Your search keyword '"Bosisio, C"' showing total 4 results

1. Protonation and conformational dynamics of GFP mutants by two-photons excitation fluorescence correlation spectroscopy

Author

Bosisio, C., Quercioli, V., Collini, M., D'Alfonso, L., Baldini, G., Bettani, S., Campanini, B., Raboni, S., and Chirico, G.

Subjects

Fluorescence -- Analysis, Gene mutations -- Analysis, Chemicals, plastics and rubber industries

Abstract

The role of histidine 148 and glutamate 222 is analyzed by studying the fluorescence dynamics of green fluorescence protein mutant (GFPmut) and its H148G and E222Q mutants. The power dependent but pH-independent relaxation mode is due to an excited-state process that is related to conformational rearrangements of the chromophore after the photoexcitation, more than to the chromophore excited-state proton transfer.

Published

2008

2. Photo-induced Millisecond Switching Kinetics in the GFPMUT2 E222Q Mutant

Author

Quercioli, V, Bosisio, C, Daglio, S, Rocca, F, D'Alfonso, L, Collini, M, Baldini, G, Chirico, G, Bettati, S, Raboni, S, Campanini, B, DAGLIO, STEFANO CARLO, D'ALFONSO, LAURA, COLLINI, MADDALENA, BALDINI, GIANCARLO, CHIRICO, GIUSEPPE, Campanini, B., Quercioli, V, Bosisio, C, Daglio, S, Rocca, F, D'Alfonso, L, Collini, M, Baldini, G, Chirico, G, Bettati, S, Raboni, S, Campanini, B, DAGLIO, STEFANO CARLO, D'ALFONSO, LAURA, COLLINI, MADDALENA, BALDINI, GIANCARLO, CHIRICO, GIUSEPPE, and Campanini, B.

Abstract

New probes for kinetic intracellular measurements in the millisecond range are desirable to monitor protein biochemical dynamics essential for catalysis, allosteric regulation and signalling. Good candidates to this aim are the photo-switchable mutants of the Green Fluorescent Protein, whose anionic fluorescence, primed by blue light, is markedly enhanced under an additional excitation at a shorter wavelength and relaxes within few milliseconds. The aim of this report is to study how the brightness enhancement kinetics depends on the physical-chemical and spectroscopic parameters and to provide proof-of-concepts experiments for the use of the fluorescence enhancement in conditions in which the protein diffusion is hindered and thereby photo-bleaching can be a limiting critical issue. Future, direct applications of photo-chromic mutants for modulated excitation imaging would in fact require such a detailed knowledge. We present here an extensive study of the photo-switching mechanism of the E222Q mutant of GFPMut2 (Mut2Q), pumped by visible 488 nm light and probed at 400-420 nm, as a function of pH, viscosity, temperature and light intensity. In solution, two characteristic photo-switching times are found by means of modulated double beam fluorescence correlation spectroscopy in the 1-30 ms range, depending on the solution pH. The photo-switching kinetics is solved in terms of the eigenvalues and the eigenvectors of a specific energy diagram and directly used to fit the data, suggesting that the observed photo-switching amplitudes and kinetics are related to a single three-levels transition loop. Finally we give in-vitro examples of the use of modulated excitation microscopy, based on fluorescence enhancement amplitude and kinetics detection, on Mut2Q protein samples immobilized in acrylamide gels.

Published

2010

3. Protonation and Conformational Dynamics of GFP Mutants by Two-Photon Excitation Fluorescence Correlation Spectroscopy

Author

Bosisio, C, Quercioli, V, Collini, M, D'Alfonso, L, Baldini, G, Bettati, S, Campanini, B, Raboni, S, Chirico, G, COLLINI, MADDALENA, D'ALFONSO, LAURA, BALDINI, GIANCARLO, CHIRICO, GIUSEPPE, Bosisio, C, Quercioli, V, Collini, M, D'Alfonso, L, Baldini, G, Bettati, S, Campanini, B, Raboni, S, Chirico, G, COLLINI, MADDALENA, D'ALFONSO, LAURA, BALDINI, GIANCARLO, and CHIRICO, GIUSEPPE

Abstract

GFP, fluorescence, fluctuation spectroscopy, protonation dynamics

Published

2008

4. Photoinduced millisecond switching kinetics in the GFPMut2 E222Q mutant.

Author

Quercioli V, Bosisio C, Daglio SC, Rocca F, D'Alfonso L, Collini M, Baldini G, Chirico G, Bettati S, Raboni S, and Campanini B

Subjects

Amino Acid Substitution, Catalysis, Green Fluorescent Proteins genetics, Green Fluorescent Proteins metabolism, Hydrogen-Ion Concentration, Kinetics, Mutagenesis, Site-Directed, Photobleaching, Spectrometry, Fluorescence, Time Factors, Green Fluorescent Proteins chemistry

Abstract

New probes for kinetic intracellular measurements in the millisecond range are desirable to monitor protein biochemical dynamics essential for catalysis, allosteric regulation, and signaling. Good candidates to this aim are the photoswitchable mutants of the green fluorescent protein, whose anionic fluorescence, primed by blue light, is markedly enhanced under an additional excitation at a shorter wavelength and relaxes within a few milliseconds. The aim of this report is to study how the brightness enhancement kinetics depends on the physical-chemical and spectroscopic parameters and to provide proof-of-concept experiments for the use of the fluorescence enhancement in conditions in which the protein diffusion is hindered and thereby photobleaching can be a limiting critical issue. Future, direct applications of photochromic mutants for modulated excitation imaging would in fact require such a detailed knowledge. We present here an extensive study of the photoswitching mechanism of the E222Q mutant of GFPMut2 (Mut2Q), pumped by visible 488 nm light and probed at 400-420 nm, as a function of pH, viscosity, temperature, and light intensity. In solution, two characteristic photoswitching times are found by means of modulated double beam fluorescence correlation spectroscopy in the 1-30 ms range, depending on the solution pH. The photoswitching kinetics is solved in terms of the eigenvalues and the eigenvectors of a specific energy diagram and used directly to fit the data, suggesting that the observed photoswitching amplitudes and kinetics are related to a single three-level transition loop. Finally, we give in vitro examples of the use of modulated excitation microscopy, based on fluorescence enhancement amplitude and kinetics detection, on Mut2Q protein samples immobilized in acrylamide gels.

Published

2010