The genus Oryza is of utmost importance to human civilization as two of its species became agronomically productive and widely cultivated, and also because wild rice is a treasure trove of beneficial alleles that can be used for crop improvement. Most of the wild rice genotypes are known for their stress tolerance several times more than the domesticated rice varieties. In this study, we aimed to carry out an exhaustive genomic survey to identify glyoxalase I (GLYI) and glyoxalase II (GLYII) genes across the 11 rice genomes sequenced so far. Notably, we found the putatively functional metal-dependent GLYI and GLYII enzymes to be conserved throughout domestication and a few homologous pairs to have undergone beneficial mutations to drive positive selection, and thus, acquire newer functions. Interestingly, we also report four newly identified GLYII members in O. sativa subsp. japonica in addition to the three previously reported GLYII genes. The presence of different types of cis-elements in the promoter region of the glyoxalase genes gives insights into their role and regulation under various developmental processes besides stress adaptation. Publicly available data suggests the role of glyoxalase genes particularly in salinity stress in both wild and cultivated rice as is also confirmed through qRT-PCR. Interestingly, we found less accumulation of MG and concurrently higher enzymatic activity of GLYI and GLYII proteins in stressed seedlings of selected wild rice genotypes indicating that glyoxalases indeed contribute to the intrinsic stress tolerance of wild rice.
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