Abstract
Heavy metal-associated (HMA) domains bind metal ions at its Cys-x-x-Cys (CxxC) motif and constitute an intracellular network for trafficking of metal ions for utilization and detoxification. We thus expect that novel metalloproteins can be identified by screening proteins interacting with a HMA domain. In this study, we performed yeast two-hybrid screening of the human proteome and found an uncharacterized protein encoded as open reading frame 123 in chromosome 1 (C1orf123) that can interact specifically with the HMA domain of a copper chaperone for superoxide dismutase (CCSdI). Our X-ray structural analysis of C1orf123 further revealed that it binds a Zn2+ ion in a tetrahedral coordination with four thiolate groups from two conserved CxxC motifs. For the interaction between C1orf123 and CCSdI, the CxxC motifs in both C1orf123 and CCSdI were required, implying metal-mediated interaction through the CxxC motifs. Notably, C1orf123 did not interact with several other HMA domains containing CxxC motifs, supporting high specificity in the interaction between C1orf123 and CCSdI. Based upon these results, we further discuss functional and structural significance of the interaction between C1orf123 and CCS.
Highlights
Heavy metal ions have essential roles in our lives, for example, by functioning as redox centers in protein electron transfers and active centers in enzymatic reactions
Yeast two-hybrid screening was performed by using MatchmakerTM Gold Yeast Two-Hybrid System (Clontech). cDNA of copper chaperone for superoxide dismutase (CCSdI) was cloned into a plasmid vector, pGBK-T7, with which a Y2H-Gold yeast strain was transformed
To search for proteins that can interact with human CCSdI, yeast two-hybrid screening experiments were performed using a human cDNA library
Summary
Heavy metal ions have essential roles in our lives, for example, by functioning as redox centers in protein electron transfers and active centers in enzymatic reactions. The crystal structure revealed that C1orf123 binds a Zn2+ ion in a tetrahedral coordination with four Cys residues from two CxxC motifs.
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