A KS-type dehydrin and its related domains reduce Cu-promoted radical generation and the histidine residues contribute to the radical-reducing activities.

Dehydrin is a plant disordered protein whose functions are not yet totally understood. Here it is reported that a KS-type dehydrin can reduce the formation of reactive oxygen species from Cu. AtHIRD11, which is the Arabidopsis KS-type dehydrin, inhibited generation of hydrogen peroxide and hydroxyl radicals in the Cu-ascorbate system. The radical-reducing activity of AtHIRD11 was stronger than those of radical-silencing peptides such as glutathione and serum albumin. The addition of Cu(2+) reduced the disordered state, decreased the trypsin susceptibility, and promoted the self-association of AtHIRD11. Domain analyses indicated that the five domains containing histidine showed activities. Histidine/alanine substitutions indicated that histidine is a crucial residue for reducing generation. Using the 27 peptides which are related to the KnS-type dehydrins of 14 plant species, it was found that the strengths of duanyu1670-reducing activities can be determined by two factors, namely the histidine contents and the length of the peptides. The degree of duanyu1670-reducing activities of a dehydrin can be predicted using these indices.

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