AI Article Synopsis
- The mineral composition of cells in organisms, particularly maize kernels, is crucial for their functioning and can indicate physiological processes.
- In a study, the expression of silicon transporter genes (ZmLsi1 and ZmLsi6) was measured after pollination, showing they are responsible for silicon uptake throughout kernel development.
- Silicon accumulation was highest in the pericarp and embryo, with specific correlations found between silicon and other essential macro and microelements, which may influence nutrient uptake.
Article Abstract
The mineral composition of cells, tissues, and organs is decisive for the functioning of the organisms, and is at the same time an indicator for understanding of physiological processes. We measured the composition of the ionome in the different tissues of maize kernels by element microanalysis, with special emphasis on silicon (Si). We therefore also measured the expression levels of the Si transporter genes , and , responsible for Si uptake and accumulation. Two weeks after pollination and genes were expressed, and expression continued until the final developmental stage of the kernels, while was not expressed. These results suggest that exclusively ZmLsi1 and ZmLsi6 are responsible for Si transport in various stages of kernel development. Expression level of genes was consistent with Si accumulation within kernel tissues. Silicon was mainly accumulated in pericarp and embryo proper and the lowest Si content was detected in soft endosperm and the scutellum. Correlation linkages between the distribution of Si and some other elements (macroelements Mg, P, S, N, P, and Ca and microelements Cl, Zn, and Fe) were found. The relation of Si with Mg was detected in all kernel tissues. The Si linkage with other elements was rather specific and found only in certain kernel tissues of maize. These relations may have effect on nutrient uptake and accumulation.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5474966 | PMC |
| http://dx.doi.org/10.3389/fpls.2017.01063 | DOI Listing |
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