参考文献:1. V. M. Agranovich and M. D. Galanin, Electronic Excitation Energy Transfer in Condensed Matter (Nauka, Moscow, 1978; North-Holland, Amsterdam, 1982). 2. L. Stryer, Ann. Rev. Biochem. 47, 819 (1978). 3. R. Y. Tsien, Ann. Rev. Biochem. 67, 509 (1998). 4. N. N. Zubova and A. P. Savitskii, Usp. Biol. Khimii 45, 391 (2005). 5. R. Campbell, O. Tour, A. Palmer, et al., PNAS 99, 7877 (2002). 6. J. Lakovic, Principles of Fluorescence Spectroscopy (Plenum, New York, 1986; Mir, Moscow, 1986). 7. V. V. Fadeev, Vestn. Mosc. Gos. Univ., Ser. 3: Fiz. Astron. 4 (1998). 8. A. A. Banishev, E. A. Shirshin, and V. V. Fadeev, Laser Phys. 18, 7 (2008). 9. I. V. Boichuk et al., Kvant. Elektron. 30, 7 (2002) [Quantum Electron. 30, 7 (2002)]. 10. A. A. Banishev, E. P. Brzheshch, D. V. Dmitrienko, et al., Biofizika 52, 792 (2007). 11. A. A. Banishev, E. A. Shirshin, and V. V. Fadeev, Kvant. Elektron. 38, 77 (2008) [Quantum Electron. 38, 77 (2008)].
作者单位:1. Moscow State University Faculty of Physics Moscow 119991 Russia
刊物类别:Physics and Astronomy
刊物主题:Physics Elementary Particles and Nuclei Atoms, Molecules, Clusters and Plasmas Solid State Physics and Spectroscopy Russian Library of Science
出版者:MAIK Nauka/Interperiodica distributed exclusively by Springer Science+Business Media LLC.
ISSN:1090-6487
文摘
A laser fluorescence method has been developed for determining the energy transfer rate. It is based on the model of collective states of localized donor-acceptor pairs of fluorophores proposed in our previous work and involves nonlinear fluorimetry (other photophysical parameters of the donor and acceptor are simultaneously determined). The proposed approach has been tested on mRFP1 fluorescent (red) protein.