent infrared scanning-laser ophthalmoscope for three-dimensional visualization: automatic random-eye-motion correction and deconvolution. Applied Optics 37(11): 2021-2033
Brandenberg, W.M. 1970: Fluorescent integrating sphere for the vacuum ultraviolet. Applied Optics 9(2): 451-457
Sau, S.P.; Kumar, P.; Sharma, P.K.; Hrdlicka, P.J. 2012: Fluorescent intercalator displacement replacement (FIDR) assay: determination of relative thermodynamic and kinetic parameters in triplex formation--a case study using triplex-forming LNAs. Nucleic Acids Research 40(21): E162
Murray, J.D.; Jones, G.E.; Elwood, E.T.; Whitty, L.A.; Garcia, C. 2010: Fluorescent intraoperative tissue angiography with indocyanine green: evaluation of nipple-areola vascularity during breast reduction surgery. Plastic and Reconstructive Surgery 126(1): 33e-34e
Pinheiro, S.C.L.; Descalzo, A.B.; Raimundo, I.M.; Orellana, G.; Moreno-Bondi, M.ía.C. 2012: Fluorescent ion-imprinted polymers for selective Cu(II) optosensing. Analytical and Bioanalytical Chemistry 402(10): 3253-3260
Dubach, J.M.; Harjes, D.I.; Clark, H.A. 2007: Fluorescent ion-selective nanosensors for intracellular analysis with improved lifetime and size. Nano Letters 7(6): 1827-1831
Fei, Y.; Sun, Y.-S.; Li, Y.; Lau, K.; Yu, H.; Chokhawala, H.A.; Huang, S.; Landry, J.P.; Chen, X.; Zhu, X. 2011: Fluorescent labeling agents change binding profiles of glycan-binding proteins. Molecular Biosystems 7(12): 3343-3352
Gomes, J.é; Huber, N.; Grunau, A.; Eberl, L.; Gademann, K. 2013: Fluorescent labeling agents for quorum-sensing receptors (FLAQS) in live cells. Chemistry 19(30): 9766-9770
Abitbol, T.; Palermo, A.; Moran-Mirabal, J.M.; Cranston, E.D. 2013: Fluorescent labeling and characterization of cellulose nanocrystals with varying charge contents. Biomacromolecules 14(9): 3278-3284
Hanson, M.R.; Sattarzadeh, A. 2014: Fluorescent labeling and confocal microscopic imaging of chloroplasts and non-green plastids. Methods in Molecular Biology 1132: 125-143
Diaz, C.A.; Xia, Y.; Rubino, M.; Auras, R.; Jayaraman, K.; Hotchkiss, J. 2013: Fluorescent labeling and tracking of nanoclay. Nanoscale 5(1): 164-168
Sekine, K.; Takebe, T.; Taniguchi, H. 2014: Fluorescent labeling and visualization of human induced pluripotent stem cells with the use of transcription activator-like effector nucleases. Transplantation Proceedings 46(4): 1205-1207
Huang, H-Jun.; Peng, X.; Deng, B.; Huang, C.; Li, J.; Qian, Y-Guo.; Gao, Q-Shuang.; Xiang, M.; Lu, S.; Chen, Z-Hua.; Zhan, C-Yao.; Zhou, L.; Tao, B-Fei.; Liu, J.; Tan, B-Zhong. 2016: Fluorescent labeling for clonal selection of Marc 145 cells secreting high levels of recombinant protein PBD-1. Cytotechnology 68(2): 203-211
Caron, A.W.; Nicolas, C.; Gaillet, B.; Ba, Iïla.; Pinard, M.; Garnier, A.; Massie, B.; Gilbert, Rénald. 2009: Fluorescent labeling in semi-solid medium for selection of mammalian cells secreting high-levels of recombinant proteins. Bmc Biotechnology 9: 42
Knapp, D.C.; D'Onofrio, J.; Engels, J.W. 2010: Fluorescent labeling of (oligo)nucleotides by a new fluoride cleavable linker capable of versatile attachment modes. Bioconjugate Chemistry 21(6): 1043-1055
Marcos, S.; Requejo-Isidro, J.; Merayo-Lloves, J.; Acuña, A.Ulises.; Hornillos, V.; Carrillo, E.; Pérez-Merino, P.; Del Olmo-Aguado, S.; Del Aguila, C.; Amat-Guerri, F.; Rivas, L. 2012: Fluorescent labeling of Acanthamoeba assessed in situ from corneal sectioned microscopy. Biomedical Optics Express 3(10): 2489-2499
Provost, C.R.; Sun, L. 2010: Fluorescent labeling of COS-7 expressing SNAP-tag fusion proteins for live cell imaging. Journal of Visualized Experiments: Jove 2010(39)
Cunningham, R.E. 2010: Fluorescent labeling of DNA. Methods in Molecular Biology 588: 341-344
Alayari, N.N.; Vogler, G.; Taghli-Lamallem, O.; Ocorr, K.; Bodmer, R.; Cammarato, A. 2009: Fluorescent labeling of Drosophila heart structures. Journal of Visualized Experiments: Jove 2009(32)
Scheler, O.; Glynn, B.; Parkel, S.; Palta, P.; Toome, K.; Kaplinski, L.; Remm, M.; Maher, M.; Kurg, A. 2009: Fluorescent labeling of NASBA amplified tmRNA molecules for microarray applications. Bmc Biotechnology 9: 45
Ribagnac, P.; Cannizzo, C.; Méallet-Renault, R.; Clavier, G.; Audebert, P.; Pansu, R.; Bouteiller, L. 2013: Fluorescent labeling of a bisurea-based supramolecular polymer. Journal of Physical Chemistry. B 117(6): 1958-1966
Ferrara, F.; Listwan, P.; Waldo, G.S.; Bradbury, A.R.M. 2011: Fluorescent labeling of antibody fragments using split GFP. Plos one 6(10): E25727
Gonçalves, M.S.T. 2009: Fluorescent labeling of biomolecules with organic probes. Chemical Reviews 109(1): 190-212
Wang, Y.; Kakizaki, T.; Sakagami, H.; Saito, K.; Ebihara, S.; Kato, M.; Hirabayashi, M.; Saito, Y.; Furuya, N.; Yanagawa, Y. 2009: Fluorescent labeling of both GABAergic and glycinergic neurons in vesicular GABA transporter (VGAT)-venus transgenic mouse. Neuroscience 164(3): 1031-1043
Cunha-Reis, C.; El Haj, A.J.; Yang, X.; Yang, Y. 2013: Fluorescent labeling of chitosan for use in non-invasive monitoring of degradation in tissue engineering. Journal of Tissue Engineering and Regenerative Medicine 7(1): 39-50
Feliciano, R.P.; Heintz, J.A.; Krueger, C.G.; Vestling, M.M.; Reed, J.D. 2015: Fluorescent labeling of cranberry proanthocyanidins with 5-([4,6-dichlorotriazin-2-yl]amino)fluorescein (DTAF). Food Chemistry 166: 337-345
Freichels, Hélène.; Danhier, F.; Préat, Véronique.; Lecomte, P.; Jérôme, C. 2011: Fluorescent labeling of degradable poly(lactide-co-glycolide) for cellular nanoparticles tracking in living cells. International Journal of Artificial Organs 34(2): 152-160
Cheng, C.; Trzcinski, O.; Doering, L.C. 2014: Fluorescent labeling of dendritic spines in cell cultures with the carbocyanine dye "DiI". Frontiers in Neuroanatomy 8: 30
Aminuddin, M.; Ahmed, S.; Sheraz, M.A.; Ahmad, I.; Mahmood, K.; Miller, J.N. 2010: Fluorescent labeling of human albumin using the new aromatic dialdehyde labels and the study of innerfilter effect. Journal of Pharmacy and Bioallied Sciences 2(4): 369-371
Duca, M.; Dozza, B.; Lucarelli, E.; Santi, S.; Di Giorgio, A.; Barbarella, G. 2010: Fluorescent labeling of human mesenchymal stem cells by thiophene fluorophores conjugated to a lipophilic carrier. Chemical Communications 46(42): 7948-7950
Jin, Y.-j.; Duan, X.-b.; Wang, C.-z.; Zhang, W.-l. 2012: Fluorescent labeling of latent fingerprints with PAMAM capped ZnS QDs. Guang Pu Xue Yu Guang Pu Fen Xi 32(5): 1278-1281
Jin, Y.-J.; Duan, X.-B.; Lin, Y.-M.; Wang, S.-K. 2013: Fluorescent labeling of latent fingerprints with metallic ions modified ZnS/PAMAM nano-composites. Guang Pu Xue Yu Guang Pu Fen Xi 33(3): 663-667
Lee, J.-J.; Son, J.; Ha, H.-H.; Chang, Y.-T. 2011: Fluorescent labeling of membrane proteins on the surface of living cells by a self-catalytic glutathione S-transferase omega 1 tag. Molecular Biosystems 7(4): 1270-1276
Zhao, S.; Zhou, Y.; Gross, J.; Miao, P.; Qiu, L.; Wang, D.; Chen, Q.; Feng, G. 2010: Fluorescent labeling of newborn dentate granule cells in GAD67-GFP transgenic mice: a genetic tool for the study of adult neurogenesis. Plos one 5(9)
Katritzky, A.R.; Yoshioka, M.; Narindoshvili, T.; Chung, A.; Johnson, J.V. 2008: Fluorescent labeling of peptides on solid phase. Organic and Biomolecular Chemistry 6(24): 4582-4586
Heger, M.; Salles, I.I.; van Vuure, W.; Deckmyn, H.; Beek, J.F. 2009: Fluorescent labeling of platelets with polyanionic fluorescein derivatives. Analytical and Quantitative Cytology and Histology 31(4): 227-232
Modesti, M. 2011: Fluorescent labeling of proteins. Methods in Molecular Biology 783: 101-120
Tsukiji, S.; Hamachi, I. 2007: Fluorescent labeling of proteins by in-cell-directed chemistry. Tanpakushitsu Kakusan Koso. Protein Nucleic Acid Enzyme 52(13 Suppl): 1581-1587
van Driel, L.F.; Knoops, Kèvin.; Koster, A.J.; Valentijn, J.A. 2008: Fluorescent labeling of resin-embedded sections for correlative electron microscopy using tomography-based contrast enhancement. Journal of Structural Biology 161(3): 372-383
Puljung, M.C.; Zagotta, W.N. 2012: Fluorescent labeling of specific cysteine residues using CyMPL. Current Protocols in Protein Science Chapter 14: 14.14.1-14.14.10
Baggett, J.J.; Shaw, J.D.; Sciambi, C.J.; Watson, H.A.; Wendland, B. 2003: Fluorescent labeling of yeast. Current Protocols in Cell Biology Chapter 4: Unit 4.13
Pankov, R.; Momchilova, A. 2009: Fluorescent labeling techniques for investigation of fibronectin fibrillogenesis (labeling fibronectin fibrillogenesis). Methods in Molecular Biology 522: 261-274
Rocchetti, A.; Hawes, C.; Kriechbaumer, V. 2014: Fluorescent labelling of the actin cytoskeleton in plants using a cameloid antibody. Plant Methods 10: 12
Li, B.; Yu, Q.; Duan, Y. 2015: Fluorescent labels in biosensors for pathogen detection. Critical Reviews in Biotechnology 35(1): 82-93
Smith, G.C. 1949: Fluorescent lamps; a warning. Medical Journal of Australia 2(8): 294
Antonini, A.; Liberale, C.; Fellin, T. 2014: Fluorescent layers for characterization of sectioning microscopy with coverslip-uncorrected and water immersion objectives. Optics Express 22(12): 14293-14304
Tian, E.; Zhang, L.; Ten Hagen, K.G. 2013: Fluorescent lectin staining of Drosophila embryos and tissues to detect the spatial distribution of glycans during development. Methods in Molecular Biology 1022: 99-105
KleinJan, G.H.; Buckle, T.; van Willigen, D.M.; van Oosterom, M.N.ël.; Spa, S.J.; Kloosterboer, H.E.; van Leeuwen, F.W.B. 2014: Fluorescent lectins for local in vivo visualization of peripheral nerves. Molecules 19(7): 9876-9892
Nahrendorf, M.; Swirski, F.K. 2014: Fluorescent leukocytes enter plaque on the microscope stage. Circulation Research 114(5): 740-741
Hosny, N.A.; Fitzgerald, C.; Tong, C.; Kalberer, M.; Kuimova, M.K.; Pope, F.D. 2013: Fluorescent lifetime imaging of atmospheric aerosols: a direct probe of aerosol viscosity. Faraday Discussions 165: 343-356
Sorokina, M.; Koh, H.-R.; Patel, S.S.; Ha, T. 2009: Fluorescent lifetime trajectories of a single fluorophore reveal reaction intermediates during transcription initiation. Journal of the American Chemical Society 131(28): 9630-9631
Weitz, D.A.; Garoff, S.; Hanson, C.D.; Gramila, T.J.; Gersten, J.I. 1982: Fluorescent lifetimes of molecules on silver-island films. Optics Letters 7(2): 89-91
Umemoto, S.; Zhang, J.; Dohno, C.; Nakatani, K. 2008: Fluorescent ligand as a molecular probe for the RNA structure. Nucleic Acids Symposium Series 52: 211-212
Daly, C.J.; Ross, R.A.; Whyte, J.; Henstridge, C.M.; Irving, A.J.; McGrath, J.C. 2010: Fluorescent ligand binding reveals heterogeneous distribution of adrenoceptors and 'cannabinoid-like' receptors in small arteries. British Journal of Pharmacology 159(4): 787-796
Guo, J.; Song, L.; Liu, M.; Mahon, M.J. 2012: Fluorescent ligand-directed co-localization of the parathyroid hormone 1 receptor with the brush-border scaffold complex of the proximal tubule reveals hormone-dependent changes in ezrin immunoreactivity consistent with inactivation. Biochimica et Biophysica Acta 1823(12): 2243-2253
Carrone, G.; Gantov, F.; Slep, L.D.; Etchenique, R. 2014: Fluorescent ligands and energy transfer in photoactive ruthenium-bipyridine complexes. Journal of Physical Chemistry. a 118(45): 10416-10424
Stoddart, L.A.; Briddon, S.J.; Hill, S.J. 2013: Fluorescent ligands for G protein-coupled receptors: illuminating receptor-ligand interactions for drug discovery. Future Medicinal Chemistry 5(12): 1367-1369
Kozma, E.; Jayasekara, P.S.; Squarcialupi, L.; Paoletta, S.; Moro, S.; Federico, S.; Spalluto, G.; Jacobson, K.A. 2013: Fluorescent ligands for adenosine receptors. Bioorganic and Medicinal Chemistry Letters 23(1): 26-36
Bawolak, M.-T.ér.ès.; Gera, L.; Morissette, G.; Bouthillier, J.; Stewart, J.M.; Gobeil, L.-A.ée.; Lodge, R.; Adam, A.; Marceau, F.ço. 2009: Fluorescent ligands of the bradykinin B1 receptors: pharmacologic characterization and application to the study of agonist-induced receptor translocation and cell surface receptor expression. Journal of Pharmacology and Experimental Therapeutics 329(1): 159-168
Cottet, M.; Faklaris, O.; Falco, A.; Trinquet, E.; Pin, J.-P.; Mouillac, B.; Durroux, T. 2013: Fluorescent ligands to investigate GPCR binding properties and oligomerization. Biochemical Society Transactions 41(1): 148-153
Paulson, H.O. 1949: Fluorescent light compared with incandescent light. Nebraska State Medical Journal 34(6): 212-216
Bowtell, J.N.; Miles, E.E. 1947: Fluorescent light sources. British Science News 1(5): 2-4
Liang, J.; Kwok, R.T.K.; Shi, H.; Tang, B.Z.; Liu, B. 2013: Fluorescent light-up probe with aggregation-induced emission characteristics for alkaline phosphatase sensing and activity study. Acs Applied Materials and Interfaces 5(17): 8784-8789
Shi, H.; Zhao, N.; Ding, D.; Liang, J.; Tang, B.Z.; Liu, B. 2013: Fluorescent light-up probe with aggregation-induced emission characteristics for in vivo imaging of cell apoptosis. Organic and Biomolecular Chemistry 11(42): 7289-7296
Ding, D.; Ma, W.; Zhang, Y.; Shi, R.; Zhou, J.; Zheng, W. 2009: Fluorescent linear labelling method for biochip applications. Sheng Wu Yi Xue Gong Cheng Xue Za Zhi 26(2): 405-407; 412
Yangyuoru, P.M.; Hammonds-Odie, L.; Mwongela, S.M. 2013: Fluorescent lipids as probes for sphingosine kinase activity by capillary electrophoresis. Methods in Molecular Biology 984: 329-340
Kleusch, C.; Hersch, N.; Hoffmann, B.; Merkel, R.; Csiszár, A. 2012: Fluorescent lipids: functional parts of fusogenic liposomes and tools for cell membrane labeling and visualization. Molecules 17(1): 1055-1073
Deissler, V.; Rüger, R.; Frank, W.; Fahr, A.; Kaiser, W.A.; Hilger, I. 2008: Fluorescent liposomes as contrast agents for in vivo optical imaging of edemas in mice. Small 4(8): 1240-1246
Nyren-Erickson, E.K.; Haldar, M.K.; Gu, Y.; Qian, S.Y.; Friesner, D.L.; Mallik, S. 2011: Fluorescent liposomes for differential interactions with glycosaminoglycans. Analytical Chemistry 83(15): 5989-5995
Lim, J.-M.; Kim, S.-H.; Choi, J.-H.; Yang, S.-M. 2008: Fluorescent liquid-core/air-cladding waveguides towards integrated optofluidic light sources. Lab on a Chip 8(9): 1580-1585
Mu, L.; Shi, W.; She, G.; Chang, J.C.; Lee, S.-T. 2009: Fluorescent logic gates chemically attached to silicon nanowires. Angewandte Chemie 48(19): 3469-3472
Wadhavane, P.D.; Izquierdo, M.Án.; Lutters, D.; Burguete, M.I.; Marín, M.ía.J.; Russell, D.A.; Galindo, F.; Luis, S.V. 2014: Fluorescent macrocyclic probes with pendant functional groups as markers of acidic organelles within live cells. Organic and Biomolecular Chemistry 12(5): 823-831
Bogdanov, A.A.; Mazzanti, M.L. 2013: Fluorescent macromolecular sensors of enzymatic activity for in vivo imaging. Progress in Molecular Biology and Translational Science 113: 349-387
Leong, W.L.; Batabyal, S.K.; Kasapis, S.; Vittal, J.J. 2008: Fluorescent magnesium(II) coordination polymeric hydrogel. Chemistry 14(29): 8822-8829
Zhu, H.; Shang, Y.; Wang, W.; Zhou, Y.; Li, P.; Yan, K.; Wu, S.; Yeung, K.W.K.; Xu, Z.; Xu, H.; Chu, P.K. 2013: Fluorescent magnetic Fe3 O4 /rare Earth colloidal nanoparticles for dual-modality imaging. Small 9(17): 2991-3000
Koktysh, D.; Bright, V.; Pham, W. 2011: Fluorescent magnetic hybrid nanoprobe for multimodal bioimaging. Nanotechnology 22(27): 275606
Gao, J.; Zhang, B.; Gao, Y.; Pan, Y.; Zhang, X.; Xu, B. 2007: Fluorescent magnetic nanocrystals by sequential addition of reagents in a one-pot reaction: a simple preparation for multifunctional nanostructures. Journal of the American Chemical Society 129(39): 11928-11935
Ruan, J.; Ji, J.; Song, H.; Qian, Q.; Wang, K.; Wang, C.; Cui, D. 2012: Fluorescent magnetic nanoparticle-labeled mesenchymal stem cells for targeted imaging and hyperthermia therapy of in vivo gastric cancer. Nanoscale Research Letters 7(1): 309
Fu, A.; Wilson, R.J.; Smith, B.R.; Mullenix, J.; Earhart, C.; Akin, D.; Guccione, S.; Wang, S.X.; Gambhir, S.S. 2012: Fluorescent magnetic nanoparticles for magnetically enhanced cancer imaging and targeting in living subjects. Acs Nano 6(8): 6862-6869
Chen, Y-Chu.; Chang, W-Hsiang.; Wang, S-Jy.; Hsieh, W-Yuan. 2012: Fluorescent magnetic nanoparticles with specific targeting functions for combinded targeting, optical imaging and magnetic resonance imaging. Journal of Biomaterials Science. Polymer Edition 23(15): 1903-1922
Zhang, G.; Feng, J.; Lu, L.; Zhang, B.; Cao, L. 2010: Fluorescent magnetic nanoprobes: design and application for cell imaging. Journal of Colloid and Interface Science 351(1): 128-133
Yang, W.; Pan, C.-Y.; Luo, M.-D.; Zhang, H.-B. 2010: Fluorescent mannose-functionalized hyperbranched poly(amido amine)s: synthesis and interaction with E. coli. Biomacromolecules 11(7): 1840-1846
Dylla-Spears, R.; Townsend, J.E.; Sohn, L.L.; Jen-Jacobson, L.; Muller, S.J. 2009: Fluorescent marker for direct detection of specific dsDNA sequences. Analytical Chemistry 81(24): 10049-10054
Aigner, D.; Ungerböck, B.; Mayr, T.; Saf, R.; Klimant, I.; Borisov, S.M. 2013: Fluorescent materials for pH sensing and imaging based on novel 1,4-diketopyrrolo-[3,4- c ]pyrrole dyes†Electronic supplementary information (ESI) available: NMR and MS spectra, further sensor characteristics and sensor long-time performance. See DOI: 10.1039/c3tc31130aClick here for additional data file. Journal of Materials Chemistry. C 1(36): 5685-5693
Simpson, A.W.M. 2013: Fluorescent measurement of [Ca²⁺]c: basic practical considerations. Methods in Molecular Biology 937: 3-36
Gao, C.; Sun, X.; Woolley, A.T. 2013: Fluorescent measurement of affinity binding between thrombin and its aptamers using on-chip affinity monoliths. Journal of Chromatography. a 1291: 92-96
Yang, Y.-J.; Tao, X.; Hou, Q.; Chen, J.-F. 2009: Fluorescent mesoporous silica nanotubes incorporating CdS quantum dots for controlled release of ibuprofen. Acta Biomaterialia 5(9): 3488-3496
Zhang, J.; Fu, Y.; Li, G.; Lakowicz, J.R.; Zhao, R.Y. 2011: Fluorescent metal nanoshell and CK19 detection on single cell image. Biochemical and Biophysical Research Communications 413(1): 53-57
Zhang, J.; Fu, Y.; Mei, Y.; Jiang, F.; Lakowicz, J.R. 2010: Fluorescent metal nanoshell probe to detect single miRNA in lung cancer cell. Analytical Chemistry 82(11): 4464-4471
Yang, C.-X.; Ren, H.-B.; Yan, X.-P. 2013: Fluorescent metal-organic framework MIL-53(Al) for highly selective and sensitive detection of Fe3+ in aqueous solution. Analytical Chemistry 85(15): 7441-7446
Gole, B.; Bar, A.K.; Mukherjee, P.S. 2011: Fluorescent metal-organic framework for selective sensing of nitroaromatic explosives. Chemical Communications 47(44): 12137-12139
Yu, X.-Y.; Ye, L.; Zhang, X.; Cui, X.-B.; Zhang, J.-P.; Xu, J.-Q.; Hou, Q.; Wang, T.-G. 2010: Fluorescent metal-organic polymers of zinc and cadmium from hydrothermal in situ acylation reaction. Dalton Transactions 39(44): 10617-10625
Gainullina, E.T.; Kondratyev, K.V.; Ryzhikov, S.B.; Taranchenko, V.F. 2006: Fluorescent method for evaluation of cholinesterase inhibitors. Bulletin of Experimental Biology and Medicine 142(6): 751-752
Garner, A.L.; Koide, K. 2009: Fluorescent method for platinum detection in buffers and serums for cancer medicine and occupational hazards. Chemical Communications 1: 83-85
Zhang, B.-H.; Wu, F.-Y.; Wu, Y.-M.; Zhan, X.-S. 2010: Fluorescent method for the determination of sulfide anion with ZnS:Mn quantum dots. Journal of Fluorescence 20(1): 243-250
Artyukhov, V.G.; Putintseva, O.V.; Vdovina, V.A.; Pashkov, M.V.; Vasilenko, D.V. 2012: Fluorescent methods in the study of UV-induced changes in structural and functional state of human blood lymphocytes. Bulletin of Experimental Biology and Medicine 153(6): 907-911
Deshpande, A.P.; Sultana, S.; Patel, S.S. 2014: Fluorescent methods to study transcription initiation and transition into elongation. Experientia Supplementum 105: 105-130
Zhang, L.; Lin, Y.; Zhang, Y.; Chen, R.; Zhu, Z.; Wu, W.; Jiang, X. 2012: Fluorescent micelles based on star amphiphilic copolymer with a porphyrin core for bioimaging and drug delivery. Macromolecular Bioscience 12(1): 83-92
Advani, A.; Connelly, K.A.; Yuen, D.A.; Zhang, Y.; Advani, S.L.; Trogadis, J.; Kabir, M.G.; Shachar, E.; Kuliszewski, M.A.; Leong-Poi, H.; Stewart, D.J.; Gilbert, R.E. 2011: Fluorescent microangiography is a novel and widely applicable technique for delineating the renal microvasculature. Plos one 6(10): E24695
Li, J.-d.; Zhang, S.; Zhang, Q.-f.; Liu, Q.-z.; Wei, Y.; Li, C.; Liang, M.-f.; Li, D.-x. 2009: Fluorescent microbeads-based multiplex detection of IgM antibodies to pathogens caused viral hemorrhagic fever. Zhonghua Shi Yan he Lin Chuang Bing du Xue Za Zhi 23(2): 149-151
Fery-Forgues, S.; El-Ayoubi, R.; Lamère, J.-F.ço. 2008: Fluorescent microcrystals obtained from coumarin 6 using the reprecipitation method. Journal of Fluorescence 18(3-4): 619-624
Acosta, M.A.; Ymele-Leki, P.; Kostov, Y.V.; Leach, J.B. 2009: Fluorescent microparticles for sensing cell microenvironment oxygen levels within 3D scaffolds. Biomaterials 30(17): 3068-3074
Patra, A.; Scherf, U. 2012: Fluorescent microporous organic polymers: potential testbed for optical applications. Chemistry 18(33): 10074-10080
Liang, J.-F.; Zheng, H.-X.; Li, N.; Yin, Y.; Cheng, C.-X.; Wang, H.-K.; Wu, L.-N.; Xiao, H. 2010: Fluorescent microsatellite analysis of urine sediment in patients with urothelial carcinoma. Urologia Internationalis 85(3): 296-303
Ibsen, S.; Benchimol, M.; Esener, S. 2013: Fluorescent microscope system to monitor real-time interactions between focused ultrasound, echogenic drug delivery vehicles, and live cell membranes. Ultrasonics 53(1): 178-184
Willett, R.A.; Pokrovskaya, I.D.; Lupashin, V.V. 2013: Fluorescent microscopy as a tool to elucidate dysfunction and mislocalization of Golgi glycosyltransferases in COG complex depleted mammalian cells. Methods in Molecular Biology 1022: 61-72
Miksch, T.; Melzer, Aé. 2007: Fluorescent microspheres as tracer particles in dusty plasmas. Physical Review. E Statistical Nonlinear and Soft Matter Physics 75(1 Pt 2): 016404
Bonacic, K.; Valles, R.; Gómez-Arbonés, X.; Estévez, A.; Morais, S. 2013: Fluorescent microspheres--a new approach to quantifying live feed intake in larval fish. Communications in Agricultural and Applied Biological Sciences 78(4): 48-51
Preidl, J.J.; Gnanapragassam, V.S.; Lisurek, M.; Saupe, J.ör.; Horstkorte, R.üd.; Rademann, J.ör. 2014: Fluorescent mimetics of CMP-Neu5Ac are highly potent, cell-permeable polarization probes of eukaryotic and bacterial sialyltransferases and inhibit cellular sialylation. Angewandte Chemie 53(22): 5700-5705
Micotto, T.L.; Brown, A.S.; Wilson, J.N. 2009: Fluorescent mimics of 5-hydroxytryptamine based on N-alkylated derivatives of 6-hydroxycarbostyril. Chemical Communications 48: 7548-7550
Glotzbach, C.; Kauscher, U.; Voskuhl, J.; Kehr, N.S.; Stuart, M.C.A.; Fröhlich, R.; Galla, H.J.; Ravoo, B.J.; Nagura, K.; Saito, S.; Yamaguchi, S.; Würthwein, E.-U. 2013: Fluorescent modular boron systems based on NNN- and ONO-tridentate ligands: self-assembly and cell imaging. Journal of Organic Chemistry 78(9): 4410-4418
Pogue, B.W.; Samkoe, K.S.; Gibbs-Strauss, S.L.; Davis, S.C. 2010: Fluorescent molecular imaging and dosimetry tools in photodynamic therapy. Methods in Molecular Biology 635: 207-222
Alexander, V.M.; Choyke, P.L.; Kobayashi, H. 2013: Fluorescent molecular imaging: technical progress and current preclinical and clinical applications in urogynecologic diseases. Current Molecular Medicine 13(10): 1568-1578
Kou, S.; Lee, H.N.; van Noort, D.; Swamy, K.M.K.; Kim, S.H.; Soh, J.H.; Lee, K.-M.; Nam, S.-W.; Yoon, J.; Park, S. 2008: Fluorescent molecular logic gates using microfluidic devices. Angewandte Chemie 47(5): 872-876
Llombart, V.íc.; Dominguez, C.; Bustamante, A.; Rodriguez-Sureda, V.; Martín-Gallán, P.; Vilches, A.; García-Berrocoso, T.; Penalba, A.; Hernández-Guillamon, M.; Rubiera, M.; Ribó, M.; Eschenfelder, C.; Giralt, D.; Molina, C.A.; Alvarez-Sabín, J.é; Rosell, A.; Montaner, J. 2014: Fluorescent molecular peroxidation products: a prognostic biomarker of early neurologic deterioration after thrombolysis. Stroke 45(2): 432-437
Hawe, A.; Filipe, V.; Jiskoot, W. 2010: Fluorescent molecular rotors as dyes to characterize polysorbate-containing IgG formulations. Pharmaceutical Research 27(2): 314-326
Bahaidarah, E.; Harriman, A.; Stachelek, P.; Rihn, S.; Heyer, E.; Ziessel, R. 2014: Fluorescent molecular rotors based on the BODIPY motif: effect of remote substituents. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 13(10): 1397-1401
Uchiyama, S.; Gota, C. 2007: Fluorescent molecular thermometers for bioimaging. Tanpakushitsu Kakusan Koso. Protein Nucleic Acid Enzyme 52(13 Suppl): 1608-1612
Zou, W.; Wang, J.; Feng, D.D. 2007: Fluorescent molecular tomographic image reconstruction based on the Green's function. Journal of the Optical Society of America. a Optics Image Science and Vision 24(7): 2014-2022
Manju, S.; Hari, P.R.; Sreenivasan, K. 2010: Fluorescent molecularly imprinted polymer film binds glucose with a concomitant changes in fluorescence. Biosensors and Bioelectronics 26(2): 894-897
Inoue, Y.; Kuwahara, A.; Ohmori, K.; Sunayama, H.; Ooya, T.; Takeuchi, T. 2013: Fluorescent molecularly imprinted polymer thin films for specific protein detection prepared with dansyl ethylenediamine-conjugated O-acryloyl L-hydroxyproline. Biosensors and Bioelectronics 48: 113-119
Rogers, T.A.; Andrews, G.E.; Jaeger, L.; Grabow, W.W. 2015: Fluorescent monitoring of RNA assembly and processing using the split-spinach aptamer. Acs Synthetic Biology 4(2): 162-166
Breul, A.M.; Hager, M.D.; Schubert, U.S. 2013: Fluorescent monomers as building blocks for dye labeled polymers: synthesis and application in energy conversion, biolabeling and sensors. Chemical Society Reviews 42(12): 5366-5407
Li, Y.; Dooley, C.T.; Misler, J.A.; Debevec, G.; Giulianotti, M.A.; Cazares, M.E.; Maida, L.; Houghten, R.A. 2012: Fluorescent mu selective opioid ligands from a mixture based cyclic peptide library. Acs Combinatorial Science 14(12): 673-679
Ahmed, E.; Morton, S.W.; Hammond, P.T.; Swager, T.M. 2013: Fluorescent multiblock π-conjugated polymer nanoparticles for in vivo tumor targeting. Advanced Materials 25(32): 4504-4510
McIntosh, A.L.; Huang, H.; Atshaves, B.P.; Wellberg, E.; Kuklev, D.V.; Smith, W.L.; Kier, A.B.; Schroeder, F. 2010: Fluorescent n-3 and n-6 very long chain polyunsaturated fatty acids: three-photon imaging in living cells expressing liver fatty acid-binding protein. Journal of Biological Chemistry 285(24): 18693-18708
Langhals, H.; Pust, T. 2010: Fluorescent nano particles in the aqueous phase by polymer analogous reaction of polyvinyl alcohol. Spectrochimica Acta. Part A Molecular and Biomolecular Spectroscopy 77(2): 541-544
Billingsley, K.; Balaconis, M.K.; Dubach, J.M.; Zhang, N.; Lim, E.; Francis, K.P.; Clark, H.A. 2010: Fluorescent nano-optodes for glucose detection. Analytical Chemistry 82(9): 3707-3713
Bhalla, V.; Gupta, A.; Kumar, M. 2012: Fluorescent nanoaggregates of pentacenequinone derivative for selective sensing of picric acid in aqueous media. Organic Letters 14(12): 3112-3115
Sukhanova, A.; Nabiev, I. 2008: Fluorescent nanocrystal quantum dots as medical diagnostic tools. Expert Opinion on Medical Diagnostics 2(4): 429-447
Sukhanova, A.; Nabiev, I. 2008: Fluorescent nanocrystal-encoded microbeads for multiplexed cancer imaging and diagnosis. Critical Reviews in Oncology/Hematology 68(1): 39-59
Tortiglione, C.; Quarta, A.; Malvindi, M.A.; Tino, A.; Pellegrino, T. 2009: Fluorescent nanocrystals reveal regulated portals of entry into and between the cells of Hydra. Plos one 4(11): E7698
Kuo, Y.; Hsu, T.-Y.; Wu, Y.-C.; Chang, H.-C. 2013: Fluorescent nanodiamond as a probe for the intercellular transport of proteins in vivo. Biomaterials 34(33): 8352-8360
Ivukina, E.A.; Sreenivasan, V.K.A.; Stremovskiy, O.A.; Veryugin, B.V.; Lukash, S.V.; Zvyagin, A.V.; Deyev, S.M.; Petrov, R.V. 2011: Fluorescent nanodiamond bioconjugates on the base of barnase:barstar module. Doklady. Biochemistry and Biophysics 440: 231-233
Rehor, I.; Slegerova, J.; Kucka, J.; Proks, V.; Petrakova, V.; Adam, M.-P.; Treussart, F.ço.; Turner, S.; Bals, S.; Sacha, P.; Ledvina, M.; Wen, A.M.; Steinmetz, N.F.; Cigler, P. 2014: Fluorescent nanodiamonds embedded in biocompatible translucent shells. Small 10(6): 1106-1115
Wang, J.; Loh, K.P.; Wang, Z.; Yan, Y.; Zhong, Y.; Xu, Q.-H.; Ho, P.C. 2009: Fluorescent nanogel of arsenic sulfide nanoclusters. Angewandte Chemie 48(34): 6282-6285
Zhu, H.; Yu, T.; Xu, H.; Zhang, K.; Jiang, H.; Zhang, Z.; Wang, Z.; Wang, S. 2014: Fluorescent nanohybrid of gold nanoclusters and quantum dots for visual determination of lead ions. Acs Applied Materials and Interfaces 6(23): 21461-21467
Mansur, A.A.P.; Mansur, H.S.; Soriano-Araújo, A.; Lobato, Z.él.I.P. 2014: Fluorescent nanohybrids based on quantum dot-chitosan-antibody as potential cancer biomarkers. Acs Applied Materials and Interfaces 6(14): 11403-11412
Ye, X.; Zhang, J.; Chen, H.; Wang, X.; Huang, F. 2014: Fluorescent nanomicelles for selective detection of Sudan dye in Pluronic F127 aqueous media. Acs Applied Materials and Interfaces 6(7): 5113-5121
van der Maaden, K.; Sliedregt, K.; Kros, A.; Jiskoot, W.; Bouwstra, J. 2012: Fluorescent nanoparticle adhesion assay: a novel method for surface pKa determination of self-assembled monolayers on silicon surfaces. Langmuir 28(7): 3403-3411
Yang, J.; Shen, L.; Ma, J.; Schlaberg, H.Inaki.; Liu, S.; Xu, J.; Zhang, C. 2013: Fluorescent nanoparticle beacon for logic gate operation regulated by strand displacement. Acs Applied Materials and Interfaces 5(12): 5392-5396
He, B.; Chu, Y.; Yin, M.; Müllen, K.; An, C.; Shen, J. 2013: Fluorescent nanoparticle delivered dsRNA toward genetic control of insect pests. Advanced Materials 25(33): 4580-4584
Zhao, W.; Wang, L.; Tan, W. 2007: Fluorescent nanoparticle for bacteria and DNA detection. Advances in Experimental Medicine and Biology 620: 129-135
Habibollahi, P.; Waldron, T.; Heidari, P.; Cho, H.Sung.; Alcantara, D.; Josephson, L.; Wang, T.C.; Rustgi, A.K.; Mahmood, U. 2014: Fluorescent nanoparticle imaging allows noninvasive evaluation of immune cell modulation in esophageal dysplasia. Molecular Imaging 13: 1-11
Santra, S.; Malhotra, A. 2011: Fluorescent nanoparticle probes for imaging of cancer. Wiley Interdisciplinary Reviews. Nanomedicine and Nanobiotechnology 3(5): 501-510
Qin, D.; He, X.; Wang, K.; Zhao, X.Julia.; Tan, W.; Chen, J. 2007: Fluorescent nanoparticle-based indirect immunofluorescence microscopy for detection of Mycobacterium tuberculosis. Journal of Biomedicine and Biotechnology 2007(7): 89364
Cui, K.; Lu, X.; Cui, W.; Wu, J.; Chen, X.; Lu, Q. 2011: Fluorescent nanoparticles assembled from a poly(ionic liquid) for selective sensing of copper ions. Chemical Communications 47(3): 920-922
Patra, A.; Koenen, J-Moritz.; Scherf, U. 2011: Fluorescent nanoparticles based on a microporous organic polymer network: fabrication and efficient energy transfer to surface-bound dyes. Chemical Communications 47(34): 9612-9614
Kaeser, A.; Schenning, A.P.H.J. 2010: Fluorescent nanoparticles based on self-assembled pi-conjugated systems. Advanced Materials 22(28): 2985-2997
Koga, H.; Toita, R.; Mori, T.; Tomiyama, T.; Kang, J-Hun.; Niidome, T.; Katayama, Y. 2011: Fluorescent nanoparticles consisting of lipopeptides and fluorescein-modified polyanions for monitoring of protein kinase activity. Bioconjugate Chemistry 22(8): 1526-1534
Ruedas-Rama, M.J.; Walters, J.D.; Orte, A.; Hall, E.A.H. 2012: Fluorescent nanoparticles for intracellular sensing: a review. Analytica Chimica Acta 751: 1-23
Jia, Z-Feng.; Lee, B-Cheon.; Eom, K-Hoon.; Cha, J-Myung.; Lee, J-Kyu.; Su, Z-Dong.; Yu, W-Hui.; Ryu, P.Dong.; Soh, K-Sup. 2010: Fluorescent nanoparticles for observing primo vascular system along sciatic nerve. Journal of Acupuncture and Meridian Studies 3(3): 150-155
Dubach, J.Matthew.; Balaconis, M.K.; Clark, H.A. 2011: Fluorescent nanoparticles for the measurement of ion concentration in biological systems. Journal of Visualized Experiments: Jove 2011(53)
Cui, W.; Lu, X.; Cui, K.; Wu, J.; Wei, Y.; Lu, Q. 2011: Fluorescent nanoparticles of chitosan complex for real-time monitoring drug release. Langmuir 27(13): 8384-8390
Tsyalkovsky, V.; Burtovyy, R.; Klep, V.; Lupitskyy, R.; Motornov, M.; Minko, S.; Luzinov, I. 2010: Fluorescent nanoparticles stabilized by poly(ethylene glycol) containing shell for pH-triggered tunable aggregation in aqueous environment. Langmuir 26(13): 10684-10692
Sandanaraj, B.S.; Gremlich, H.-U.; Kneuer, R.; Dawson, J.; Wacha, S. 2010: Fluorescent nanoprobes as a biomarker for increased vascular permeability: implications in diagnosis and treatment of cancer and inflammation. Bioconjugate Chemistry 21(1): 93-101
Mérian, J.; Gravier, J.; Navarro, F.; Texier, I. 2012: Fluorescent nanoprobes dedicated to in vivo imaging: from preclinical validations to clinical translation. Molecules 17(5): 5564-5591
Chauhan, V.P.; Popović, Z.; Chen, O.; Cui, J.; Fukumura, D.; Bawendi, M.G.; Jain, R.K. 2011: Fluorescent nanorods and nanospheres for real-time in vivo probing of nanoparticle shape-dependent tumor penetration. Angewandte Chemie 50(48): 11417-11420
Park, H.K.; Gokarna, A.; Hulme, J.P.; Park, H.G.; Chung, B.H. 2008: Fluorescent nanoscale detection of biotin-streptavidin interaction using near-field scanning optical microscopy. Nanotechnology 19(23): 235103
Zhang, C.; Che, Y.; Zhang, Z.; Yang, X.; Zang, L. 2011: Fluorescent nanoscale zinc(II)-carboxylate coordination polymers for explosive sensing. Chemical Communications 47(8): 2336-2338
Han, Y.; Li, P.; Xu, Y.; Li, H.; Song, Z.; Nie, Z.; Chen, Z.; Yao, S. 2015: Fluorescent nanosensor for probing histone acetyltransferase activity based on acetylation protection and magnetic graphitic nanocapsules. Small 11(7): 877-885
Desai, A.S.; Chauhan, V.M.; Johnston, A.P.R.; Esler, T.; Aylott, J.W. 2013: Fluorescent nanosensors for intracellular measurements: synthesis, characterization, calibration, and measurement. Frontiers in Physiology 4: 401
Jaque, D.; Rosal, B.D.; Rodríguez, E.M.ín.; Maestro, L.M.ín.; Haro-González, P.; Solé, J.é G.ía. 2014: Fluorescent nanothermometers for intracellular thermal sensing. Nanomedicine 9(7): 1047-1062
Maestro, L.M.ín.; Haro-González, P.; Iglesias-de la Cruz, M.C.; Sanz-Rodríguez, F.; Juarranz, Án.; Solé, J.é G.ía.; Jaque, D. 2013: Fluorescent nanothermometers provide controlled plasmonic-mediated intracellular hyperthermia. Nanomedicine 8(3): 379-388
Adolfsson, K.; Persson, H.; Wallentin, J.; Oredsson, S.; Samuelson, L.; Tegenfeldt, J.O.; Borgström, M.T.; Prinz, C.N. 2013: Fluorescent nanowire heterostructures as a versatile tool for biology applications. Nano Letters 13(10): 4728-4732
Böhm, I.; Isenbügel, K.; Ritter, H.; Branscheid, R.; Kolb, U. 2011: Fluorescent nanowires self-assembled through host-guest interactions in modified calcein. Angewandte Chemie 50(32): 7407-7409
Alexandropoulos, D.I.; Fournet, A.; Cunha-Silva, L.ís.; Mowson, A.M.; Bekiari, V.; Christou, G.; Stamatatos, T.C. 2014: Fluorescent naphthalene diols as bridging ligands in Ln(III) cluster chemistry: synthetic, structural, magnetic, and photophysical characterization of Ln(III)8 "Christmas stars". Inorganic Chemistry 53(11): 5420-5422
Umeda, N.; Tsurugi, H.; Satoh, T.; Miura, M. 2008: Fluorescent naphthyl- and anthrylazoles from the catalytic coupling of phenylazoles with internal alkynes through the cleavage of multiple C-H bonds. Angewandte Chemie 47(21): 4019-4022
Thorp, R.W.; Briggs, D.L.; Estes, J.R.; Erickson, E.H. 1976: Fluorescent nectar. Science 194(4262): 342
Brown, A.S.; Bernal, L.-M.; Micotto, T.L.; Smith, E.L.; Wilson, J.N. 2011: Fluorescent neuroactive probes based on stilbazolium dyes. Organic and Biomolecular Chemistry 9(7): 2142-2148
Frizler, M.; Mertens, M.D.; Gütschow, M. 2012: Fluorescent nitrile-based inhibitors of cysteine cathepsins. Bioorganic and Medicinal Chemistry Letters 22(24): 7715-7718
Alsibai, W.; Hahnenkamp, A.; Eisenblätter, M.; Riemann, B.; Schäfers, M.; Bremer, C.; Haufe, G.ün.; Höltke, C. 2014: Fluorescent non-peptidic RGD mimetics with high selectivity for αVβ3 vs αIIbβ3 integrin receptor: novel probes for in vivo optical imaging. Journal of Medicinal Chemistry 57(23): 9971-9982
Soenen, S.J.; Manshian, B.; Doak, S.H.; De Smedt, S.C.; Braeckmans, K. 2013: Fluorescent non-porous silica nanoparticles for long-term cell monitoring: cytotoxicity and particle functionality. Acta Biomaterialia 9(11): 9183-9193
Wilhelmsson, L.M. 2010: Fluorescent nucleic acid base analogues. Quarterly Reviews of Biophysics 43(2): 159-183
Xie, Y.; Maxson, T.; Tor, Y. 2010: Fluorescent nucleoside analogue displays enhanced emission upon pairing with guanine. Organic and Biomolecular Chemistry 8(22): 5053-5055
Wenska, G.; Skalski, B.; Paszyc, S.; Wnuk, S.; Adamiak, R.W. 1994: Fluorescent nucleoside derivatives: Luminescence study of 4-dimethylaminopyridinium chloride derived from guanosine. Journal of Fluorescence 4(4): 283-286
Toseland, C.P.; Webb, M.R. 2011: Fluorescent nucleoside triphosphates for single-molecule enzymology. Methods in Molecular Biology 778: 161-174
Saito, Y.; Miyamoto, S.; Suzuki, A.; Matsumoto, K.; Ishihara, T.; Saito, I. 2012: Fluorescent nucleosides with 'on-off' switching function, pH-responsive fluorescent uridine derivatives. Bioorganic and Medicinal Chemistry Letters 22(8): 2753-2756
Aslund, A.; Nilsson, K.Peter.R.; Konradsson, P. 2009: Fluorescent oligo and poly-thiophenes and their utilization for recording biological events of diverse origin-when organic chemistry meets biology. Journal of Chemical Biology 2(4): 161-175
Wu, Z.-S.; Hu, P.; Zhou, H.; Shen, G.; Yu, R. 2010: Fluorescent oligonucleotide probe based on G-quadruplex scaffold for signal-on ultrasensitive protein assay. Biomaterials 31(7): 1918-1924
Ballal, R.; Cheema, A.; Ahmad, W.; Rosen, E.M.; Saha, T. 2009: Fluorescent oligonucleotides can serve as suitable alternatives to radiolabeled oligonucleotides. Journal of Biomolecular Techniques: Jbt 20(4): 190-194
De Rooy, S.L.; El-Zahab, B.; Li, M.; Das, S.; Broering, E.; Chandler, L.; Warner, I.M. 2011: Fluorescent one-dimensional nanostructures from a group of uniform materials based on organic salts. Chemical Communications 47(31): 8916-8918
Sergachev, I.; Rusanov, A.; Trushkin, E.; Sakharov, D.; Marx, U.; Tonevitsky, A. 2013: Fluorescent optical fiber sensors for cell viability monitoring. Analyst 138(14): 4066-4069
Panasyuk, G.Y.; Wang, Z.-M.; Schotland, J.C.; Markel, V.A. 2008: Fluorescent optical tomography with large data sets. Optics Letters 33(15): 1744-1746
Schaeffer, N.; Tan, B.; Dickinson, C.; Rosseinsky, M.J.; Laromaine, A.; McComb, D.W.; Stevens, M.M.; Wang, Y.; Petit, L.; Barentin, C.; Spiller, D.G.; Cooper, A.I.; Lévy, R.ël. 2008: Fluorescent or not? Size-dependent fluorescence switching for polymer-stabilized gold clusters in the 1.1-1.7 nm size range. Chemical Communications 34: 3986-3988
Fery-Forgues, S. 2013: Fluorescent organic nanocrystals and non-doped nanoparticles for biological applications. Nanoscale 5(18): 8428-8442
Lin, H-Hung.; Su, S-Yuan.; Chang, C-Chung. 2009: Fluorescent organic nanoparticle formation in lysosomes for cancer cell recognition. Organic and Biomolecular Chemistry 7(10): 2036-2039
Wang, J.; Xu, X.; Shi, L.; Li, L. 2013: Fluorescent organic nanoparticles based on branched small molecule: preparation and ion detection in lithium-ion battery. Acs Applied Materials and Interfaces 5(8): 3392-3400
Singh, A.; Raj, T.; Aree, T.; Singh, N. 2013: Fluorescent organic nanoparticles of Biginelli-based molecules: recognition of Hg2+ and Cl- in an aqueous medium. Inorganic Chemistry 52(24): 13830-13832
Li, X.; Li, Z.; Jing, Y.; Bing, B.; Li, B. 2012: Fluorescent organic nanoparticles self-assembled from hexa[p-(carbonyl glycin methyl ester) phenoxy] cyclotriphosphazene in solution. Journal of Colloid and Interface Science 375(1): 41-49
Tang, F.; Wang, C.; Wang, J.; Wang, X.; Li, L. 2014: Fluorescent organic nanoparticles with enhanced fluorescence by self-aggregation and their application to cellular imaging. Acs Applied Materials and Interfaces 6(20): 18337-18343
Jensen, M.K.; Wang, Y.; Rimm, E.B.; Townsend, M.K.; Willett, W.; Wu, T. 2013: Fluorescent oxidation products and risk of coronary heart disease: a prospective study in women. Journal of the American Heart Association 2(5): E000195
Cuche, A.; Masenelli, B.; Ledoux, G.; Amans, D.; Dujardin, C.; Sonnefraud, Y.; Mélinon, P.; Huant, S. 2009: Fluorescent oxide nanoparticles adapted to active tips for near-field optics. Nanotechnology 20(1): 015603
Lambrechts, D.; Roeffaers, M.; Kerckhofs, G.; Roberts, S.J.; Hofkens, J.; Van de Putte, T.; Van Oosterwyck, H.; Schrooten, J. 2013: Fluorescent oxygen sensitive microbead incorporation for measuring oxygen tension in cell aggregates. Biomaterials 34(4): 922-929
Hynes, J.; Natoli, E.; Will, Y. 2009: Fluorescent pH and oxygen probes of the assessment of mitochondrial toxicity in isolated mitochondria and whole cells. Current Protocols in Toxicology Chapter 2: Unit 2.16
Bai, Z.; Chen, R.; Si, P.; Huang, Y.; Sun, H.; Kim, D-Hwan. 2013: Fluorescent pH sensor based on Ag@SiO2 core-shell nanoparticle. Acs Applied Materials and Interfaces 5(12): 5856-5860
Wan, X.; Wang, D.; Liu, S. 2010: Fluorescent pH-sensing organic/inorganic hybrid mesoporous silica nanoparticles with tunable redox-responsive release capability. Langmuir 26(19): 15574-15579
Wang, X-dong.; Meier, R.J.; Wolfbeis, O.S. 2013: Fluorescent pH-sensitive nanoparticles in an agarose matrix for imaging of bacterial growth and metabolism. Angewandte Chemie 52(1): 406-409
Northrup, M.A.; Kulp, T.J.; Angel, S.M. 1991: Fluorescent particle image velocimetry: application to flow measurement in refractive index-matched porous media. Applied Optics 30(21): 3034-3040
Buono, C.; Anzinger, J.J.; Amar, M.; Kruth, H.S. 2009: Fluorescent pegylated nanoparticles demonstrate fluid-phase pinocytosis by macrophages in mouse atherosclerotic lesions. Journal of Clinical Investigation 119(5): 1373-1381
Seto, J.E.; Polat, B.E.; VanVeller, B.; Lopez, R.F.V.; Langer, R.; Blankschtein, D. 2012: Fluorescent penetration enhancers for transdermal applications. Journal of Controlled Release: Official Journal of the Controlled Release Society 158(1): 85-92
Patalag, L.J.; Werz, D.B. 2012: Fluorescent penta- and hexaene fatty acids by a Wittig-Horner/elimination strategy. Journal of Organic Chemistry 77(12): 5297-5304
Devkota, A.K.; Kaoud, T.S.; Warthaka, M.; Dalby, K.N. 2010: Fluorescent peptide assays for protein kinases. Current Protocols in Molecular Biology Chapter 18: Unit 18.17
Kurzawa, L.; Pellerano, M.; Coppolani, J.B.; Morris, M.C. 2011: Fluorescent peptide biosensor for probing the relative abundance of cyclin-dependent kinases in living cells. Plos one 6(10): E26555
Jeong, H.S.; Choi, S.M.; Kim, H.W.; Park, J.W.; Park, H.N.; Park, S.M.; Jang, S.K.; Rhee, Y.M.; Kim, B.H. 2013: Fluorescent peptide indicator displacement assay for monitoring interactions between RNA and RNA binding proteins. Molecular Biosystems 9(5): 948-951
White, B.R.; Holcombe, J.A. 2007: Fluorescent peptide sensor for the selective detection of Cu2+. Talanta 71(5): 2015-2020
Zhou, W.; Duckworth, B.P.; Geraghty, R.J. 2014: Fluorescent peptide sensors for tyrosylprotein sulfotransferase activity. Analytical Biochemistry 461: 1-6
Sethi, D.; Chen, C.-P.; Jing, R.-Y.; Thakur, M.L.; Wickstrom, E. 2012: Fluorescent peptide-PNA chimeras for imaging monoamine oxidase a mRNA in neuronal cells. Bioconjugate Chemistry 23(2): 158-163
Samb, I.; Bell, J.ér.ém.; Toullec, P.Y.; Michelet, V.ér.; Leray, I. 2011: Fluorescent phosphane selenide as efficient mercury chemodosimeter. Organic Letters 13(5): 1182-1185
Wang, X.; Barrett, M.; Sondek, J.; Harden, T.K.; Zhang, Q. 2012: Fluorescent phosphatidylinositol 4,5-bisphosphate derivatives with modified 6-hydroxy group as novel substrates for phospholipase C. Biochemistry 51(26): 5300-5306
Foissner, I. 2009: Fluorescent phosphocholine--a specific marker for the endoplasmic reticulum and for lipid droplets in Chara internodal cells. Protoplasma 238(1-4): 47-58
Kim, D.; Lee, H.; Jun, H.; Hong, S.-S.; Hong, S. 2011: Fluorescent phosphoinositide 3-kinase inhibitors suitable for monitoring of intracellular distribution. Bioorganic and Medicinal Chemistry 19(8): 2508-2516
Jana, A.; Saha, B.; Karthik, S.; Barman, S.; Ikbal, M.; Ghosh, S.K.; Singh, N.D.P. 2013: Fluorescent photoremovable precursor (acridin-9-ylmethyl)ester: synthesis, photophysical, photochemical and biological applications. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 12(6): 1041-1052
Achari, B.; Dutta, P.K.; Roy, S.K.; Chakraborty, P.; Sengupta, J.; Bandyopadhyay, D.; Maity, J.K.; Khan, I.A.; Ding, Y.; Ferreira, D. 2012: Fluorescent pigment and phenol glucosides from the heartwood of Pterocarpus marsupium. Journal of Natural Products 75(4): 655-660
Ishikawa, D.; Takahashi, N.; Sasaki, T.; Usami, A.; Matsuki, N.; Ikegaya, Y. 2010: Fluorescent pipettes for optically targeted patch-clamp recordings. Neural Networks: the Official Journal of the International Neural Network Society 23(6): 669-672
Tanaka, S.-I.; Miyazaki, J.; Tiwari, D.K.; Jin, T.; Inouye, Y. 2011: Fluorescent platinum nanoclusters: synthesis, purification, characterization, and application to bioimaging. Angewandte Chemie 50(2): 431-435
Lapresta-Fernández, A.; Cywinski, P.J.; Moro, A.J.; Mohr, G.J. 2009: Fluorescent polyacrylamide nanoparticles for naproxen recognition. Analytical and Bioanalytical Chemistry 395(6): 1821-1830
Joubert, J.; van Dyk, S.; Malan, S.F. 2008: Fluorescent polycyclic ligands for nitric oxide synthase (NOS) inhibition. Bioorganic and Medicinal Chemistry 16(19): 8952-8958
Nobori, T.; Shiosaki, S.; Mori, T.; Toita, R.; Kim, C.Woo.; Nakamura, Y.; Kishimura, A.; Niidome, T.; Katayama, Y. 2014: Fluorescent polyion complex nanoparticle that incorporates an internal standard for quantitative analysis of protein kinase activity. Bioconjugate Chemistry 25(5): 869-872
Rowland, K.J.; François, A.; Hoffmann, P.; Monro, T.M. 2013: Fluorescent polymer coated capillaries as optofluidic refractometric sensors. Optics Express 21(9): 11492-11505
Barja, B.C.; Chesta, C.A.; Atvars, T.D.Z.; Aramendía, P.F. 2013: Fluorescent polymer coatings with tuneable sensitive range for remote temperature sensing. Spectrochimica Acta. Part a Molecular and Biomolecular Spectroscopy 116: 13-16
Oh, W-Kyu.; Jeong, Y.Seon.; Kim, S.; Jang, J. 2012: Fluorescent polymer nanoparticle for selective sensing of intracellular hydrogen peroxide. Acs Nano 6(10): 8516-8524
Woodka, M.D.; Schnee, V.P.; Polcha, M.P. 2010: Fluorescent polymer sensor array for detection and discrimination of explosives in water. Analytical Chemistry 82(23): 9917-9924
Scott, M.D.; Dutta, R.; Haldar, M.K.; Wagh, A.; Gustad, T.R.; Law, B.; Friesner, D.L.; Mallik, S. 2012: Fluorescent polymer-based post-translational differentiation and subtyping of breast cancer cells. Analyst 137(23): 5487-5490
Rusu, A.D.; Moleavin, I.A.; Hurduc, N.; Hamel, M.; Rocha, L. 2014: Fluorescent polymeric aggregates for selective response to sarin surrogates. Chemical Communications 50(69): 9965-9968
Chen, J.-I.; Wu, W.-C. 2013: Fluorescent polymeric micelles with aggregation-induced emission properties for monitoring the encapsulation of doxorubicin. Macromolecular Bioscience 13(5): 623-632
Kumar, V.; Adamson, D.H.; Prud'homme, R.K. 2010: Fluorescent polymeric nanoparticles: aggregation and phase behavior of pyrene and amphotericin B molecules in nanoparticle cores. Small 6(24): 2907-2914
Mueller, J.O.; Voll, D.; Schmidt, F.G.; Delaittre, G.; Barner-Kowollik, C. 2014: Fluorescent polymers from non-fluorescent photoreactive monomers. Chemical Communications 50(99): 15681-15684
Paiphansiri, U.; Dausend, J.; Musyanovych, A.; Mailänder, V.; Landfester, K. 2009: Fluorescent polyurethane nanocapsules prepared via inverse miniemulsion: surface functionalization for use as biocarriers. Macromolecular Bioscience 9(6): 575-584
Mosinger, J.í; Lang, K.; Plístil, L.ás.; Jesenská, S.; Hostomský, J.í; Zelinger, Z.; Kubát, P. 2010: Fluorescent polyurethane nanofabrics: a source of singlet oxygen and oxygen sensing. Langmuir 26(12): 10050-10056
Ndjomou, J.; Kolli, R.; Mukherjee, S.; Shadrick, W.R.; Hanson, A.M.; Sweeney, N.L.; Bartczak, D.; Li, K.; Frankowski, K.J.; Schoenen, F.J.; Frick, D.N. 2012: Fluorescent primuline derivatives inhibit hepatitis C virus NS3-catalyzed RNA unwinding, peptide hydrolysis and viral replicase formation. Antiviral Research 96(2): 245-255
Kalnina, I.; Bruvere, R.; Zvagule, T.; Gabruseva, N.; Klimkane, L.; Kirilova, E.; Meirovics, I.; Kizane, G. 2010: Fluorescent probe ABM and estimation of immune state in patients with different pathologies (review article). Journal of Fluorescence 20(1): 9-17
Kalnina, I.; Klimkane, L.; Kirilova, E.; Toma, M.M.; Kizane, G.; Meirovics, I. 2007: Fluorescent probe ABM for screening gastrointestinal patient's immune state. Journal of Fluorescence 17(6): 619-625
Shen, S.K.; Hu, D.D. 2007: Fluorescent probe as reporter on the local structure and dynamics in hydrolysis-condensation process of organotrialkoxysilanes. Journal of Physical Chemistry. B 111(28): 7963-7971
Urayama, P.; Frey, E.W.; Savage, S.R. 2010: Fluorescent probe dyes for metabolic-ion sensing under high hydrostatic pressures. Annals of the new York Academy of Sciences 1189: 104-112
Jing, L.; Liang, C.; Shi, X.; Ye, S.; Xian, Y. 2012: Fluorescent probe for Fe(III) based on pyrene grafted multiwalled carbon nanotubes by click reaction. Analyst 137(7): 1718-1722
Sun, Y.-Q.; Liu, J.; Zhang, J.; Yang, T.; Guo, W. 2013: Fluorescent probe for biological gas SO2 derivatives bisulfite and sulfite. Chemical Communications 49(26): 2637-2639
Rattray, N.J.W.; Zalloum, W.A.; Mansell, D.; Latimer, J.; Schwalbe, C.H.; Blake, A.J.; Bichenkova, E.V.; Freeman, S. 2012: Fluorescent probe for detection of bacteria: conformational trigger upon bacterial reduction of an azo bridge. Chemical Communications 2012
Kim, S.Y.; Park, J.; Koh, M.; Park, S.B.; Hong, J.-I. 2009: Fluorescent probe for detection of fluoride in water and bioimaging in A549 human lung carcinoma cells. Chemical Communications 31: 4735-4737
Backmark, A.E.; Olivier, N.; Snijder, A.; Gordon, E.; Dekker, N.; Ferguson, A.D. 2013: Fluorescent probe for high-throughput screening of membrane protein expression. Protein Science: a Publication of the Protein Society 22(8): 1124-1132
Chen, B.; Li, W.; Lv, C.; Zhao, M.; Jin, H.; Jin, H.; Du, J.; Zhang, L.; Tang, X. 2013: Fluorescent probe for highly selective and sensitive detection of hydrogen sulfide in living cells and cardiac tissues. Analyst 138(3): 946-951
Mata, G.; Luedtke, N.W. 2015: Fluorescent probe for proton-coupled DNA folding revealing slow exchange of i-motif and duplex structures. Journal of the American Chemical Society 137(2): 699-707
Tseng, T.-Y.; Chien, C.-H.; Chu, J.-F.; Huang, W.-C.; Lin, M.-Y.; Chang, C.-C.; Chang, T.-C. 2013: Fluorescent probe for visualizing guanine-quadruplex DNA by fluorescence lifetime imaging microscopy. Journal of Biomedical Optics 18(10): 101309
Misra, A.; Srivastava, P.; Shahid, M. 2012: Fluorescent probe mimicking multiple logic gates and a molecular keypad lock upon interaction with Hg2+ and bovine serum albumin. Analyst 137(15): 3470-3478
Juhasz, J.; Davis, J.H.; Sharom, F.J. 2012: Fluorescent probe partitioning in GUVs of binary phospholipid mixtures: implications for interpreting phase behavior. Biochimica et Biophysica Acta 1818(1): 19-26
Juhasz, J.; Davis, J.H.; Sharom, F.J. 2010: Fluorescent probe partitioning in giant unilamellar vesicles of 'lipid raft' mixtures. Biochemical Journal 430(3): 415-423
Sowmiya, M.; Tiwari, A.K.; Saha, S.K. 2010: Fluorescent probe studies of micropolarity, premicellar and micellar aggregation of non-ionic Brij surfactants. Journal of Colloid and Interface Science 344(1): 97-104
Xu, Y.; Liu, Y.; Wu, Y.; Xia, X.; Liao, Y.; Li, Q. 2014: Fluorescent probe-based lateral flow assay for multiplex nucleic acid detection. Analytical Chemistry 86(12): 5611-5614
Mansell, D.; Rattray, N.; Etchells, L.L.; Schwalbe, C.H.; Blake, A.J.; Bichenkova, E.V.; Bryce, R.A.; Barker, C.J.; Díaz, A.; Kremer, C.; Freeman, S. 2008: Fluorescent probe: complexation of Fe3+ with the myo-inositol 1,2,3-trisphosphate motif. Chemical Communications 41: 5161-5163
Yin, J.; Hu, Y.; Yoon, J. 2015: Fluorescent probes and bioimaging: alkali metals, alkaline earth metals and pH. Chemical Society Reviews 44(14): 4619-4644
Lymperopoulos, K.; Kiel, A.; Seefeld, A.; Stöhr, K.; Herten, D.-P. 2010: Fluorescent probes and delivery methods for single-molecule experiments. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 11(1): 43-53
Drummen, G.P.C. 2012: Fluorescent probes and fluorescence (microscopy) techniques--illuminating biological and biomedical research. Molecules 17(12): 14067-14090
Patsenker, L.; Tatarets, A.; Kolosova, O.; Obukhova, O.; Povrozin, Y.; Fedyunyayeva, I.; Yermolenko, I.; Terpetschnig, E. 2008: Fluorescent probes and labels for biomedical applications. Annals of the new York Academy of Sciences 1130: 179-187
Herbert, S.M.; Leung, T.L.F.; Bishop, P.J. 2011: Fluorescent probes as a tool for labelling and tracking the amphibian chytrid fungus Batrachochytrium dendrobatidis. Diseases of Aquatic Organisms 96(2): 169-174
Peng, B.; Chen, W.; Liu, C.; Rosser, E.W.; Pacheco, A.; Zhao, Y.; Aguilar, H.C.; Xian, M. 2014: Fluorescent probes based on nucleophilic substitution-cyclization for hydrogen sulfide detection and bioimaging. Chemistry 20(4): 1010-1016
Kim, S.-J.; Rhee, H.-W.; Park, H.-J.; Kim, H.-Y.; Kim, H.-S.; Hong, J.-I. 2013: Fluorescent probes designed for detecting human serum albumin on the basis of its pseudo-esterase activity. Bioorganic and Medicinal Chemistry Letters 23(7): 2093-2097
Minchew, C.L.; Didenko, V.V. 2011: Fluorescent probes detecting the phagocytic phase of apoptosis: enzyme-substrate complexes of topoisomerase and DNA. Molecules 16(6): 4599-4614
Li, H.; Fan, J.; Song, F.; Zhu, H.; Du, J.; Sun, S.; Peng, X. 2010: Fluorescent probes for Pd2+ detection by allylidene-hydrazone ligands with excellent selectivity and large fluorescence enhancement. Chemistry 16(41): 12349-12356
Warrier, S.; Kharkar, P.S. 2014: Fluorescent probes for biomedical applications (2009-2014). Pharmaceutical patent analyst 3(5): 543-560
Hanson, G.T.; Hanson, B.J. 2008: Fluorescent probes for cellular assays. Combinatorial Chemistry and High Throughput Screening 11(7): 505-513
Jung, G.; Schmitt, A.; Jacob, M.; Hinkeldey, B. 2008: Fluorescent probes for chemical transformations on the single-molecule level. Annals of the new York Academy of Sciences 1130: 131-137
Li, X.; Zhang, H.; Xie, Y.; Hu, Y.; Sun, H.; Zhu, Q. 2014: Fluorescent probes for detecting monoamine oxidase activity and cell imaging. Organic and Biomolecular Chemistry 12(13): 2033-2036
Paës, G. 2014: Fluorescent probes for exploring plant cell wall deconstruction: a review. Molecules 19(7): 9380-9402
Yu, F.; Han, X.; Chen, L. 2014: Fluorescent probes for hydrogen sulfide detection and bioimaging. Chemical Communications 50(82): 12234-12249
Yoshimura, H.; Inaguma, A.; Yamada, T.; Ozawa, T. 2012: Fluorescent probes for imaging endogenous β-actin mRNA in living cells using fluorescent protein-tagged pumilio. Acs Chemical Biology 7(6): 999-1005
Wang, Y.; Guo, L.; Qi, S.; Zhang, H.; Liu, K.; Liu, R.; Liang, P.; Casida, J.E.; Liu, S. 2014: Fluorescent probes for insect ryanodine receptors: candidate anthranilic diamides. Molecules 19(4): 4105-4114
Mostafavi, A.Z.; Lujan, D.K.; Erickson, K.M.; Martinez, C.D.; Troutman, J.M. 2013: Fluorescent probes for investigation of isoprenoid configuration and size discrimination by bactoprenol-utilizing enzymes. Bioorganic and Medicinal Chemistry 21(17): 5428-5435
Klymchenko, A.S.; Kreder, R.ém. 2014: Fluorescent probes for lipid rafts: from model membranes to living cells. Chemistry and Biology 21(1): 97-113
Bao, G.; Rhee, W.J.; Tsourkas, A. 2009: Fluorescent probes for live-cell RNA detection. Annual Review of Biomedical Engineering 11: 25-47
Li, W.-h.; Li, D. 2013: Fluorescent probes for monitoring regulated secretion. Current Opinion in Chemical Biology 17(4): 672-681
Boutorine, A.S.; Novopashina, D.S.; Krasheninina, O.A.; Nozeret, K.; Venyaminova, A.G. 2013: Fluorescent probes for nucleic Acid visualization in fixed and live cells. Molecules 18(12): 15357-15397
Lin, V.S.; Chang, C.J. 2012: Fluorescent probes for sensing and imaging biological hydrogen sulfide. Current Opinion in Chemical Biology 16(5-6): 595-601
Matsumoto, N.; Toga, T.; Hayashi, R.; Sugasawa, K.; Katayanagi, K.; Ide, H.; Kuraoka, I.; Iwai, S. 2010: Fluorescent probes for the analysis of DNA strand scission in base excision repair. Nucleic Acids Research 38(7): E101
Xuan, W.; Sheng, C.; Cao, Y.; He, W.; Wang, W. 2012: Fluorescent probes for the detection of hydrogen sulfide in biological systems. Angewandte Chemie 51(10): 2282-2284
Maret, W. 2009: Fluorescent probes for the structure and function of metallothionein. Journal of Chromatography. B Analytical Technologies in the Biomedical and Life Sciences 877(28): 3378-3383
Szabon-Watola, M.I.; Ulatowski, S.V.; George, K.M.; Hayes, C.D.; Steiger, S.A.; Natale, N.R. 2014: Fluorescent probes of the isoxazole-dihydropyridine scaffold: MDR-1 binding and homology model. Bioorganic and Medicinal Chemistry Letters 24(1): 117-121
Chabot, N.; Moreau, S.; Mulani, A.; Moreau, P.; Keillor, J.W. 2010: Fluorescent probes of tissue transglutaminase reveal its association with arterial stiffening. Chemistry and Biology 17(10): 1143-1150
Smirnov, D.; Dhall, A.; Sivanesam, K.; Sharar, R.J.; Chatterjee, C. 2013: Fluorescent probes reveal a minimal ligase recognition motif in the prokaryotic ubiquitin-like protein from Mycobacterium tuberculosis. Journal of the American Chemical Society 135(8): 2887-2890
Gao, F.; Chen, H.; Xu, S.; Cheng, Y.; Ma, Y. 2013: Fluorescent probes that distinguish proteins with single or two close mercapto groups. Talanta 116: 508-513
Kozany, C.; März, A.; Kress, C.; Hausch, F. 2009: Fluorescent probes to characterise FK506-binding proteins. Chembiochem: a European Journal of Chemical Biology 10(8): 1402-1410
Cao-Hoang, L.; Marechal, P.-A.é; Lê-Thanh, M.; Gervais, P.; Waché, Y. 2008: Fluorescent probes to evaluate the physiological state and activity of microbial biocatalysts: a guide for prokaryotic and eukaryotic investigation. Biotechnology Journal 3(7): 890-903
McQuade, L.E.; Lippard, S.J. 2010: Fluorescent probes to investigate nitric oxide and other reactive nitrogen species in biology (truncated form: fluorescent probes of reactive nitrogen species). Current Opinion in Chemical Biology 14(1): 43-49
Maeda, H. 2007: Fluorescent probes to visualize only what we want to watch: measurements of reactive oxygen species, enzyme activity, and selenoproteins. Tanpakushitsu Kakusan Koso. Protein Nucleic Acid Enzyme 52(13 Suppl): 1524-1528
Ghosh, S.; Jana, S.; Nath, D.; Guchhait, N. 2011: Fluorescent probing of protein bovine serum albumin stability and denaturation using polarity sensitive spectral response of a charge transfer probe. Journal of Fluorescence 21(1): 365-374
Ghosh, S.; Guchhait, N. 2010: Fluorescent probing of urea-induced chemical unfolding of bovine serum albumin by intramolecular charge transfer fluorescence probe E-3-(4-dimethylamino-naphthalen-1-yl)-acrylic acid. Photochemistry and Photobiology 86(2): 290-296
Omumi, A.; Millen, A.L.; Wetmore, S.D.; Manderville, R.A. 2011: Fluorescent properties and conformational preferences of C-linked phenolic-DNA adducts. Chemical Research in Toxicology 24(10): 1694-1709
Nacheva, K.P.; Maza, W.A.; Myers, D.Z.; Fronczek, F.R.; Larsen, R.W.; Manetsch, R. 2012: Fluorescent properties and resonance energy transfer of 3,4-bis(2,4-difluorophenyl)-maleimide. Organic and Biomolecular Chemistry 10(38): 7840-7846
Marfin, Y.S.; Merkushev, D.A.; Levshanov, G.A.; Rumyantsev, E.V. 2014: Fluorescent properties of 8-phenylBODIPY in ethanol - ethylene glycol mixed solutions. Journal of Fluorescence 24(6): 1613-1619
Liang, H.; Xie, F. 2010: Fluorescent properties of a dendritic ligand europium complex incorporated in polymethylvinylsiloxane. Spectrochimica Acta. Part A Molecular and Biomolecular Spectroscopy 75(4): 1191-1194
Campos, B.B.; Algarra, M.; Esteves da Silva, J.C.G. 2010: Fluorescent properties of a hybrid cadmium sulfide-dendrimer nanocomposite and its quenching with nitromethane. Journal of Fluorescence 20(1): 143-151
Smolentsev, A.B.; Glebov, E.M.; Korolev, V.V.; Paramonov, S.V.; Fedorova, O.A. 2013: Fluorescent properties of an azacrown-containing styryl derivative of naphthopyran: ion-binding response and photochemical switching off. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 12(10): 1803-1810
Raut, S.; Heck, A.; Vishwanatha, J.; Sarkar, P.; Mody, A.; Luchowski, R.; Gryczynski, Z.; Gryczynski, I. 2011: Fluorescent properties of antioxidant cysteine ABZ analogue. Journal of Photochemistry and Photobiology. B Biology 102(3): 241-245
Hartland, A.; Fairchild, I.J.; Lead, J.R.; Baker, A. 2010: Fluorescent properties of organic carbon in cave dripwaters: effects of filtration, temperature and pH. Science of the Total Environment 408(23): 5940-5950
Velázquez-Olvera, S.; Salgado-Zamora, H.éc.; Velázquez-Ponce, M.; Campos-Aldrete, E.; Reyes-Arellano, A.; Pérez-González, C.ém. 2012: Fluorescent property of 3-hydroxymethyl imidazo[1,2-a]pyridine and pyrimidine derivatives. Chemistry Central Journal 6(1): 83
Zhao, Y.-F.; Zhao, Y.-L.; Bai, F.; Wei, X.-y.; Zhou, Y.-s.; Shan, M.-n.; Li, H.-h.; Ma, R.-j.; Fu, X.-t.; Du, Y. 2010: Fluorescent property of the Gd3+-doped terbium complexes and crystal structure of [Tb(TPTZ)(H2O)6]Cl3.3H2O. Journal of Fluorescence 20(3): 763-770
Johnson, W.L.; Straight, A.F. 2013: Fluorescent protein applications in microscopy. Methods in Cell Biology 114: 99-123
Berg, R.H.; Beachy, R.N. 2008: Fluorescent protein applications in plants. Methods in Cell Biology 85: 153-177
Chapagain, P.P.; Regmi, C.K.; Castillo, W. 2011: Fluorescent protein barrel fluctuations and oxygen diffusion pathways in mCherry. Journal of Chemical Physics 135(23): 235101
Van, T.N.N.; Pellerano, M.; Lykaso, S.; Morris, M.C. 2014: Fluorescent protein biosensor for probing CDK/cyclin activity in vitro and in living cells. Chembiochem: a European Journal of Chemical Biology 15(15): 2298-2305
Yang, X.; Li, Z.; Li, M.; Ren, J.; Qu, X. 2013: Fluorescent protein capped mesoporous nanoparticles for intracellular drug delivery and imaging. Chemistry 19(45): 15378-15383
Vidi, P-Alexandre.; Ejendal, K.F.K.; Przybyla, J.A.; Watts, V.J. 2011: Fluorescent protein complementation assays: new tools to study G protein-coupled receptor oligomerization and GPCR-mediated signaling. Molecular and Cellular Endocrinology 331(2): 185-193
Mathur, J.; Barton, K.A.; Schattat, M.H. 2013: Fluorescent protein flow within stromules. Plant Cell 25(8): 2771-2772
Runions, J.; Hawes, C.; Kurup, S. 2007: Fluorescent protein fusions for protein localization in plants. Methods in Molecular Biology 390: 239-255
Courdavault, V.; Millerioux, Y.; Clastre, M.; Simkin, A.J.; Marais, E.; Crèche, J.ël.; Giglioli-Guivarc'h, N.; Papon, N. 2011: Fluorescent protein fusions in Candida guilliermondii. Fungal Genetics and Biology: Fg and B 48(11): 1004-1011
Wu, Q.; Luo, A.; Zadrozny, T.; Sylvester, A.; Jackson, D. 2013: Fluorescent protein marker lines in maize: generation and applications. International Journal of Developmental Biology 57(6-8): 535-543
Chung, H.J.; Steplewski, A.; Uitto, J.; Fertala, A. 2009: Fluorescent protein markers to tag collagenous proteins: the paradigm of procollagen VIi. Biochemical and Biophysical Research Communications 390(3): 662-666
Hutter, H. 2012: Fluorescent protein methods: strategies and applications. Methods in Cell Biology 107: 67-92
Sunayama, H.; Ooya, T.; Takeuchi, T. 2010: Fluorescent protein recognition polymer thin films capable of selective signal transduction of target binding events prepared by molecular imprinting with a post-imprinting treatment. Biosensors and Bioelectronics 26(2): 458-462
Boutant, E.; Didier, P.; Niehl, A.; Mély, Y.; Ritzenthaler, C.; Heinlein, M. 2010: Fluorescent protein recruitment assay for demonstration and analysis of in vivo protein interactions in plant cells and its application to Tobacco mosaic virus movement protein. Plant Journal: for Cell and Molecular Biology 62(1): 171-177
Chuang, W.-T.; Chen, B.-S.; Chen, K.-Y.; Hsieh, C.-C.; Chou, P.-T. 2009: Fluorescent protein red Kaede chromophore; one-step, high-yield synthesis and potential application for solar cells. Chemical Communications 45: 6982-6984
Dower, S.K.; Qwarnstrom, E.E.; Kiss-Toth, E. 2007: Fluorescent protein reporter systems for single-cell measurements. Methods in Molecular Biology 411: 111-119
Makyła, K.; Müller, C.; Lörcher, S.; Winkler, T.; Nussbaumer, M.G.; Eder, M.; Bruns, N. 2013: Fluorescent protein senses and reports mechanical damage in glass-fiber-reinforced polymer composites. Advanced Materials 25(19): 2701-2706
Pichler, G.; Leonhardt, H.; Rothbauer, U. 2012: Fluorescent protein specific Nanotraps to study protein-protein interactions and histone-tail peptide binding. Methods in Molecular Biology 911: 475-483
Szewczyk, B.; Summers, D.F. 1992: Fluorescent protein staining on nitrocellulose with subsequent immunodetection of antigen. Methods in Molecular Biology 80: 261-266
Tanz, S.K.; Castleden, I.; Small, I.D.; Millar, A.H. 2013: Fluorescent protein tagging as a tool to define the subcellular distribution of proteins in plants. Frontiers in Plant Science 4: 214
Rugjee, K.N.; Roy Chaudhury, S.; Al-Jubran, K.; Ramanathan, P.; Matina, T.; Wen, J.; Brogna, S. 2013: Fluorescent protein tagging confirms the presence of ribosomal proteins at Drosophila polytene chromosomes. Peerj 1: E15
Doskočilová, A.; Luptovčiak, I.; Smékalová, V.; Samaj, J. 2014: Fluorescent protein tagging of Arabidopsis MAPKs for in vivo localization studies. Methods in Molecular Biology 1171: 131-145
Rizzo, M.A.; Davidson, M.W.; Piston, D.W. 2009: Fluorescent protein tracking and detection: applications using fluorescent proteins in living cells. Cold Spring Harbor Protocols 12: Pdb.Top64
Rizzo, M.A.; Davidson, M.W.; Piston, D.W. 2009: Fluorescent protein tracking and detection: fluorescent protein structure and color variants. Cold Spring Harbor Protocols 12: Pdb.Top63
García-Cayuela, T.ás.; de Cadiñanos, L.P.G.óm.; Mohedano, M.L.; de Palencia, P.F.án.; Boden, D.; Wells, J.; Peláez, C.; López, P.; Requena, T. 2012: Fluorescent protein vectors for promoter analysis in lactic acid bacteria and Escherichia coli. Applied Microbiology and Biotechnology 96(1): 171-181
Han, Z.; Jin, L.; Platisa, J.; Cohen, L.B.; Baker, B.J.; Pieribone, V.A. 2013: Fluorescent protein voltage probes derived from ArcLight that respond to membrane voltage changes with fast kinetics. Plos one 8(11): E81295
Zaidi, M.R.; Day, C.-P.; Merlino, G. 2011: Fluorescent protein-assisted purification for gene expression profiling. Methods in Molecular Biology 699: 393-405
Abraham, B.G.; Santala, V.; Tkachenko, N.V.; Karp, M. 2014: Fluorescent protein-based FRET sensor for intracellular monitoring of redox status in bacteria at single cell level. Analytical and Bioanalytical Chemistry 406(28): 7195-7204
Ohba, Y.; Fujioka, Y.; Nakada, S.; Tsuda, M. 2013: Fluorescent protein-based biosensors and their clinical applications. Progress in Molecular Biology and Translational Science 113: 313-348
DiPilato, L.M.; Zhang, J. 2010: Fluorescent protein-based biosensors: resolving spatiotemporal dynamics of signaling. Current Opinion in Chemical Biology 14(1): 37-42
Liu, T.; Fang, Y.; Jia, H.; Chen, G.; Guan, Q.; He, X.; Yao, W.; Zeng, S.; Jing, Z. 2013: Fluorescent protein-based detection of φC31 integrase activity in mammalian cells. Analytical Biochemistry 441(2): 104-108
Wong, S.S.C.; Truong, K. 2010: Fluorescent protein-based methods for on-plate screening of gene insertion. Plos one 5(12): E14274
Blackstock, D.; Sun, Q.; Chen, W. 2015: Fluorescent protein-based molecular beacons by zinc finger protein-guided assembly. Biotechnology and Bioengineering 112(2): 236-241
Isarankura-Na-Ayudhya, C.; Tantimongcolwat, T.; Galla, H.-J.; Prachayasittikul, V. 2010: Fluorescent protein-based optical biosensor for copper ion quantitation. Biological Trace Element Research 134(3): 352-363
Meyer, A.J.; Dick, T.P. 2010: Fluorescent protein-based redox probes. Antioxidants and Redox Signaling 13(5): 621-650
Dyachok, J.; Sparks, J.Alan.; Liao, F.; Wang, Y-Shuh.; Blancaflor, E.B. 2014: Fluorescent protein-based reporters of the actin cytoskeleton in living plant cells: fluorophore variant, actin binding domain, and promoter considerations. Cytoskeleton 71(5): 311-327
Skardelly, M.; Hempel, E.; Hirrlinger, J.; Wegner, F.; Meixensberger, J.ür.; Milosevic, J. 2014: Fluorescent protein-expressing neural progenitor cells as a tool for transplantation studies. Plos one 9(6): E99819
Sunayama, H.; Ooya, T.; Takeuchi, T. 2014: Fluorescent protein-imprinted polymers capable of signal transduction of specific binding events prepared by a site-directed two-step post-imprinting modification. Chemical Communications 50(11): 1347-1349
Dibas, A.; Jiang, M.; Fudala, R.; Gryczynski, I.; Gryczynski, Z.; Clark, A.F.; Yorio, T. 2012: Fluorescent protein-labeled glucocorticoid receptor alpha isoform trafficking in cultured human trabecular meshwork cells. Investigative Ophthalmology and Visual Science 53(6): 2938-2950
Cabrera-Diaz, E.; Moseley, T.M.; Lucia, L.M.; Dickson, J.S.; Castillo, A.; Acuff, G.R. 2009: Fluorescent protein-marked Escherichia coli biotype i strains as surrogates for enteric pathogens in validation of beef carcass interventions. Journal of Food Protection 72(2): 295-303
Lentini, R.; Forlin, M.; Martini, L.; Del Bianco, C.; Spencer, A.C.; Torino, D.; Mansy, S.S. 2013: Fluorescent proteins and in vitro genetic organization for cell-free synthetic biology. Acs Synthetic Biology 2(9): 482-489
Chudakov, D.M.; Matz, M.V.; Lukyanov, S.; Lukyanov, K.A. 2010: Fluorescent proteins and their applications in imaging living cells and tissues. Physiological Reviews 90(3): 1103-1163
Lukyanov, K.A.; Serebrovskaya, E.O.; Lukyanov, S.; Chudakov, D.M. 2010: Fluorescent proteins as light-inducible photochemical partners. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 9(10): 1301-1306
Hoffman, R.M. 2013: Fluorescent proteins as visible in vivo sensors. Progress in Molecular Biology and Translational Science 113: 389-402
Kremers, G.-J.; Gilbert, S.G.; Cranfill, P.J.; Davidson, M.W.; Piston, D.W. 2011: Fluorescent proteins at a glance. Journal of Cell Science 124(Part 2): 157-160