Toward direct determination of conformations of protein building units from multidimensional NMR experiments part II: A theoretical case study of Formyl-L-Valine amide

Research output: Article

14 Citations (Scopus)

Abstract

Chemical shielding anisotropy tensors have been determined for all twenty-seven characteristic conformers of For-L-Val-NH2 using the GIAO-RHF formalism with the 6-31 + G* and TZ2P basis sets. The individual chemical shifts and their conformational averages have been compared to their experimental counterparts taken from the BioMagnetic Resonance Bank (BMRB). At the highest level of theory applied, for all nuclei but the amide proton, deviations between statistically averaged theoretical and experimental chemical shifts are as low as 1-3%. Correlated chemical shift plots of selected nuclei, as function of the respective φ,Ψ,Χ1, and Χ2 torsional angles, have been generated. On two-dimensional chemical shift-chemical shift plots, for example. 1HNH-15NNH and 15NNH- 113Ca, regions corresponding to major conformational clusters have been identified, providing a basis for the quantitative identification of conformers from NMR shift data. Experimental NMR resonances of nuclei of valine residues have been deduced from 18 selected proteins, resulting in 93 1Ha-13Ca chemical shift pairs. These experimental results have been compared to relevant ab initio values revealing remarkable correlation between the two sets of data. Correlations of 1Ha and 13Ca values with backbone conformational parameters (φ and Ψ) have also been found for all pairs (e.g. 1Ha/φ and 13Ca/φ) but 1Ha/Ψ. Overall, the appealing idea of establishing backbone folding of proteins by employing chemical shift information alone, obtained from selected multiple-pulse NMR experiments (e.g. 2D-HSQC, 2D-HMQC, and 3D-HNCA), has received further support.

Original languageEnglish
Pages (from-to)1069-1083
Number of pages15
JournalChemistry - A European Journal
Volume7
Issue number5
DOIs
Publication statusPublished - márc. 2 2001

ASJC Scopus subject areas

  • Catalysis
  • Organic Chemistry

Fingerprint Dive into the research topics of 'Toward direct determination of conformations of protein building units from multidimensional NMR experiments part II: A theoretical case study of Formyl-L-Valine amide'. Together they form a unique fingerprint.

  • Cite this