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Impact of the tryptophan residues of Humicola lanuginosa lipase on its thermal stability.
Authors:K Zhu  A Jutila  E K Tuominen  S A Patkar  A Svendsen  P K Kinnunen
Institution:Helsinki Biophysics and Biomembrane Group, Department of Medical Chemistry, Institute of Biomedicine, University of Helsinki, Finland.
Abstract:Thermal stability of wild type Humicola lanuginosa lipase (wt HLL) and its two mutants, W89L and the single Trp mutant W89m (W117F, W221H, and W260H), were compared. Differential scanning calorimetry revealed unfolding of HLL at T(d)=74.4 degrees C whereas for W89L and W89m this endotherm was decreased to 68.6 and 62 degrees C, respectively, demonstrating significant contribution of the above Trp residues to the structural stability of HLL. Fluorescence emission spectra revealed the average microenvironment of Trps of wt HLL and W89L to become more hydrophilic at elevated temperatures whereas the opposite was true for W89m. These changes in steady-state emission were sharp, with midpoints (T(m)) at approx. 70.5, 61.0, and 65.5 degrees C for wt HLL, W89L, and W89m, respectively. Both steady-state and time resolved fluorescence spectroscopy further indicated that upon increasing temperature, the local movements of tryptophan(s) in these lipases were first attenuated. However, faster mobilities became evident when the unfolding temperatures (T(m)) were exceeded, and the lipases became less compact as indicated by the increased hydrodynamic radii. Even at high temperatures (up to 85 degrees C) a significant extent of tertiary and secondary structure was revealed by circular dichroism. Activity measurements are in agreement with increased amplitudes of conformational fluctuations of HLL with temperature. Our results also indicate that the thermal unfolding of these lipases is not a two-state process but involves intermediate states. Interestingly, a heating and cooling cycle enhanced the activity of the lipases, suggesting the protein to be trapped in an intermediate, higher energy state. The present data show that the mutations, especially W89L in the lid, contribute significantly to the stability, structure and activity of HLL.
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