Susceptibility towards intramolecular disulphide-bond formation affects conformational stability and folding of human basic fibroblast growth factor

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • David Estapé
  • Joop Van Den Heuvel
  • Ursula Rinas

Externe Organisationen

  • Helmholtz-Zentrum für Infektionsforschung GmbH (HZI)
  • Life Sciences Meissner + Wurst GmbH
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Seiten (von - bis)343-349
Seitenumfang7
FachzeitschriftBiochemical Journal
Jahrgang335
Ausgabenummer2
PublikationsstatusVeröffentlicht - 15 Okt. 1998
Extern publiziertJa

Abstract

The conformational stability and the folding properties of the all-β-type protein human basic fibroblast growth factor (hFGF-2) were studied by means of fluorescence spectroscopy. The results show that the instability of the biological activity of hFGF-2 is also reflected in a low conformational stability of the molecule. The reversibility of the unfolding and refolding process was established under reducing conditions. Determination of the free-energy of unfolding in the presence of reducing agents revealed that the conformational stability of hFGF-2 (ΔG(app)(H2O) ≃ 21 kJ·mol-1, 25°C) is low compared with other globular proteins under physiological conditions (20-60 kJ·mol-1). However, the conformational stability of hFGF-2 is particularly low under non-reducing conditions. This instability is attributed to intramolecular disulphide-bond formation, rendering the molecule more susceptible to denaturant-induced unfolding. In addition, denaturant-induced unfolding of hFGF-2 renders the protein more susceptible to irreversible oxidative denaturation. Experimental evidence is provided that the irreversibility of the unfolding and refolding process in the absence of reducing agents is linked to the formation of an intramolecular disulphide bond involving cysteines 96 and 101.

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Susceptibility towards intramolecular disulphide-bond formation affects conformational stability and folding of human basic fibroblast growth factor. / Estapé, David; Van Den Heuvel, Joop; Rinas, Ursula.
in: Biochemical Journal, Jahrgang 335, Nr. 2, 15.10.1998, S. 343-349.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

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title = "Susceptibility towards intramolecular disulphide-bond formation affects conformational stability and folding of human basic fibroblast growth factor",
abstract = "The conformational stability and the folding properties of the all-β-type protein human basic fibroblast growth factor (hFGF-2) were studied by means of fluorescence spectroscopy. The results show that the instability of the biological activity of hFGF-2 is also reflected in a low conformational stability of the molecule. The reversibility of the unfolding and refolding process was established under reducing conditions. Determination of the free-energy of unfolding in the presence of reducing agents revealed that the conformational stability of hFGF-2 (ΔG(app)(H2O) ≃ 21 kJ·mol-1, 25°C) is low compared with other globular proteins under physiological conditions (20-60 kJ·mol-1). However, the conformational stability of hFGF-2 is particularly low under non-reducing conditions. This instability is attributed to intramolecular disulphide-bond formation, rendering the molecule more susceptible to denaturant-induced unfolding. In addition, denaturant-induced unfolding of hFGF-2 renders the protein more susceptible to irreversible oxidative denaturation. Experimental evidence is provided that the irreversibility of the unfolding and refolding process in the absence of reducing agents is linked to the formation of an intramolecular disulphide bond involving cysteines 96 and 101.",
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AU - Estapé, David

AU - Van Den Heuvel, Joop

AU - Rinas, Ursula

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N2 - The conformational stability and the folding properties of the all-β-type protein human basic fibroblast growth factor (hFGF-2) were studied by means of fluorescence spectroscopy. The results show that the instability of the biological activity of hFGF-2 is also reflected in a low conformational stability of the molecule. The reversibility of the unfolding and refolding process was established under reducing conditions. Determination of the free-energy of unfolding in the presence of reducing agents revealed that the conformational stability of hFGF-2 (ΔG(app)(H2O) ≃ 21 kJ·mol-1, 25°C) is low compared with other globular proteins under physiological conditions (20-60 kJ·mol-1). However, the conformational stability of hFGF-2 is particularly low under non-reducing conditions. This instability is attributed to intramolecular disulphide-bond formation, rendering the molecule more susceptible to denaturant-induced unfolding. In addition, denaturant-induced unfolding of hFGF-2 renders the protein more susceptible to irreversible oxidative denaturation. Experimental evidence is provided that the irreversibility of the unfolding and refolding process in the absence of reducing agents is linked to the formation of an intramolecular disulphide bond involving cysteines 96 and 101.

AB - The conformational stability and the folding properties of the all-β-type protein human basic fibroblast growth factor (hFGF-2) were studied by means of fluorescence spectroscopy. The results show that the instability of the biological activity of hFGF-2 is also reflected in a low conformational stability of the molecule. The reversibility of the unfolding and refolding process was established under reducing conditions. Determination of the free-energy of unfolding in the presence of reducing agents revealed that the conformational stability of hFGF-2 (ΔG(app)(H2O) ≃ 21 kJ·mol-1, 25°C) is low compared with other globular proteins under physiological conditions (20-60 kJ·mol-1). However, the conformational stability of hFGF-2 is particularly low under non-reducing conditions. This instability is attributed to intramolecular disulphide-bond formation, rendering the molecule more susceptible to denaturant-induced unfolding. In addition, denaturant-induced unfolding of hFGF-2 renders the protein more susceptible to irreversible oxidative denaturation. Experimental evidence is provided that the irreversibility of the unfolding and refolding process in the absence of reducing agents is linked to the formation of an intramolecular disulphide bond involving cysteines 96 and 101.

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