| Literature DB >> 26262966 |
Konrad Meister1, Stephan Lotze1, Luuk L C Olijve2, Arthur L DeVries3, John G Duman4, Ilja K Voets2, Huib J Bakker1.
Abstract
We study the ice-binding site (IBS) of a hyperactive antifreeze protein from the beetle Dendroides canadensis (DAFP-1) using vibrational sum-frequency generation spectroscopy. We find that DAFP-1 accumulates at the air-water interface due to the hydrophobic character of its threonine-rich IBS while retaining its highly regular β-helical fold. We observe a narrow band at 3485 cm(-1) that we assign to the O-H stretch vibration of threonine hydroxyl groups of the IBS. The narrow character of the 3485 cm(-1) band suggests that the hydrogen bonds between the threonine residues at the IBS and adjacent water molecules are quite similar in strength, indicating that the IBS of DAFP-1 is extremely well-ordered, with the threonine side chains showing identical rotameric confirmations. The hydrogen-bonded water molecules do not form an ordered ice-like layer, as was recently observed for the moderate antifreeze protein type III. It thus appears that the antifreeze action of DAFP-1 does not require the presence of ordered water but likely results from the direct binding of its highly ordered array of threonine residues to the ice surface.Entities:
Keywords: air−water interface; antifreeze proteins; chiral sum-frequency generation spectroscopy; phase-sensitive sum-frequency generation; protein−water interface
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Year: 2015 PMID: 26262966 DOI: 10.1021/acs.jpclett.5b00281
Source DB: PubMed Journal: J Phys Chem Lett ISSN: 1948-7185 Impact factor: 6.475