International audienceThe ability of metal hyperaccumulating plants to tolerate and accumulate heavy metals results from adaptations of metal homeostasis. NRAMP metal transporters were found to be highly expressed in some hyperaccumulating plant species. Here, we identified TcNRAMP3 and TcNRAMP4, the closest homologues to AtNRAMP3 and AtNRAMP4 in Thlaspi caerulescens and characterized them by expression analysis, confocal imaging and heterologous expression in yeast and Arabidopsis thaliana. TcNRAMP3 and TcNRAMP4 are expressed at higher levels than their A. thaliana homologues. When expressed in yeast TcNRAMP3 and TcNRAMP4 transport the same metals as their respective A. thaliana orthologues: iron (Fe), manganese (Mn) and cadmium (Cd) but n...
Sedum alfredii is a native Chinese plant species that belongs to the group of metal hyperaccumulator...
Abstract The heavy metal hyperaccumulator Thlaspi caerulescens expresses several ZIP-like genes at h...
The heavy metal hyperaccumulator Thlaspi caerulescens expresses several ZIP-like genes at higher lev...
International audienceThe ability of metal hyperaccumulating plants to tolerate and accumulate heavy...
International audienceThe ability of metal hyperaccumulating plants to tolerate and accumulate heavy...
The ability of metal hyperaccumulating plants to tolerate and accumulate heavy metals results from a...
The ability of metal hyperaccumulating plants to tolerate and accumulate heavy metals results from a...
International audienceThe ability of metal hyperaccumulating plants to tolerate and accumulate heavy...
Accumulation of a given metal in plants depends on a delicate and precise balance of various biologi...
Metalliferous soils are characterized by a high content of metal compounds that can hamper plant gro...
Metalliferous soils are characterized by a high content of metal compounds that can hamper plant gro...
Analysis of the AtNramp sequences and comparison to other Nramps suggests that they contain 12 trans...
Ni homeostasis is essential for plant cell activity, but the mechanisms of Ni-transport and delivery...
Sedum alfredii is a native Chinese plant species that belongs to the group of metal hyperaccumulator...
Sedum alfredii is a native Chinese plant species that belongs to the group of metal hyperaccumulator...
Sedum alfredii is a native Chinese plant species that belongs to the group of metal hyperaccumulator...
Abstract The heavy metal hyperaccumulator Thlaspi caerulescens expresses several ZIP-like genes at h...
The heavy metal hyperaccumulator Thlaspi caerulescens expresses several ZIP-like genes at higher lev...
International audienceThe ability of metal hyperaccumulating plants to tolerate and accumulate heavy...
International audienceThe ability of metal hyperaccumulating plants to tolerate and accumulate heavy...
The ability of metal hyperaccumulating plants to tolerate and accumulate heavy metals results from a...
The ability of metal hyperaccumulating plants to tolerate and accumulate heavy metals results from a...
International audienceThe ability of metal hyperaccumulating plants to tolerate and accumulate heavy...
Accumulation of a given metal in plants depends on a delicate and precise balance of various biologi...
Metalliferous soils are characterized by a high content of metal compounds that can hamper plant gro...
Metalliferous soils are characterized by a high content of metal compounds that can hamper plant gro...
Analysis of the AtNramp sequences and comparison to other Nramps suggests that they contain 12 trans...
Ni homeostasis is essential for plant cell activity, but the mechanisms of Ni-transport and delivery...
Sedum alfredii is a native Chinese plant species that belongs to the group of metal hyperaccumulator...
Sedum alfredii is a native Chinese plant species that belongs to the group of metal hyperaccumulator...
Sedum alfredii is a native Chinese plant species that belongs to the group of metal hyperaccumulator...
Abstract The heavy metal hyperaccumulator Thlaspi caerulescens expresses several ZIP-like genes at h...
The heavy metal hyperaccumulator Thlaspi caerulescens expresses several ZIP-like genes at higher lev...