FLUORESCENCE LIFETIME STUDY OF THE DENATURATION OF RIBONUCLEASE-A |
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Authors: | Natalia Barboy J. Feitelson |
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Affiliation: | Department of Physical Chemistry, The Hebrew University of Jerusalem, Jerusalem, Israel |
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Abstract: | Abstract. Fluorescence quantum yield and lifetime measurements of the tyrosine residues in ribonuclease-A (RNase) were used to study the conformational changes involved in the denaturation of the enzyme. Measurements were done on RNase and on selectively acetylated RNase in the native, the partly denatured (reductive cleavage of S-S bridges or treatment with 8 M urea) and in the fully denatured state. The data were interpreted to mean that the opening of the S-S bridges causes large parts of the enzyme chain to unfold while leaving a hydrophobic region; including one of the tyrosine residues, intact. The biological activity of RNase is destroyed by this unfolding. Urea apparently does penetrate the protein coil but does not greatly affect the RNase structure since some of its biological activity is still retained. The opening of the S-S bridges in the presence of urea destroys the native conformation (and biological activity) completely leaving the protein in the form of an uncoiled polypeptide chain. It is suggested which parts of the protein structure might be affected by partial denaturation. |
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