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An analysis of the effects of 1HN-(1)HN dipolar couplings on the measurement of amide bond vector orientations in invisible protein states by relaxation dispersion NMR.

Authors :
van Ingen H
Korzhnev DM
Kay LE
Source :
The journal of physical chemistry. B [J Phys Chem B] 2009 Jul 23; Vol. 113 (29), pp. 9968-77.
Publication Year :
2009

Abstract

Marginally and transiently populated conformational states of biomolecules can play important functional roles in biochemical processes. It is of significant interest, therefore, to develop tools for characterizing the structural and dynamical properties of these excited states. One recent development has been the emergence of spin-state-selective relaxation dispersion methods for quantifying dipolar vector orientations in invisible excited-state conformers through measurement of residual dipolar couplings (RDCs). Particularly powerful are 1HN-(15)N RDCs that can be measured with high sensitivity on fractionally aligned, deuterated, uniformly 15N-labeled protein samples. Fractional alignment also produces nonzero 1HN-(1)HN dipolar couplings. These can be problematic for the extraction of robust 1HN-(15)N RDC values, and hence amide bond vector orientations, in cases where the amide proton of interest and a proximal amide proton have small chemical shift differences and a significant 1HN-(1)HN dipolar coupling. Here, we show that while this strong coupling effect leads to aberrant relaxation dispersion profiles, extracted excited-state 1HN-(15)N RDCs are for the most part only marginally affected. Experimental examples of such aberrant profiles are provided, as well as a theoretical consideration of the influence of this strong coupling effect and numerical simulations that assess its impact on extracted parameters.

Details

Language :
English
ISSN :
1520-6106
Volume :
113
Issue :
29
Database :
MEDLINE
Journal :
The journal of physical chemistry. B
Publication Type :
Academic Journal
Accession number :
19569643
Full Text :
https://doi.org/10.1021/jp902793y