1. Structure of a fluorescent protein fromAequorea victoriabearing the obligate-monomer mutation A206K
- Author
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Antoine Royant, Marjolaine Noirclerc-Savoye, David von Stetten, Joachim Goedhart, Theodorus W. J. Gadella, Molecular Cytology (SILS, FNWI), and Systems Biology
- Subjects
Models, Molecular ,Cyan ,Green Fluorescent Proteins ,Mutant ,Biophysics ,Biochemistry ,Green fluorescent protein ,chemistry.chemical_compound ,Protein structure ,Structural Biology ,Genetics ,Structural Communications ,Animals ,Protein Structure, Quaternary ,biology ,Chromophore ,Condensed Matter Physics ,biology.organism_classification ,Protein Structure, Tertiary ,Hydrozoa ,Monomer ,chemistry ,Structural Homology, Protein ,Mutation ,Mutation (genetic algorithm) ,Aequorea victoria ,sense organs - Abstract
The green fluorescent protein (GFP) from the jellyfish Aequoria victoria has been shown to dimerize at high concentrations, which could lead to artefacts in imaging experiments. To ensure a truly monomeric state, an A206K mutation has been introduced into most of its widely used variants, with minimal effect on the spectroscopic properties. Here, the first structure of one of these variants, the cyan fluorescent protein mTurquoise, is presented and compared with that of its dimeric version mTurquoise-K206A. No significant structural change is detected in the chromophore cavity, reinforcing the notion that this mutation is spectroscopically silent and validating that the structural analysis performed on dimeric mutants also applies to monomeric versions. Finally, it is explained why cyan versions of GFP containing the Y66W and N146I mutations do not require the A206K mutation to prevent dimerization at high concentrations.
- Published
- 2012
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