Time-resolved fluorescence study of human recombinant interferon alpha 2. Association state of the protein, spatial proximity of the two tryptophan residues
| Autor: | Michel Vincent, Jacques Gallay, Ines M. Li De La Sierra, Gabriel Padrón, Aída Diaz, Mário N. Berberan-Santos, Maylin Diaz |
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| Rok vydání: | 1992 |
| Předmět: |
Time Factors
Stereochemistry Protein Conformation Dimer Population Fluorescence spectrometry Alpha interferon Fluorescence Polarization Biochemistry chemistry.chemical_compound Interferon-gamma Tetramer Humans education Peptide sequence education.field_of_study Chemistry Tryptophan Hydrogen-Ion Concentration Fluorescence Recombinant Proteins Crystallography Spectrometry Fluorescence Interferon Type I Mathematics |
| Zdroj: | European journal of biochemistry. 210(3) |
| ISSN: | 0014-2956 |
| Popis: | Human recombinant interferon alpha 2 belongs a to family of proteins active against a wide range of viruses. It contains two tryptophan residues located at positions 77 and 141 in the peptide sequence. The fluorescence emission spectrum of these tryptophan residues displays a maximum at 335 nm. The fluorescence intensity decay is described by one broad excited-state-lifetime population centered around a value of 1.7 ns (full width at half maximum, 1.5 ns). These observations suggest that in the native protein, both tryptophan residues emit from similar environments, not directly exposed to the surrounding solvent. The anisotropy decay is essentially biexponential. The correlation-time value characterizing the Brownian rotation of the protein varies linearly with the viscosity/temperature ratio. The calculated hydrodynamic volumes are compatible with the existence of a dimer and a tetramer, at pH 5.5 and 9.4, respectively. Addition of urea at pH 5.5 disrupts the dimer and modifies to some extent the excited-state-lifetime distribution which becomes more heterogeneous. Disulfide-bond reduction also dissociates the dimer and leads to a highly heterogeneous fluorescence-intensity decay with four excited-state-lifetime populations. An opening of the local structure in the Trp region of the protein is likely to occur in these conditions. The fast-anisotropy-decay components can be due to either fast rotation or energy transfer between the indoles. Close proximity of the two Trp residues (less than 1 nm) is suggested from steady-state and time-resolved fluorescence-anisotropy measurements in vitrified medium [95% (by mass) glycerol at -38 degrees C]. This suggestion is in agreement with the recently published three-dimensional structure of the homologous protein murine interferon beta [Senda, T., Shimazu, T., Matsuda, S. Kawano, G., Shimizu, H., Nakamura, K. T.Mitsui, Y. (1992) EMBO J. 11, 3193-3201]. |
| Databáze: | OpenAIRE |
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