It has been recently well documented that metal transport systems play a crucial role in the uptake, distribution and detoxification of heavy metals throughout the plant. A range of gene families that are likely to be involved in essential and non-essential metal transport has been now identified and their plasma membrane and/or tonoplast localization in plant cells has been recently confirmed. These include the primary metal transporters, using ATP as the source of energy and H(+)-coupling transporters, utilizing the electrochemical gradient previously generated by plasma membrane and tonoplast proton pumps. As the presence of nucleotide binding domains in the protein sequence may indicate its ATP-hydrolytic activity, it is more difficult to determine the H(+)-coupling activity of protein on the base of its structure. Thus, the H(+)-coupling activity of protein may be only proved by functional analysis of the protein. In this work, we briefly review the structure, regulation and function of the metal transporters operating as H(+)/metal cotransporters.
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