2001
DOI: 10.1063/1.1336807
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Isotope-edited two-dimensional vibrational spectroscopy of trialanine in aqueous solution

Abstract: A pulse sequence for directly measuring the anharmonicities of coupled vibrations: Two-quantum twodimensional infrared spectroscopy Two-dimensional vibrational spectroscopy. II. Ab initio calculation of the coherent 2D infrared response function of CHCl 3 and comparison with the 2D Raman response function

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Cited by 198 publications
(275 citation statements)
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“…Another structural study of alanine dipeptide using 13 C NMR 49 confirmed the presence of PP II conformation, but also suggests that a mixture of PP II and α R is more likely in water. The dominance of PP II in trialanine was reiterated by two-dimensional vibrational spectroscopy studies of Woutersen & Hamm 50,51 and later modified by the same authors to include around 20% of α R apart from PP II 52 . The experimental studies of Schweitzer-Stenner & Eker on trialanines 53,54 and tetraalanines 55 in water using polarized Raman, FT-IR and VCD spectroscopy confirm the dominance of PP II conformation in tetraalanines, while a 50:50 mixture of PP II and extended β-strand-like conformations was observed for trialanines.…”
Section: Force Field Validationmentioning
confidence: 99%
“…Another structural study of alanine dipeptide using 13 C NMR 49 confirmed the presence of PP II conformation, but also suggests that a mixture of PP II and α R is more likely in water. The dominance of PP II in trialanine was reiterated by two-dimensional vibrational spectroscopy studies of Woutersen & Hamm 50,51 and later modified by the same authors to include around 20% of α R apart from PP II 52 . The experimental studies of Schweitzer-Stenner & Eker on trialanines 53,54 and tetraalanines 55 in water using polarized Raman, FT-IR and VCD spectroscopy confirm the dominance of PP II conformation in tetraalanines, while a 50:50 mixture of PP II and extended β-strand-like conformations was observed for trialanines.…”
Section: Force Field Validationmentioning
confidence: 99%
“…14 Extensive studies were performed on a small and flexible peptide, trialanine, and yielded the Ramachandran angles in good agreement with NMR studies. 8,9 For larger peptides the emphasis of 2D IR has been to relate certain patterns in the spectra to typical structural motifs as a-helix, 3 10 -helix, and -sheet. [14][15][16][17][18] However, the cross-peak pattern of other amide bands can provide additional structural information.…”
Section: Introductionmentioning
confidence: 99%
“…Coupling parameters are central to interpretation of data used in recently proposed structural techniques that combine Raman polarization and IR data (even including VCD) [31][32][33] and are vital for the new 2D IR studies that both measure coupling and develop dynamic pictures of protein structure. [34][35][36][37][38][39][40] In a recent example, isotopic substitution of helical peptides was used to help determine site-specific coupling. 23 Helices and their interresidue interactions are now fairly well understood, but similar questions with -sheets are more difficult to resolve, due to their greater heterogeneity and multistranded nature, and they provide natural targets for applications of isotopic labels and their coupling.…”
Section: Introductionmentioning
confidence: 99%