Resonance energy transfer detection

Chen, X. and Kwok, P. Y. (1999). Homogeneous genotyping assays for single nucleotide polymorphisms with fluorescence resonance energy transfer detection. Genet. Anal. 14, 157-63. [Pg.64]

Vogel, K.W. and K.L. Vedvik. 2006. Improving lanthanide-based resonance energy transfer detection by increasing donor-acceptor distances. J. Biomol. Screen. 11, 439 143. [Pg.24]

Merzlyakov M, Li E, Casas R, Hristova K. Spectral Forster resonance energy transfer detection of protein interactions in surface-supported bilayers. Langmuir 2006 22 6986-6992. [Pg.2232]

Kirsch, A. K., V, Subramaniam, A. Jenei and T. M. Jovin (1999). "Fluorescence resonance energy transfer detected by scanning near-field optical microscopy." Journal Of Microscopy 194(2-3) 448-54. [Pg.44]

Trowell, S. C. Horne, I. M. Dacres, H. Leitch, V. Bioluminescent resonance energy transfer detection of compounds that bind or activate G protein-coupled receptors. PCX Int. Appl. WO 2010085844, 2010. [Pg.278]

Hagiwara Y, Hasegawa T, Shoji A et al (2008) Acridone-tagged DNA as a new probe for DNA detection by fluorescence resonance energy transfer and for mismatch DNA recognition. Bioorg Med Chem 16 7013-7020... [Pg.58]

Oswald B, Gruber M, Bohmer M, Lehmann F, Probst M, Wolfbeis OS (2001) Novel diode laser-compatible fluorophores and their application to single molecule detection, protein labeling and fluorescence resonance energy transfer immunoassay. Photochem Photobiol 74 237-245... [Pg.103]

Mekler, V. (1994). A photochemical technique to enhance sensitivity of detection of fluorescence resonance energy transfer. Photochem. Photo-biol. 59, 615-20. [Pg.71]

Ponsioen, B., Zhao, J., Riedl, J., Zwartkruis, F., van der Krogt, G., Zaccolo, M., Moolenaar, W. H., Bos, J. L. and Jalink, K. (2004). Detecting cAMP-induced Epac activation by fluorescence resonance energy transfer Epac as a novel cAMP indicator. EMBO Rep. J, 1176-80. [Pg.234]

Okamura, Y. and Watanabe, Y. (2006). Detecting RNA/DNA hybridization using double-labeled donor probes with enhanced fluorescence resonance energy transfer signals. Methods Mol. Biol. 335, 43-56. [Pg.299]

James, J. R., Oliveira, M. I., Carmo, A. M., Iaboni, A. and Davis, S. J. (2006). A rigorous experimental framework for detecting protein oligomerization using bioluminescence resonance energy transfer. Nat. Methods 3, 1001-6. [Pg.402]

Maurel, D., Kniazeff, J., Mathis, G., Trinquet, E., Pin, J. P. and Ansanay, FI. (2004). Cell surface detection of membrane protein interaction with homogeneous time-resolved fluorescence resonance energy transfer technology. Anal. Biochem. 329, 253-62. [Pg.449]

Kato, N., Pontier, D. and Lam, E. (2002). Spectral profiling for the simultaneous observation of four distinct fluorescent proteins and detection of protein-protein interaction via fluorescence resonance energy transfer in tobacco leaf nuclei. Plant Physiol. 129, 931-42. [Pg.451]

Karpova, T. S., Baumann, C. T., He, L., Wu, X., Grammer, A., Lipsky, P., Hager, G. L. and McNally, J. G. (2003). Fluorescence resonance energy transfer from cyan to yellow fluorescent protein detected by acceptor photobleaching using confocal microscopy and a single laser. J. Microsc. 209, 56-70. [Pg.451]

Detection of beta 2-adrenergic receptor dimerization in living cells using bioluminescence resonance energy transfer (BRET). Proc. Natl. Acad. Sci. USA 97, 3684-3689. [Pg.261]

Scheme 17. Bis-chromophore 54 serves as an example for the detection of fluorescence resonance energy transfer at the single molecule level.

M. Panning, M. Asper, S. Kramme, H. Schmitz and C. Drosten, Rapid detection and differentiation of human pathogenic orthopox viruses by a fluorescence resonance energy transfer real-time PCR assay, Clin. Chem., 50 (2004) 702-708. [Pg.787]

Wang X, Guo X (2009) Ultrasensitive Pb2+ detection based on fluorescence resonance energy transfer (FRET) between quantum dots and gold nanoparticles. Analyst 134 1348-1354... [Pg.106]

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