The two-dimensional infrared spectrum of all octameric helical peptide in chloroform was measured as a function of temperature. Isotope labeling of the carbonyl group of one of the amino acids was used to obtain information for an isolated vibration. The antidiagonal width of the 2D-IR signal, which is a measure of the homogeneous dephasing time T(2), is constant from 220 to 260 K (within experimental error), and increases steeply above. The homogeneous dephasing time of the carbonyl vibration is attributed to the flexibility of the system and/or its immediate Surrounding. The system undergoes a dynamical transition at about 270 K, with similarities to the protein dynamical transition. Furthermore, the temperature dependence of the antidiag...
Far-infrared spectroscopy was used to study the dynamics of three aqueous peptides having varied hel...
Available online 7 March 2012The far-infrared spectra of lysozyme, alanine-rich peptides and small c...
Author Institution: Sterling Chemistry Laboratory, Yale University, P.O. Box 208107, New Haven, CT 0...
The two-dimensional infrared spectrum of all octameric helical peptide in chloroform was measured as...
pplying ultrafast vibrational spectroscopy, we find that vibrational energy transport along a helica...
Energy transport in a short helical peptide in chloroform solution is studied by time-resolved femto...
The intramolecular and intermolecular vibrational energy flow in a polyproline peptide with a total ...
Elastin-like peptides are hydrophobic biopolymers that exhibit a reversible coacervation transition ...
The changes in fast dynamics of HP35 with a double CN vibrational dynamics label (HP35-P<sub>2</sub>...
Elastin-like peptides are hydrophobic biopolymers that exhibit a reversible coacervation transition ...
We investigate energy transport through an a-aminoisobutyric acid-based 3(10)-helix dissolved in chl...
The field of protein folding is considered to be one of the frontiers in biophysics and structural b...
Far-infrared spectroscopy was used to study the dynamics of three aqueous peptides having varied hel...
Elastin-like peptides are hydrophobic biopolymers that exhibit a reversible coacervation transition...
Author Institution: Department of Chemistry, Syracuse UniversityVibrational circular dichroism (VCD)...
Far-infrared spectroscopy was used to study the dynamics of three aqueous peptides having varied hel...
Available online 7 March 2012The far-infrared spectra of lysozyme, alanine-rich peptides and small c...
Author Institution: Sterling Chemistry Laboratory, Yale University, P.O. Box 208107, New Haven, CT 0...
The two-dimensional infrared spectrum of all octameric helical peptide in chloroform was measured as...
pplying ultrafast vibrational spectroscopy, we find that vibrational energy transport along a helica...
Energy transport in a short helical peptide in chloroform solution is studied by time-resolved femto...
The intramolecular and intermolecular vibrational energy flow in a polyproline peptide with a total ...
Elastin-like peptides are hydrophobic biopolymers that exhibit a reversible coacervation transition ...
The changes in fast dynamics of HP35 with a double CN vibrational dynamics label (HP35-P<sub>2</sub>...
Elastin-like peptides are hydrophobic biopolymers that exhibit a reversible coacervation transition ...
We investigate energy transport through an a-aminoisobutyric acid-based 3(10)-helix dissolved in chl...
The field of protein folding is considered to be one of the frontiers in biophysics and structural b...
Far-infrared spectroscopy was used to study the dynamics of three aqueous peptides having varied hel...
Elastin-like peptides are hydrophobic biopolymers that exhibit a reversible coacervation transition...
Author Institution: Department of Chemistry, Syracuse UniversityVibrational circular dichroism (VCD)...
Far-infrared spectroscopy was used to study the dynamics of three aqueous peptides having varied hel...
Available online 7 March 2012The far-infrared spectra of lysozyme, alanine-rich peptides and small c...
Author Institution: Sterling Chemistry Laboratory, Yale University, P.O. Box 208107, New Haven, CT 0...