EC Number   |
General Information |
Reference |
|---|
   7.2.2.21 | malfunction |
the root cell cytoplasm of Cd-overaccumulating rice plants has more Cd available for loading into the xylem as a result of the lack of HMA3-mediated transportation of Cd to the vacuoles |
720560 |
| 7.2.2.21 | physiological function |
a CadA-deleted strain fails to grow at high zinc concentrations (2 mM) and its growth is delayed at lower zinc concentrations. CadA is specifically induced in a dose-dependent manner by zinc and cadmium in in vitro conditions and into Anthyllis vulneraria nodules after Zn stress. Metal induction sensitivity is increased in the strain where CadA gene is deleted. Heterlogous expression in Escherichia coli confers resistance to Cd2+ to the clone |
-, 755368 |
| 7.2.2.21 | physiological function |
expression of Hmtp in Escherichia coli increases the tolerance to cadmium and zinc |
-, 733128 |
| 7.2.2.21 | physiological function |
HMA3-RNAi lines are hypersensitive to Cd but not to Zn, with the growth of shoots and young leaves being severely inhibited by Cd. Overexpressing HMA3 in the nonhyperaccumulating ecotype of Sedum alfredii greatly increases its tolerance to and accumulation of Cd, but not Zn. Expression of HMA3 in Saccharomyces cerevisiae results in Cd-specific transport activity |
754916 |
| 7.2.2.21 | physiological function |
metal ATPase 3 controls root-to-shoot Cd2+ translocation rates |
720560 |
