Abstract
The glyoxalase pathway is composed of glyoxalase I (GLYI) and glyoxalase II (GLYII) and is responsible for the detoxification of a cytotoxic metabolite methylglyoxal (MG) into the nontoxic S-D-lactoylglutathione. The two glyoxalase enzymes play a crucial role in stress tolerance in various plant species. Recently, the GLY gene families have well been analyzed in Arabidopsis, rice and soybean, however, little is known about them in Chinese cabbage (Brassica rapa). Here, 16 BrGLYI and 15 BrGLYII genes were identified in the B. rapa genome, and the BrGLYI and BrGLYII proteins were both clustered into five subfamilies. The classifications, chromosomal distributions, gene duplications, exon–intron structures, localizations, conserved motifs and promoter cis-elements were also predicted and analyzed. In addition, the expression pattern of these genes in different tissues and their response to biotic and abiotic stresses were analyzed using publicly available data and a quantitative real-time PCR analysis (RT-qPCR). The results indicated that the expression profiles of BrGLY genes varied among different tissues. Notably, a number of BrGLY genes showed responses to biotic and abiotic stress treatments, including Plasmodiophora brassicae infection and various heavy metal stresses. Taken together, this study identifies BrGLYI and BrGLYII gene families in B. rapa and offers insight into their roles in plant development and stress resistance, especially in heavy metal stress tolerance and pathogen resistance.
Highlights
The glyoxalase system is a ubiquitous pathway in all organisms that consists of the following two enzymes: glyoxalase I (GLYI) and glyoxalase II (GLYII)
Proteins that contained the glyoxalase domain (Pfam databases, PF00903) and had a putative lactoylglutathione lyase function were classified as BrGLYI proteins
Proteins that contained the metallo-beta-lactamase domain (Pfam databases, PF00753) and had a putative hydroxyacyl glutathione hydrolase function were classified as BrGLYII proteins
Summary
The glyoxalase system is a ubiquitous pathway in all organisms that consists of the following two enzymes: glyoxalase I (GLYI) and glyoxalase II (GLYII). The major function of this pathway is the detoxification of the potent cytotoxin methylglyoxal (MG) into D-lactate through two sequential reactions [1]. GLYI catalyzes the conversion of MG into S-D-lactoylglutathione (S-LG) with glutathione (GSH). GLYII catalyzes S-LG to yield D-lactate and replenishes the GSH that was consumed in the GLYI reaction step. The functions of the glyoxalases have been studied in animals and microbial systems (Thornalley, 1990).
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