Mesophyll specific expression of a bacterial mercury transporter-based vacuolar sequestration machinery sufficiently enhances mercury tolerance of Arabidopsis

Abstract: We aimed to efficiently enhance plant Hg(II) tolerance by the transgenic approach utilizing a bacterial mercury transporter MerC, an Arabidopsis mesophyll specific promoter pRBCS1A, and a vacuolar membrane targeting syntaxin AtVAM3/SYP22. We generated two independent homozygous Arabidopsis pRBCS1A-TCV lines expressing mT-Sapphire-MerC-AtVAM3 under the control of pRBCS1A. Quantitative RT-PCR showed that the transgene was expressed specifically in shoots of pRBCS1A-TCV lines. Confocal analyses further demonstrat… Show more

“…These MerC-expressing plants have used ubiquitous strong expression promoters, but recently, we have been working on the application of Arabidopsis cell type-specific promoters to achieve advanced regulation of MerC expression in the plant [56][57][58] (Fig. 4).…”

“…As a result, there was a success in conferring mercury tolerance while avoiding the trapping of mercury in vacuoles in root cells. 58) We are currently testing the applicability of these cell-type-specific MerC-expressing plants to cadmium 59) and arsenic pollution, and are working to enhance environmental remediation efficiency by pyramiding these different cell-type-specific MerC expression systems.…”

Molecular Toxicology of Methylmercury and Phytoremediation of Toxic Metals for Human Health

“…These MerC-expressing plants have used ubiquitous strong expression promoters, but recently, we have been working on the application of Arabidopsis cell type-specific promoters to achieve advanced regulation of MerC expression in the plant [56][57][58] (Fig. 4).…”

“…As a result, there was a success in conferring mercury tolerance while avoiding the trapping of mercury in vacuoles in root cells. 58) We are currently testing the applicability of these cell-type-specific MerC-expressing plants to cadmium 59) and arsenic pollution, and are working to enhance environmental remediation efficiency by pyramiding these different cell-type-specific MerC expression systems.…”

Molecular Toxicology of Methylmercury and Phytoremediation of Toxic Metals for Human Health

Root cell-type specific expressions of bacterial mercury transporter MerC and plant SNARE SYP121 fusion protein differentially affect cadmium accumulation patterns of Arabidopsis