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The glyoxalase system constitutes the major pathway for the detoxification of metabolically produced cytotoxin methylglyoxal (MG) into a non‐toxic metabolite d‐lactate. Glyoxalase I (GLY I) is an evolutionarily conserved metalloenzyme requiring divalent metal ions for its activity: Zn²⁺ in the case of eukaryotes or Ni²⁺ for enzymes of prokaryotic origin. Plant GLY I proteins are part of a multimember family; however, not much is known about their physiological function, structure and metal dependency. In this study, we report a unique GLY I (OsGLYI‐11.2) from Oryza sativa (rice) that requires Ni²⁺ for its activity. Its biochemical, structural and functional characterization revealed it to be a monomeric enzyme, possessing a single Ni²⁺ coordination site despite containing two GLY I domains. The requirement of Ni²⁺ as a cofactor by an enzyme involved in cellular detoxification suggests an essential role for this otherwise …