Author/Editor     Žerovnik, E; Jerala, R; Kroon-Žitko, L; Turk, V; Lohner, K
Title     Characterization of the equilibrium intermediates in acid denaturation of human stefin B
Type     članek
Source     Eur J Biochem
Vol. and No.     Letnik 245, št. 2
Publication year     1997
Volume     str. 364-72
Language     eng
Abstract     Acid-induced denaturation of recombinant human stefin B was followed using circular dichroism (CD) and fluorimetry. By comparing different spectroscopic probes, a number of equilibrium intermediates were detected. In pH denaturation at very low salt concentration (0.03 M NaCl) four states can be distinguished: N - I(N) - I1 - U, where N is the native state, I(N) is a native-like intermediate, I1 is an acid intermediate state with properties of a molten globule and U is the unfolded state. State 1, exhibits no near-ultraviolet CD but has some residual far-ultraviolet CD. It differs from U in its ability to increase fluorescence of 1-anilino-naphthalene 8-sulfonate (ANS). In 0.42 M salt, the pH denaturation is three-state between the dimeric native state N2 and intermediates I(N2) and I2, which are also dimeric according to size-exclusion chromatography. The acid intermediate I2 is more structured than I1: it binds ANS to a lower extent an I1, its Tyr residues are protected from the solvent, it shows some near-ultraviolet CD and its far-ultraviolet CD is even more intense than that for the native state. 1H-NMR spectra confirmed the overall structural features of the acid intermediates. To obtain the enthalpies of unfolding, microcalorimetric measurements were performed under conditions where the acid intermediates are maximally populated (18 degrees C): state I(N) from pH 5.0 to 4.6, 0.03 M salt: state I1 below pH 3.8, 0.42 M salt; and state I1 in equilibrium with I(N) at pH 4.05, 0.03 M salt. Enthalpies of unfolding for states I(N) and I1 were comparable to those of the native state. The enthalpy of unfolding for state I1 could not be determined.
Descriptors     CYSTATINS
CYSTEINE PROTEINASE INHIBITORS
SPECTROMETRY, FLUORESCENCE
PROTEIN FOLDING
PROTEIN DENATURATION
OSMOLAR CONCENTRATION
MOLECULAR SEQUENCE DATA
NUCLEAR MAGNETIC RESONANCE
HYDROGEN-ION CONCENTRATION
FLUORESCENT DYES
CIRCULAR DICHROISM
CHROMATOGRAPHY, GEL
CALORIMETRY, DIFFERENTIAL SCANNING
ANILINO NAPHTHALENESULFONATES