T. Kameda, N. Takeda, S. Kuroki
Oct 20, 1996
Citations
1
Influential Citations
38
Citations
Journal
Journal of Molecular Structure
Abstract
Abstract 13 C chemical shift tensor components ( δ 11 δ 22 and δ 33 ) of glycine (Gly), l -valine (Val), l -leucine (Leu), and l -asparagine (Asp) residue carbonyl carbons (C O) of peptides and polypeptides covering a wide range of hydrogen-bond lengths ( R N…O ) in the crystalline state have been measured by slow magic-angle-spinning solid-state 13 C NMR. From these experiments, it is found that δ 22 , which lies approximately along the amide C O bond, moves linearly downfield with a decrease in R N…O and the slope and intercept of the variation of δ 22 against R N…O depend on the amino acid residue. Using this relationship, the R N…O values for polypeptides were determined by observation of the δ 22 of the guest Gly residue incorporated into host polypeptides. δ 11 , and δ 33 are found to be insensitive to the change in R N…O and amino acid residues. Moreover, it is found that the sum of δ 11 and δ 33 is almost constant (337.5 ± 3.5 ppm) and is independent of the amino acid residue. The quantum-chemical calculation on the 13 C shielding constant for a peptide model compound was carried out by the finite perturbation theory within the INDO framework. This calculation acceptably explains the experimental results.