AI Article Synopsis
- Copper and iron are crucial micronutrients involved in various biological processes, and their interdependence is established in organisms like yeast and mammals but less understood in higher plants.
- COPT2 is a high-affinity copper transport protein in Arabidopsis that helps the plant acquire copper, showing a coordinated response to both copper and iron deficiencies, particularly in the roots.
- Knocking out the COPT2 gene (copt2-1) enhances the plant's resistance to simultaneous copper and iron shortages, leading to less leaf chlorosis and better photosynthetic function, while also suggesting potential biotechnological solutions to improve crop resilience against iron deficiency.
Article Abstract
Copper and iron are essential micronutrients for most living organisms because they participate as cofactors in biological processes, including respiration, photosynthesis, and oxidative stress protection. In many eukaryotic organisms, including yeast (Saccharomyces cerevisiae) and mammals, copper and iron homeostases are highly interconnected; yet, such interdependence is not well established in higher plants. Here, we propose that COPT2, a high-affinity copper transport protein, functions under copper and iron deficiencies in Arabidopsis (Arabidopsis thaliana). COPT2 is a plasma membrane protein that functions in copper acquisition and distribution. Characterization of the COPT2 expression pattern indicates a synergic response to copper and iron limitation in roots. We characterized a knockout of COPT2, copt2-1, that leads to increased resistance to simultaneous copper and iron deficiencies, measured as reduced leaf chlorosis and improved maintenance of the photosynthetic apparatus. We propose that COPT2 could play a dual role under iron deficiency. First, COPT2 participates in the attenuation of copper deficiency responses driven by iron limitation, possibly to minimize further iron consumption. Second, global expression analyses of copt2-1 versus wild-type Arabidopsis plants indicate that low-phosphate responses increase in the mutant. These results open up new biotechnological approaches to fight iron deficiency in crops.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3641201 | PMC |
| http://dx.doi.org/10.1104/pp.112.212407 | DOI Listing |
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