A strong 13C chemical shift signature provides the coordination mode of histidines in zinc-binding proteins

doi:10.1007/s10858-012-9625-6

. 2012 Jun;53(2):93-101.

doi: 10.1007/s10858-012-9625-6. Epub 2012 Apr 17.

A strong 13C chemical shift signature provides the coordination mode of histidines in zinc-binding proteins

Pierre Barraud¹, Mario Schubert, Frédéric H-T Allain

Affiliations

PMID: 22528293
DOI: 10.1007/s10858-012-9625-6

Free article

A strong 13C chemical shift signature provides the coordination mode of histidines in zinc-binding proteins

Pierre Barraud et al. J Biomol NMR. 2012 Jun.

Free article

. 2012 Jun;53(2):93-101.

doi: 10.1007/s10858-012-9625-6. Epub 2012 Apr 17.

Authors

Pierre Barraud¹, Mario Schubert, Frédéric H-T Allain

Affiliation

¹ Institute of Molecular Biology and Biophysics, ETH Zurich, Schafmattstrasse 20, 8093 Zurich, Switzerland. pierre.barraud@mol.biol.ethz.ch

PMID: 22528293
DOI: 10.1007/s10858-012-9625-6

Abstract

Zinc is the second most abundant metal ion incorporated in proteins, and is in many cases a crucial component of protein three-dimensional structures. Zinc ions are frequently coordinated by cysteine and histidine residues. Whereas cysteines bind to zinc via their unique S(γ) atom, histidines can coordinate zinc with two different coordination modes, either N(δ1) or N(ε2) is coordinating the zinc ion. The determination of this coordination mode is crucial for the accurate structure determination of a histidine-containing zinc-binding site by NMR. NMR chemical shifts contain a vast amount of information on local electronic and structural environments and surprisingly their utilization for the determination of the coordination mode of zinc-ligated histidines has been limited so far to (15)N nuclei. In the present report, we observed that the (13)C chemical shifts of aromatic carbons in zinc-ligated histidines represent a reliable signature of their coordination mode. Using a statistical analysis of (13)C chemical shifts, we show that (13)C(δ2) chemical shift is sensitive to the histidine coordination mode and that the chemical shift difference δ{(13)C(ε1)} - δ{(13)C(δ2)} provides a reference-independent marker of this coordination mode. The present approach allows the direct determination of the coordination mode of zinc-ligated histidines even with non-isotopically enriched protein samples and without any prior structural information.

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[1] Structure. 2002 May;10(5):639-48 - PubMed

[2] Structure. 2002 May;10(5):639-48 - PubMed

[3] Biochemistry. 2007 Jun 26;46(25):7383-95 - PubMed

[4] Biochemistry. 2007 Jun 26;46(25):7383-95 - PubMed

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A strong 13C chemical shift signature provides the coordination mode of histidines in zinc-binding proteins

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A strong 13C chemical shift signature provides the coordination mode of histidines in zinc-binding proteins

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