Abstract
Acid-induced unfolding of the tetrameric glucose/xylose isomerase (GXI) from Streptomyces sp. NCIM 2730 has been investigated using intrinsic fluorescence, fluorescence quenching, second derivative spectroscopy, hydrophobic dye (1-anilino-8-naphthalene-sulfonate) binding and CD techniques. The pH dependence of tryptophanyl fluorescence of GXI at different temperatures indicated the presence of two stable intermediates at pH 5.0 and pH 3.0. The pH 3.2 intermediate was a dimer and exhibited molten globule-like characteristics, such as the presence of native-like secondary structure, loss of tertiary structure, increased exposure of hydrophobic pockets, altered microenvironment of tyrosine residues and increased accessibility to quenching by acrylamide. Fluorescence and CD studies on GXI at pH 5.0 suggested the involvement of a partially folded intermediate state in the native to molten globule state transition. The partially folded intermediate state retained considerable secondary and tertiary structure compared to the molten globule state. This state was characterized by its hydrophobic dye binding capacity, which is smaller than the molten globule state, but was greater than that of the native state. This state shared the dimeric status of the molten globule state but was prone to aggregate formation as evident by the Rayleigh light scattering studies. Based on these results, the unfolding pathway of GXI can be illustrated as: N-->PFI-->MG-->U; where N is the native state at pH 7.5; PFI is the partially folded intermediate state at pH 5.0; MG is the molten globule state at pH 3.2 and U is the monomeric unfolded state of GXI obtained in the presence of 6 M GdnHCl. Our results demonstrate the existence of a partially folded state and molten globule state on the unfolding pathway of a multimeric alpha/beta barrel protein.
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