Abstract
Magnesium (Mg)-mediated alleviation of aluminum (Al) toxicity has been observed in a number of plant species, but the mechanisms underlying the alleviation are still poorly understood. When a putative rice (Oryza sativa) Mg transporter gene, Oryza sativa MAGNESIUM TRANSPORTER1 (OsMGT1), was knocked out, the tolerance to Al, but not to cadmium and lanthanum, was decreased. However, this inhibition could be rescued by addition of 10 μm Mg, but not by the same concentration of barium or strontium. OsMGT1 was expressed in both the roots and shoots in the absence of Al, but the expression only in the roots was rapidly up-regulated by Al. Furthermore, the expression did not respond to low pH and other metals including cadmium and lanthanum, and was regulated by an Al-responsive transcription factor, AL RESISTANCE TRANSCRIPTION FACTOR1. An investigation of subcellular localization showed that OsMGT1 was localized to the plasma membrane. A short-term (30 min) uptake experiment with stable isotope (25)Mg showed that knockout of OsMGT1 resulted in decreased Mg uptake, but that the uptake in the wild type was enhanced by Al. Mg concentration in the cell sap of the root tips was also increased in the wild-type rice, but not in the knockout lines in the presence of Al. A microarray analysis showed that transcripts of genes related to stress were more up- and down-regulated in the knockout lines. Taken together, our results indicate that OsMGT1 is a transporter for Mg uptake in the roots and that up-regulation of this gene is required for conferring Al tolerance in rice by increasing Mg concentration in the cell.
Highlights
Magnesium (Mg)-mediated alleviation of aluminum (Al) toxicity has been observed in a number of plant species, but the mechanisms underlying the alleviation are still poorly understood
Rice is the most Al-tolerant crop among small grain cereal. This high level of tolerance has been attributed to multiple Al tolerance genes, which are regulated by a transcription factor, AL RESISTANCE TRANSCRIPTION FACTOR1 (ART1)
Oryza sativa MAGNESIUM TRANSPORTER1 (OsMGT1) showed the similarity ranging from 63% to 81% to Arabidopsis Mg transporter AtMGT family at the amino acid level (Supplemental Fig. S2A)
Summary
Magnesium (Mg)-mediated alleviation of aluminum (Al) toxicity has been observed in a number of plant species, but the mechanisms underlying the alleviation are still poorly understood. Our results indicate that OsMGT1 is a transporter for Mg uptake in the roots and that up-regulation of this gene is required for conferring Al tolerance in rice by increasing Mg concentration in the cell. Soluble ionic aluminum (Al) rapidly inhibits root growth at micromolar concentrations and subsequently affects the uptake of nutrients and water (Kochian et al, 2004; Ma, 2007; Delhaize et al, 2012) This Al toxicity could be alleviated by supply of magnesium (Mg) in a number of plant species including sorghum (Sorghum bicolor; Tan et al, 1992), soybean (Glycine max; Silva et al, 2001a), wheat (Triticum aestivum; Ryan et al, 1994), rice (Oryza sativa; Watanabe and Okada, 2005), and rice bean (Vigna umbellata; Yang et al, 2007). The asterisk shows a significant difference (P , 0.05 by Tukey’s test)
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