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Unfolding and double-stranded DNA binding of the cold shock protein homologue Cla h 8 from Cladosporium herbarum

Overview of Falsone SF et al.

AuthorsFalsone SF  Weichel M  Crameri R  Breitenbach M  Kungl AJ  
AffiliationDepartment of Protein Chemistry and Biophysics   Institute of Pharmaceutical Chemistry and Pharmaceutical Technology   University of Graz   A-8010 Graz   Austria.  
JournalJ Biol Chem
Year 2002

Abstract


The cloning, purification, and biophysical characterization of the first eukaryotic cold shock protein homologue, Cla h 8, expressed as single functional polypeptide is reported here. It was discovered as a minor allergen of the mold Cladosporium herbarum by phage display using a library selectively enriched for IgE-binding proteins. Based on the sequence homology of Cla h 8 with bacterial cold shock proteins (CSPs), a homology-based computer model of the allergen was computed indicating an all-beta structure of Cla h 8. This major structural feature was confirmed by CD spectroscopy. Despite the structural similarities with bacterial CSPs, the DNA-binding and unfolding behavior of Cla h 8 exhibited unique and previously undescribed characteristics. High affinities of Cla h 8 for single-stranded DNA as well as for double-stranded DNA corresponding to the human Y-box were detected. The affinity for double-stranded DNA increased significantly with decreasing temperature, which was paralleled by an increase in the beta sheet content of the protein. Temperature-dependent fluorescence anisotropy and far-UV CD measurements revealed different unfolding transitions at 28 and at 35.7 degrees C, respectively, indicating a multistate transition, which is uncommon for CSPs. The enhanced affinity for DNA at low temperatures together with the low unfolding transition refer to the functional significance of Cla h 8 at reduced temperatures.