The methanol-induced transition and the expanded helical conformation in hen lysozyme

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The methanol-induced transition and the expanded helical conformation in hen lysozyme

Y. O. KAMATARI, T. KONNO, M. KATAOKA and K. AKASAKA
The Graduate School of Science and Technology, Kobe University, Kobe 657, Japan

Methanol-induced conformational transitions of hen egg white lysozyme were investigated with a combined use of far- and near-UV CD and NMR spectroscopies, ANS binding and small-angle X-ray scattering. Addition of methanol induced no global change in the native conformation itself, but induced a transition from the native state to the denatured state which was highly cooperative, as shown by the coincidence of transition curves monitored by the far- and near-UV CD spectroscopy, by isodichroic points in the far- and near-UV CD spectra and by the concomitant disappearance of individual (1)H NMR signals of the native state. The ANS binding experiments could detect no intermediate conformer similar to the molten globule state in the process of the methanol denaturation. However, at high concentration of methanol, e.g., 60% (v/v) methanol/water, a highly helical state (H) was realized. The H state had a helical content much higher than the native state, monitored by far-UV CD spectroscopy, and had no specific tertiary structure, monitored both by near-UV CD and NMR spectroscopy. The radius of gyration in the H state, 24.9 A, was significantly larger than that in the native state (15.7 A). The Kratky plot for the H state did not show a clear peak and was quite similar to that for the urea-denatured state, indicating a complete lack of globularity. Thus we conclude that the H state has a considerably expanded, flexible broken rod-like conformation which is clearly distinguishable from the ``molten globule'' state. The stability of both N and H states depends on pH and methanol concentration. Thus a phase diagram involving N and H was constructed.
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The methanol-induced transition and the expanded helical conformation in hen lysozyme