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- Title
Characteristic Variations and Similarities in Biochemical, Molecular, and Functional Properties of Glyoxalases across Prokaryotes and Eukaryotes.
- Authors
Kaur, Charanpreet; Sharma, Shweta; Hasan, Mohammad Rokebul; Pareek, Ashwani; Singla-Pareek, Sneh L.; Sopory, Sudhir K.
- Abstract
The glyoxalase system is the ubiquitous pathway for the detoxification of methylglyoxal (MG) in the biological systems. It comprises two enzymes, glyoxalase I (GLYI) and glyoxalase II (GLYII), which act sequentially to convert MG into d-lactate, thereby helping living systems get rid of this otherwise cytotoxic byproduct of metabolism. In addition, a glutathione-independent GLYIII enzyme activity also exists in the biological systems that can directly convert MG to d-lactate. Humans and Escherichia coli possess a single copy of GLYI (encoding either the Ni- or Zn-dependent form) and GLYII genes, which through MG detoxification provide protection against various pathological and disease conditions. By contrast, the plant genome possesses multiple GLYI and GLYII genes with a role in abiotic stress tolerance. Plants possess both Ni2+- and Zn2+-dependent forms of GLYI, and studies on plant glyoxalases reveal the various unique features of these enzymes distinguishing them from prokaryotic and other eukaryotic glyoxalases. Through this review, we provide an overview of the plant glyoxalase family along with a comparative analysis of glyoxalases across various species, highlighting similarities as well as differences in the biochemical, molecular, and physiological properties of these enzymes. We believe that the evolution of multiple glyoxalases isoforms in plants is an important component of their robust defense strategies.
- Subjects
GLYOXALASE; PROKARYOTE genetics; EUKARYOTE phylogeny; PHYSIOLOGICAL effects of glutathione; ABIOTIC stress
- Publication
International Journal of Molecular Sciences, 2017, Vol 18, Issue 4, p250
- ISSN
1661-6596
- Publication type
Article
- DOI
10.3390/ijms18040250