Publikation: Folding dynamics of peptides studied by timeresolved infrared spectroscopy
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2009
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European Biophysics Journal. 2009, 38(S1), pp. 35-212. ISSN 0175-7571. eISSN 1432-1017. Available under: doi: 10.1007/s00249-009-0478-1
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Peptides are ideal model systems to study protein folding mechanisms. IR techniques provide both the necessary time resolution as well as the structural sensitivity. We initiate rapid heating by laser-excited ns temperature jumps (∼10 ◦ C) and study fast ns-to-μs relaxation dynamics [1]. The dynamics of the α-helix to random coil transition of polyglutamic acid was analyzed under reversible folding/refolding pH-conditions. The observed relaxation kinetics allowed separation of the folding and unfolding process with additional use of FTIR measurements in thermal equilibrium. Sitespecific dynamics were monitored by use of isotopic labeling for a β-hairpin peptide whose conformation is stabilized by a hydrophobic core. Various single and cross-strand isotopically labeled variants were analyzed. The isotope-edited kinetics show variations in local structural stability of the hairpin backbone. Our data support a multistate dynamic behavior, and the site-specific kinetics are consistent with a hydrophobic collapse hypothesis for hairpin folding [2].
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KREJTSCHI, Carsten, Oliver RIDDERBUSCH, Rong HUANG, Ling WU, Tim KEIDERLING, Karin HAUSER, 2009. Folding dynamics of peptides studied by timeresolved infrared spectroscopy. In: European Biophysics Journal. 2009, 38(S1), pp. 35-212. ISSN 0175-7571. eISSN 1432-1017. Available under: doi: 10.1007/s00249-009-0478-1BibTex
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year={2009},
doi={10.1007/s00249-009-0478-1},
title={Folding dynamics of peptides studied by timeresolved infrared spectroscopy},
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volume={38},
issn={0175-7571},
journal={European Biophysics Journal},
pages={35--212},
author={Krejtschi, Carsten and Ridderbusch, Oliver and Huang, Rong and Wu, Ling and Keiderling, Tim and Hauser, Karin},
note={7th EBSA European Biophysics Congress, July 11-15 2009, Genova, Italy}
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<dcterms:abstract xml:lang="eng">Peptides are ideal model systems to study protein folding mechanisms. IR techniques provide both the necessary time resolution as well as the structural sensitivity. We initiate rapid heating by laser-excited ns temperature jumps (∼10 ◦ C) and study fast ns-to-μs relaxation dynamics [1]. The dynamics of the α-helix to random coil transition of polyglutamic acid was analyzed under reversible folding/refolding pH-conditions. The observed relaxation kinetics allowed separation of the folding and unfolding process with additional use of FTIR measurements in thermal equilibrium. Sitespecific dynamics were monitored by use of isotopic labeling for a β-hairpin peptide whose conformation is stabilized by a hydrophobic core. Various single and cross-strand isotopically labeled variants were analyzed. The isotope-edited kinetics show variations in local structural stability of the hairpin backbone. Our data support a multistate dynamic behavior, and the site-specific kinetics are consistent with a hydrophobic collapse hypothesis for hairpin folding [2].</dcterms:abstract>
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7th EBSA European Biophysics Congress, July 11-15 2009, Genova, Italy
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