Metal binding by citrus dehydrin with histidine-rich domains

Abstract

Dehydrins are hydrophilic proteins that are responsive to osmotic stress, such as drought, cold, and salinity in plants. Although they have been hypothesized to stabilize macromolecules in stressed cells, their functions are not fully understood. Citrus dehydrin, which accumulates mainly in response to cold stress, enhances cold tolerance in transgenic tobacco by reducing lipid peroxidation. It has been demonstrated that citrus dehydrin scavenges hydroxyl radicals. In this study, the metal binding of citrus dehydrin is reported and the specific domain responsible is identified. The metal binding property of citrus dehydrin was tested using immobilized metal ion affinity chromatography (IMAC). Fe³⁺, Co²⁺, Ni²⁺, Cu²⁺, and Zn²⁺ bound to citrus dehydrin, but Mg²⁺, Ca²⁺, and Mn²⁺ did not. Among the bound metals, the highest affinity was detected for Cu²⁺-dehydrin binding, which showed a dissociation constant of 1.6 μM. Citrus dehydrin was able to bind up to 16 Cu²⁺ ions. IMAC indicated that His residues contributed to Cu²⁺-dehydrin binding. The amino acid sequence of CuCOR15 was divided into five domains, of which domain 1 bound Cu²⁺ most strongly. One portion of domain 1, HKGEHHSGDHH, was the core sequence for the binding. These results suggest that citrus dehydrin binds metals using a specific sequence containing His. Since citrus dehydrin is a radical-scavenging protein, it may reduce metal toxicity in plant cells under water-stressed conditions.