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New Phytologist, ISSN 0028-646X, 2/2009, Volume 181, Issue 3, pp. 637 - 650
The ability of metal hyperaccumulating plants to tolerate and accumulate heavy metals results from adaptations of metal homeostasis. NRAMP metal transporters... 
Yeasts | Cadmium | Complementary DNA | Hypersensitivity | Genes | Homeostasis | Hyperaccumulators | Iron | Plants | Zinc | NRAMP | Thlaspi caerulescens | hyperaccumulator | zinc (Zn) | metal transport | cadmium (Cd) | Cadmium (Cd) | Metal transport | Hyperaccumulator | Zinc (Zn) | ARABIDOPSIS-THALIANA | PROTEIN | GENE ENCODES | SACCHAROMYCES-CEREVISIAE | PLANT SCIENCES | EXPRESSION DIFFERENCES | IRON TRANSPORT | HEAVY-METAL | TRANSPORTER GENES | CADMIUM | ZINC TRANSPORTER | Thlaspi - metabolism | DNA, Complementary - genetics | Molecular Sequence Data | Saccharomyces cerevisiae - drug effects | Genetic Complementation Test | Recombinant Fusion Proteins - metabolism | Vacuoles - drug effects | Cloning, Molecular | Biological Transport - drug effects | Plant Proteins - metabolism | Thlaspi - genetics | Green Fluorescent Proteins - metabolism | Arabidopsis - drug effects | Cadmium - toxicity | Genome, Plant - genetics | DNA, Plant - metabolism | Mutation - genetics | Thlaspi - drug effects | Arabidopsis - metabolism | Saccharomyces cerevisiae - cytology | Plant Proteins - genetics | Gene Expression Regulation, Plant - drug effects | Metals - metabolism | Vacuoles - metabolism | Zinc - toxicity | Intracellular Membranes - drug effects | Intracellular Membranes - metabolism | Arabidopsis thaliana | Heavy metals | Index Medicus | Thlaspi | Green Fluorescent Proteins | Arabidopsis | Metals | Intracellular Membranes | Genome, Plant | Recombinant Fusion Proteins | DNA, Plant | Life Sciences | Biological Transport | Gene Expression Regulation, Plant | Plant Proteins | Mutation | Vegetal Biology | Saccharomyces cerevisiae | Vacuoles | DNA, Complementary | transporter genes | saccharomyces-cerevisiae | arabidopsis-thaliana | heavy-metal | protein | cadmium | gene encodes | zinc transporter | iron transport | expression differences
Journal Article
Plant and Soil, ISSN 0032-079X, 2/2003, Volume 249, Issue 1, pp. 27 - 35
Journal Article
Journal of Experimental Botany, ISSN 0022-0957, 2/2005, Volume 56, Issue 412, pp. 765 - 775
Journal Article
The New Phytologist, ISSN 0028-646X, 9/2001, Volume 151, Issue 3, pp. 613 - 620
• To examine whether root exudates of the Zn/Cd hyperaccumulator Thlaspi caerulescens play a role in metal hyperaccumulation, we compared the metal... 
Root exudates | Plant roots | Hyperaccumulators | Canola | Plants | Acid soils | Soil pollution | Resins | Wheat | Zinc | root exudates | Thlaspi caerulescens | cadmium | wheat | phytoremediation | zinc | hyperaccumulation | canola | Cadmium | Hyperaccumulation | Phytoremediation | TOLERANCE | BIOCHEMISTRY & MOLECULAR BIOLOGY | IRON | C-PRESL | PLANT SCIENCES | ZINC-DEFICIENCY | PHYTOSIDEROPHORE RELEASE | CADMIUM ACCUMULATION | SOIL | PLANTS | COMPARTMENTATION
Journal Article
Plant and Soil, ISSN 0032-079X, 2/2003, Volume 249, Issue 1, pp. 37 - 43
Journal Article
The New Phytologist, ISSN 0028-646X, 1/2000, Volume 145, Issue 1, pp. 11 - 20
The capacity to accumulate cadmium (Cd) and zinc (Zn) was compared in Thlaspi goesingense and four populations of Thlaspi caerulescens. Two populations of T.... 
Cadmium | Population growth | Hydroponics | Greenhouses | Plants | Biomass | Soil pollution | Zinc | Heavy metals | Phytoremediation | Thlaspi caerulescens | cadmium | phytoextraction | phytoremediation | populations | Thlaspi goesingense | zinc | hyperaccumulation | Hyperaccumulation | Populations | Phytoextraction | SOIL SORPTION | CRUCIFERAE | HYPERACCUMULATOR | PLANT SCIENCES
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Journal Article
Journal Article