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Molecular characterization and expression profile of methionine sulfoxide reductase gene family in maize (Zea mays) under abiotic stresses.

Research paper by Jiantang J Zhu, Pengcheng P Ding, Qingqing Q Li, YanKun Y Gao, Fanguo F Chen, Guangmin G Xia

Indexed on: 01 Mar '15Published on: 01 Mar '15Published in: Gene



Abstract

Methionine (Met) oxidation to methionine sulfoxide (MetSO) is a common form of damage caused by reactive oxygen species (ROS) accumulation via various environmental stresses. Methionine sulfoxide reductase (MSR) repairs oxidized Met and protects organisms from oxidative damage. Two types of MSR, A and B, have been identified based on substrate stereo specificity; they share no sequence similarity. In the present study, we characterized six genes encoding the putative MSR from two public databases. We compared them with MSRs from 6 species, and evaluated molecular characterization, phylogenetic analysis, tertiary structure and conserved motifs. On the basis of in silico and the qRT-PCR experimental data, we analyzed cDNA sequences and expression patterns of ZmMSR genes in different organs in maize. We found that ZmMSR genes were induced by polyethylene glycol (PEG) and NaCl, both known to generate oxidative stress. The results show that MSRs are conserved in different species, suggesting that MSRs across different species share common mechanisms related to diverse defense responses.