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Bioluminescence resonance energy transfer |BRET
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Monitoring the Formation of Dynamic G-Protein Coupled Receptor/Protein Complexes in Living Cells
Kevin D. G. Pfleger1 and Karin A. Eidne
Biochemical Journal, Oct 2004 , BJ20041361 |
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本文讨论了近年来FRET和BRET技术在G-蛋白研究中的应用,比较了两种技术的特点。
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Bioluminescence resonance energy transfer(BRET): a new technique for monitoring proteinprotein
interactions in living cells
Yao Xu, Akihito Kanauchi, Albrecht G. von Arnim, David W. Piston, and Carl Hirschie Johnson |
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本文分析了BRET技术的特点和优势,技术的发展。
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Recent advances in technology for measuring and manipulating cell signals
David A Zacharias, Geoffrey S Baird and Roger Y Tsien
Current Opinion in Neurobiology 2000, 10:416–421 |
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本文论述了在细胞信号传导方面近年来发展的一些技术,其中包括BRET技术。
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Recombinant aequorin and green fluorescent protein as valuable tools inthe study of cell signalling
Anna CHIESA, Elena RAPIZZI, Valeria TOSELLO, Paolo PINTONã, Maddalena DE VIRGILIO,Kevin E. FOGARTY and Rosario RIZZUTO
Biochem. J. (2001) 355, 1±12 |
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本文论述了基于重组水母发光蛋白和绿色荧光蛋白的BRET技术在细胞信号传导,特别是钙离子介导的信号传导途径上的应用。
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Pharmacology |
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Detection of b2-adrenergic receptor dimerization in living cells using bioluminescence resonanceenergy transfer (BRET)
Stephane Angers, Ali Salahpour, Eric Joly, Sandrine Hilairet, Dan Chelsky, Michael Dennis, and Michel Bouvier
PNAS,2000,97: 3684-3689
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A role for heterodimerization of and opiate receptors in enhancing morphine analgesia
Ivone Gomes, Achla Gupta, Julija Filipovska, Hazel H. Szeto, John E. Pintar, and Lakshmi A. Devi
PNAS 2004 101: 5135-5139
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Use of the BRET 7TM receptor/-arrestin assay in drug discovery and screening
Heding et al. (2004)
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[Abstract] |
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Cell biology |
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A bioluminescence resonance energy transfer (BRET) system: Application to interacting circadian clock proteins
YAO XU, DAVID W. PISTON, AND CARL HIRSCHIE JOHNSON
PNAS 1999; 96: 151-156.
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Monitoring of Ligand-independent Dimerization and Ligand- induced Conformational Changes of Melatonin Receptors in Living Cells by Bioluminescence Resonance Energy Transfer
Mohammed A. Ayoub, Cyril Couturier, Estelle Lucas-Meunier, Stephane Angers,Philippe Fossier, Michel Bouvier, and Ralf Jockers
J. Biol. Chem., Jun 2002; 277: 21522 – 21528
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Monitoring for dynamic biological processing by intramolecular bioluminescence resonance energy transfer system using secreted luciferase
Tomomi Otsuji, Emiko Okuda-Ashitaka, Satoshi Kojima, Hidefumi Akiyama,
Seiji Ito,and Yoshihiro Ohmiya
Analytical Biochemistry 329 (2004) 230–237
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Probing intermolecular protein–protein interactions in the calcium-sensing receptor homodimer using bioluminescence resonance energy transfer (BRET)
Anders A. Jensen1, Jakob L. Hansen, Søren P. Sheikh and Hans Bra uner-Osborne
Eur. J. Biochem. 269, 5076-5087 (2002)
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Plant biology |
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The Arabidopsis repressor of light signaling, COP1, is regulated by nuclear exclusion: Mutational analysis by bioluminescence resonance energy transfer
Chitra Subramanian, Byung-Hoon Kim, Nicholas N. Lyssenko, Xiaodong Xu, Carl Hirschie Johnson, and Albrecht G. von Arnim
PNAS 2004 101: 6798-6802
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Gene Structure and Regulation |
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Oligomerization of Transcriptional Intermediary Factor 1 Regulators and Interaction with ZNF74 Nuclear Matrix Protein Revealed by Bioluminescence Resonance Energy Transfer in Living Cells
Delphine Germain-Desprez, Martine Bazinet, Michel Bouvier, and Muriel Aubry
J. Biol. Chem., Jun 2003; 278: 22367 – 22373
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Quantitative Assessment of β1- and β2-Adrenergic Receptor Homo- and Heterodimerization by Bioluminescence Resonance Energy Transfer
Jean-Franc¸ois Mercier, Ali Salahpour, Ste´phane Angers, Andreas Breit,and Michel Bouvier
J. Biol. Chem., Vol. 277, Issue 47, 44925-44931, 2002
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Protein molecular biology |
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Ligand-independent Dimerization of CXCR4, a Principal HIV-1 Coreceptor
J. Biol. Chem., Jan 2003; 278: 3378 – 3385
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The Fourth Transmembrane Segment Forms the Interface of the Dopamine D2 Receptor Homodimer
Wen Guo, Lei Shi, and Jonathan A. Javitch
J. Biol. Chem., Vol. 278, Issue 7, 4385-4388, February 14, 2003
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Monitoring Receptor Oligomerization Using Time-resolved Fluorescence Resonance Energy Transfer and Bioluminescence Resonance Energy Transfer
Mary McVey, Douglas Ramsay, Elaine Kellett, Stephen Rees, Shelagh Wilson,Andrew J. Pope, and Graeme Milligan
Vol. 276, No. 17, Issue of April 27, pp. 14092–14099, 2001
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Real-time monitoring of ubiquitination in living cells by BRET
Perroy et al. (2004)
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Development of a BRET2 Screening Assay Using ß-Arrestin 2 Mutants Vrecl al. (2004)
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High-Affinity Interactions between Human 1A-Adrenoceptor C-Terminal Splice Variants Produce Homo- and Heterodimers but Do Not Generate the 1L-Adrenoceptor
Ramsay et al. (2004)
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New Progress |
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A homogeneous assay tomonitor the acivity of the insulin receptor using bioluminescence resonance energy transfer.
Issad, T. et al. (2002)
Biochem. Pharmacol. 64, 813–817
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Functional interactions between m opioid and a2A-adrenergic receptors.
Jordan, B.A. et al. (2003)
Mol. Pharmacol. 64, 1317–1324
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Oligomerization of transcriptional intermediary factor 1 regulators and interaction with ZNF74 nuclear matrix protein revealed by bioluminescence resonance energy transfer in living cells.
Germain-Desprez, D. et al. (2003)
J. Biol. Chem. 278, 22367–22373
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A homogeneous 384-well high throughput screen for novel tumor necrosis factor receptor: ligand interactions using time resolved energy transfer.
Moore, K.J. et al. (1999)
J. Biomol. Screen. 4, 205–214
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