Sequential Melting of Two Hydrophobic Clusters within the Green Fluorescent Protein GFP-cycle3

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Abstract

The analysis of the three-dimensional structure of green fluorescent protein (GFP-cycle3) revealed the presence of two well-defined hydrophobic clusters located on the opposite sides of the GFP β-can that might contribute to the formation of partially folded intermediate(s) during GFP unfolding. The microcalorimetric analysis of the nonequilibrium melting of GFP-cycle3 and its two mutants, I14A and I161A, revealed that due to the sequential melting of the mentioned hydrophobic clusters, the temperature-induced denaturation of this protein most likely occurs in three stages. The first and second stages involve melting of a smaller hydrophobic cluster formed around the residue I161, whereas a larger hydrophobic cluster (formed around the residues I14) is melted only at the last GFP-cycle3 denaturation step or remains rather structured even in the denatured state.

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