Folding kinetics of the human prion protein probed by temperature jump
Temperature-jump perturbation was used to examine the relaxation kinetics of folding of the human prion protein. Measured rates were very fast ([almost equal to]3,000 s⁻¹), with the extrapolated folding rate constant at [almost equal to]20 °C in physiological conditions reaching 20,000 s⁻¹. By a mut...
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Veröffentlicht in: | Proceedings of the National Academy of Sciences - PNAS 2009-04, Vol.106 (14), p.5651-5656 |
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Sprache: | eng |
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Zusammenfassung: | Temperature-jump perturbation was used to examine the relaxation kinetics of folding of the human prion protein. Measured rates were very fast ([almost equal to]3,000 s⁻¹), with the extrapolated folding rate constant at [almost equal to]20 °C in physiological conditions reaching 20,000 s⁻¹. By a mutational analysis of core residues, we found that only 2, on the interface of helices 2 and 3, have significant φ-values in the transition state. Interestingly, a mutation sandwiched between the above 2 residues on the helix-helix contact interface had very little effect on the overall free energy of folding but led to the formation of a monomeric misfolded state, which had to unfold to acquire the native PrPC conformation. Another mutation that led to a marked destabilization of the native fold also formed a misfolded intermediate, but this was aggregation-prone despite the native state of this mutant being soluble. Taken together, the data imply that this fast-folding protein has a transition state that is not compact (m value analysis gives a βt value of only 0.3) but contains a developing nucleus between helices 2 and 3. The fact that a mutation in this nucleus had a negligible effect on stability but still led to formation of aberrant conformations during folding implies an easily perturbed folding mechanism. It is notable that in inherited forms of human prion disease, where point mutations produce a lethal dominant condition, 20 of the 33 amino acid replacements occur in the helix-2/3 sequence. |
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ISSN: | 0027-8424 1091-6490 |
DOI: | 10.1073/pnas.0811457106 |