Structural study of the zinc and cadmium complexes of a type 2 plant (Quercus suber) metallothionein: Insights by vibrational spectroscopy

Abstract

Zn‐ and Cd‐complexes of Quercus suber metallothionein (QsMT) were obtained by in vivo‐synthesis, in order to obtain physiologically representative aggregates, and characterized by spectrometric and spectroscopic methods. The secondary structure elements and the coordination environments of the metal binding sites of the two aggregates were determined, as well as the main metal‐containing species formed. The results obtained from the analysis of the Raman and IR spectra reveal that these metal‐MT complexes predominantly contain β‐sheet elements (about 60%), whereas they lack α‐helices. These structural features slightly depend on the divalent metal bound. In particular, Cd^II^ binding to QsMT induces a slight increase of the β‐sheet percentage, as well as a decrease in β‐turn elements with respect to Zn^II^ binding. Conversely, the in vivo capability of QsMT to inglobe metal and sulfide ions is metal‐depending. Spectroscopic vibrational data also confirm the presence of sulfide ligands in the metal clusters of both Zn‐ and Cd‐QsMT, while the participation of the spacer His residue in metal coordination was only found in Cd‐QsMT, in agreement with the CD results. Overall data suggest different coordination environments for Zn^II^ and Cd^II^ ions in QsMT. © 2007 Wiley Periodicals, Inc. Biopolymers 86: 240–248, 2007.

This article was originally published online as an accepted preprint. The “Published Online” date corresponds to the preprint version. You can request a copy of the preprint by emailing the Biopolymers editorial office at [email protected]