1. Fluorescence lifetime imaging microscopy and fluorescence resonance energy transfer from cyan to yellow fluorescent protein validates a novel method to cluster proteins on solid surfaces
- Author
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José A. B. Ferreira, Sílvia M. B. Costa, Catarina Madeira, Suzana M. Andrade, Eduardo P. Melo, and Nídia Estrela
- Subjects
Yellow fluorescent protein ,Fluorescence-lifetime imaging microscopy ,Binding Sites ,Materials science ,biology ,Cyan ,Green Fluorescent Proteins ,Biomedical Engineering ,Nanotechnology ,Fluorescence ,Micelle ,Atomic and Molecular Physics, and Optics ,Electronic, Optical and Magnetic Materials ,Biomaterials ,Luminescent Proteins ,Förster resonance energy transfer ,Bacterial Proteins ,Microscopy, Fluorescence ,Dynamic light scattering ,Microscopy ,Fluorescence Resonance Energy Transfer ,biology.protein ,Biophysics ,Adsorption ,Protein Binding - Abstract
A novel method to distribute proteins on solid surfaces is proposed. Proteins microencapsulated in the water pool of reverse micelles were used to coat a solid surface with well-individualized round spots of 1 to 3 µm in diameter. The number of spots per unit area can be increased through the concentration of reverse micelles, and networks of spots were obtained at high concentrations of large reverse micelles. Moreover, depending on the pool size of the water reverse micelles, proteins can be deposited far from each other or in close proximity within the range of 50 to 70 A. This proximity obtained with small reverse micelles was proved through fluorescence lifetime imaging microscopy and fluorescence resonance energy transfer (FLIM-FRET) measurements for the most relevant FRET pair in cell biology studies, the cyan and yellow fluorescent proteins. This novel procedure has several advantages and reveals the potential for study of protein-protein interactions on solid surfaces and for developing novel biomaterials and molecular devices based on biorecognition elements.
- Published
- 2009
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