EC Number |
Substrates |
Organism |
Products |
Reversibility |
---|
7.2.2.14 | ATP + H2O + Mg2+/out |
- |
Aeromonas hydrophila |
ADP + phosphate + Mg2+/in |
- |
? |
7.2.2.14 | more |
The AtMGT family of transports is involved in Mg2+ transport acquisition from the environment and/or in Mg2+ transport within the plant. |
Arabidopsis sp. |
? |
- |
? |
7.2.2.14 | more |
Different AtMGT members have different cation selectivity that contributes to the functional diversity of the protein family. AtMGT1 may transport Mg2+ with the highest efficiency of all the divalent cations tested: Cu2+ Fe2+ Mn2+, Co2+ Cd2+, Mg2+. |
Arabidopsis sp. |
? |
- |
? |
7.2.2.14 | ATP + H2O + Mg2+/out |
- |
Arabidopsis thaliana |
ADP + phosphate + Mg2+/in |
- |
? |
7.2.2.14 | ATP + H2O + Mg2+/out |
MGT9 functions as a low-affinity Mg2+-transporter, is essential for pollen development, and plays a critical role in many physiological processes |
Arabidopsis thaliana |
ADP + phosphate + Mg2+/in |
- |
? |
7.2.2.14 | ATP + H2O + Mg2+/out |
MGT9 is capable of mediating Mg2+ uptake in the sub-millimolar range |
Arabidopsis thaliana |
ADP + phosphate + Mg2+/in |
- |
? |
7.2.2.14 | more |
the Arabidopsis thaliana CorA homologues of the Mrs2p family have putative transmembrane segments and catalyzes Mg2+ transport, CorA does not contain an ATP binding site and acts as a Mg2+ channel probably driven by the inward electrochemical Mg2+ potential |
Arabidopsis thaliana |
? |
- |
? |
7.2.2.14 | ATP + H2O + Co2+/out |
- |
Cytobacillus firmus |
ADP + phosphate + Co2+/in |
- |
? |
7.2.2.14 | ATP + H2O + Mg2+/out |
- |
Cytobacillus firmus |
ADP + phosphate + Mg2+/in |
- |
? |
7.2.2.14 | ATP + H2O + Co2+/out |
- |
Cytobacillus firmus OF4 |
ADP + phosphate + Co2+/in |
- |
? |